Patent Application: US-96238701-A

Abstract:
an electro - mechanical locking system for vending machine doors and the like having a function that facilitates securing a movable gasketed door and effectively seals the movable door wherein a lock assembly comprises a motor driven device that is attached to one of the movable door assembly or cabinet body and has a rotatable and translatable shaft with a bayonet end having an arrow shape end that engages a slotted stationary device that is generally located in the cabinet body . driving members cause the translational and rotational movement of the bayonet end and are configured to move in a curvilinear or sinusoidal path so there is a smooth transition and some rotation along with translational movement .

Description:
the above objects are accomplished by providing a locking device that can be totally housed inside the cabinet and movable door structure of vending machines . the locking system is composed of two mechanical devices that interact using electronics to control the interaction that allows the vending machine to be a highly secure device . the first part of the mechanical lock consists of central cylindrical housing , a rotatable shaft , and a ramped gear housing , motor drive and cross pin with rollers . the second part of the mechanical lock is the stationary device that consists of method for attaching it to the cabinet as well as a slotted plate that receives the rotatable shaft while the door is closing . the locking action begins by moving the arrow shaped end of the rotatable shaft into the slotted plate on the stationary device . this action causes a movable plate that is located in the stationary device to change the state of an electrical switch . this sends a signal to a control device and activates a gear motor . the gear motor rotates the ramped gear housing and causes the pin to react with a radially slot on the central cylindrical housing . the rotatable shaft is nested inside the central housing and the pin passes through a slot that is machined parallel through the shaft . the pin is nested in such a manner as to facilitate two bearing surfaces on either side of the central cylindrical housing . as the pin moves it follows the contours of the slot located in the central cylindrical housing . the slot is curved so to allow a smooth transition from a radial motion to a parallel motion . the parallel motion causes the pin to move up the ramps located inside the ramped gear housing . this action causes the rotatable shaft to draw into the central cylindrical housing . rollers are provided on the pin to reduce friction . the curvilinear shape of the slot in the central cylindrical housing keeps the rollers from jamming as the action transitions from radial to linear motion and provides a somewhat sinusoidal path of movement . steel ramps are nested in the ramped gear housing . these ramps provide high wear surfaces for the pin rollers and prevents plastic failure of the ramped gear housing . the steel ramps are curved and are effectively are standing on end inside the ramped gear housing . these ramps transfer all on the compressive forces of the pin rollers to the mounting plate surface of the lock . an additional wear plate is located between the ramped gear housing and mounting plate surface of the lock . the motion of the pin as it moves up the ramp is transferred from the ramp surface to the central cylindrical housing slot , then the pin follows the slot pushing on a screw that is located in the back of the rotatable shaft . by adjusting this screw in and out of the rotatable shaft the relative position of the rotatable shaft is changed . the length of the motion is controlled by the height of the ramp surfaces . the gear motor stops when it is signaled by either an electrical switch that is located on the ramped gear housing or excessive current ( wattage ). the function of the rotatable shaft is further defined by using a second sensing switch on the ramped gear housing . this sensing switch detects the rotatable shaft as it begins its rotation . if the movable door is allowed to open before the rotatable shaft has rotated far enough to cause the arrow to be positioned behind the slotted plate on the stationary device the rotatable shaft will return to the position where the arrow can be removed by opening the movable door on the vending machine . to unlock the door , the motor receives a signal to energize . the motor turns the opposite direction that was used to lock the movable door . the ramped gear housing rotates and the pin with rollers follows the ramp . the pin travels along the parallel surface . this action causes the rotatable shaft to extend itself . this action releases the sealing . the pin continues to follow the parallel slot until it transitions to the sinusoidal shape and begins its radial movement . this radial movement causes the rotatable shaft to turn . the turning action is stopped after the pin has run out of ramp surface or the motor turns off . there is a switch that monitors the ramped gear housing position . the stationary housing on the cabinet side of the vending machine can have its slotted plate either orientated vertically or horizontally when it is allowed to receive the arrow of the rotatable shaft . the vertical shape is desirable where the movable vending door is allowed to sag over time . this sagging will have cause to make the horizontal slotted plate not functional . the vertical design also facilitates manufacturing tolerances for the movable plate . the horizontal slotted stationary device movable plate is subject to unobtainable manufacturing tolerances . the third item of the locking system is considered to be the logic required to operate the gear motor . the object of access medium is defined as it is embedded into the logic system above . the access mediums are generally commercially available for integration into the locking system . referring now to the drawings , there is shown in fig1 a typical vending machine 10 having a stationary cabinet 20 and a movable door 30 hinged and attached thereto . as it is customary in the art , the cabinet 20 includes a product compartment chamber ( not detailed ) where products to be vended ( sold ) are stored . in addition , the movable door 30 includes provisions for the collection and storage of money collected by the sales of products contained within the vending machine . the specified locking system referenced by numeral 100 is shown in fig1 and as being attached to the movable door 30 using common commercial fasteners . the stationary device is referenced by numeral 200 is shown in fig1 . the stationary device 200 is fastened to the cabinet 20 also using common commercial fasteners . the location of the locking system in the movable door 30 is generally opposite the hinged side of the movable door 30 and is generally centrally located on the vertical plane . in the second illustrated embodiment fig2 the ramped gear housing 110 is shown assembled to central cylindrical housing 120 . it is retained in place between a snap ring 122 and a larger diameter of the central cylindrical housing 120 a rear ramped cover 121 provides a surface for the snap ring 122 to rest on . the rotatable shaft 130 is shown with the bayonet end having an arrow - shaped end section / portion 131 of the rotatable shaft