A flipper presents a key-receiving and positioning component to a user having a known key type that is not conducive to laser scanning or the like on a flat imaging glass plate; 2) a key storage system comprising a matrix of known storage cells and an automated system used to automatically identify, locate and select keys stored in the storage matrix; 3) enhanced packaging formats for storing a variety of keys for efficient picking and placing of the keys for cutting operation and a Faux Key Blade for use in packaging of smartkeys and OBD Dongle products that do not have a key blade incorporated therein or is a detachable feature; 4) a gripping or grabbing mechanism adapted to effectively pull a desired duplicate key from a known storage spot or cell among a key product storage matrix of storage cells; and 5) an effective escrow of collective delivery system to deliver multiple items or key products in one transaction as opposed to piecemeal transactions.

A flipper presents a key-receiving and positioning component to a user having a known key type that is not conducive to laser scanning or the like on a flat imaging glass plate; 2) a key storage system comprising a matrix of known storage cells and an automated system used to automatically identify, locate and select keys stored in the storage matrix; 3) enhanced packaging formats for storing a variety of keys for efficient picking and placing of the keys for cutting operation and a Faux Key Blade for use in packaging of smartkeys and OBD Dongle products that do not have a key blade incorporated therein or is a detachable feature; 4) a gripping or grabbing mechanism adapted to effectively pull a desired duplicate key from a known storage spot or cell among a key product storage matrix of storage cells; and 5) an effective escrow of collective delivery system to deliver multiple items or key products in one transaction as opposed to piecemeal transactions.

A key clamp for key processing machines and key processing machine comprising a base, a first clamp and a second clamp, have the same structure and are arranged in parallel on the base, and they both have a fixed connection with the base. The first clamp comprises at least three clamping jaw and a transmission device, three clamping jaws arranged in one row, the first clamping jaw and the third clamping jaw are both fixed in relation to the base. The second clamping jaw is flexibly installed on the base. The transmission device penetrates the first clamping jaw, the second clamping jaw and the third clamping jaw, and are connected to the second clamping jaw. The key clamp can clamp house keys and automotive keys with a multitude of structures. It has the advantages of strong versatility, simple structure, easy use and reliable clamping.

A key identification system that includes a key identification system housing, a key clamp, a key ring support tray, and two digital identifiers is disclosed. The key identification system housing may include a key receiving aperture extending through housing and sized to receive at least some of a key blade of a key. The key clamp is positioned adjacent to the key receiving aperture and allows the system to maintain the key blade in a fixed position within the key identification system housing when the key is inserted into the key receiving aperture. The key ring support tray is typically coupled to the key identification system housing below the key receiving aperture. The two digital identifiers are positioned within the key identification system housing and designed to capture key blade information.

An automatic key duplicating machine is disclosed. A master key identification module includes at least one key blade cross-section detector with a plurality of sliding elements, the master key identification module being configured to determine a key type for a master key based at least in part on engagement of the plurality of sliding elements with a blade profile of the master key. A key extraction module is configured to retrieve a key blank