in the vertical position . the central cylindrical housing 120 is fastened to the mounting system 140 with a threaded fastener 123 and key slots 141 provided in the mounting system 140 . the central cylindrical housing 120 is stationary in the mounting system 140 . in fig6 two steel ramp sections 125 rest on the washer 124 . the adjuster screw 132 is threaded into the rotatable shaft 130 and passes through a hole at the rear of the central cylindrical housing 120 . the gear motor drive 150 turns the worm gear 151 and that in turn rotates the ramped gear housing 110 . two switches 160 provide electrical feed back to the logic board 170 . there are surfaces 111 on the ramped gear housing 110 that activate the switches as the ramped gear housing 110 rotates . the stationary receiver unit 200 fig3 is mounted into the stationary cabinet 20 as shown in fig1 using the holes 203 . the slotted plate 204 receives the bayonet end arrow section 131 as shown in fig4 . a moveable plate 201 is pushed rearward by the arrow section 131 which causes the movable plate 201 to rotate about the axle 205 and activates the switch 202 activating the gear motor 150 as shown in fig2 . a flat spring 206 that is nested in both sides of the receiver unit having two curved shapes allows the slotted plate 204 to move horizontally both directions . after the arrow section 131 is removed from the stationary receiver unit 200 , the flat spring will reposition the slotted plate 204 about its original centerline position as it relates to the stationary receiver 200 . this movement allows for horizontal manufacturing tolerances for both the cabinet 20 and the door 30 as the lock 100 and the stationary receiver 200 are mounted . the vertical slot in the slotted plate 204 allows for vertical tolerances . in fig5 the ramped gear housing 110 has continued to rotate causing the arrow section 131 of the rotatable shaft to move horizontally . the specific action will be detailed in subsequent sections . after the arrow section is horizontal the rotatable shaft 130 moves longitudinally into the central cylindrical housing 120 . two rollers 181 are positioned about pin 180 in fig6 . pin 180 passes through the central cylindrical housing 120 and a longitudinal slot in the rotatable shaft 130 . the rollers 181 provide anti - friction and wear areas for the pin 180 and the steel ramps 125 as the unit operates . the pin 180 is positioned in an l shaped slot 131 fig1 in the central cylindrical housing 120 . in fig6 it is shown resting in place at what is to be considered as the base of the l shape slot 131 . as the gear motor 150 activates it rotates the worm gear 151 this causes the ramped gear 110 to rotate . this in turn causes the pin 180 to move radially around the base of the l shape slot 131 in the cylindrical housing 120 . this causes the arrow section 131 to rotate . as the ramped gear 110 continues to rotate the pin 180 makes contact with the side of the l shaped slot 131 . the pin 180 then begins to move up the side of the l shaped slot 131 because the steel ramps 125 pushes the pin longitudinally . this longitudinal action was described earlier in this embodiment so as to describe its utility for this application . the shape of the l shaped slot 131 is conceived in such a manner as to prevent the rollers 181 from jamming as the pin 180 transitions from radial movement to a longitudinal direction . the pin 180 actually facilitates the pushing action on the rotatable shaft 130 through the adjuster screw 132 . while it is possible to have the pin 180 push on the end of the longitudinal slot in the rotatable shaft 130 it is desirable to allow for adjustment . the longitudinal slot 134 in fig6 and fig1 is closed on both ends of the rotatable shaft . a threaded hole is provided through the centerline of the shaft intersecting the longitudinal slot 134 on the end opposite of the arrow portion 131 of the rotatable shaft . the longitudinal slot 134 provides the area for driving the rotation of the rotatable shaft . a chamfer 135 area is required to the prevent plastic deformation of the slotted area 134 of the outside diameter of the rotatable shaft 130 in reaching the inside bore diameter of the center cylindrical housing 120 . a common compression spring ( not shown ) is provided on the end of the rotatable shaft 120 and is housed inside the center cylindrical housing 120 at the end where the adjuster screw 132 is located . this spring provides a cushion effect when the mechanism is considered unlocked or open . that is to say when the arrow portion 131 of the rotatable shaft 130 is vertical . fig8 flow - chart indicate the unlock to locked event and vise versa . the control of the lock as it described in this embodiment may use a variety of methods to control it . while electronics ( solid - state ) type of controls are the current acceptable methodology the logic can be controlled with electromechanical relays . communication signals to control the lock may derive from any number of means as described earlier . all references , including publications , patent applications , and patents , cited herein are hereby incorporated by reference to the same extent as if each reference were individually and specifically indicated to be incorporated by reference and were set forth in its entirety herein . the use of the terms “ a ” and “ an ” and “ the ” and similar referents in the context of describing the invention ( especially in the context of the following claims ) are to be construed to cover both the singular and the plural , unless otherwise indicated herein or clearly contradicted by context . recitation of ranges of values herein are merely intended to serve as a shorthand method of referring individually to each separate value falling within the range , unless otherwise indicated herein , and each separate value is incorporated into the specification as if it were individually recited herein . all methods described herein can be performed in any suitable order unless otherwise indicated herein or otherwise clearly contradicted by context . the use of any and all examples , or exemplary language ( e . g ., “ such as ”) provided herein , is intended merely to better illuminate the invention and does not pose a limitation on the scope of the invention unless otherwise claimed . no language in the specification should be construed as indicating any non - claimed element as essential to the practice of the invention . preferred embodiments of this invention are described herein , including the best mode known to the inventors for carrying out the invention . of course , variations of those preferred embodiments will become apparent to those of ordinary skill in the art upon reading the foregoing description . the inventors expect skilled artisans to employ such variations as appropriate , and the inventors intend for the invention to be practiced otherwise than as specifically described herein . accordingly , this invention includes all modifications and equivalents of the subject matter recited in the claims appended hereto as permitted by applicable law . moreover , any combination of the above - described elements in all possible variations thereof is encompassed by the invention unless otherwise indicated herein or otherwise clearly contradicted by context 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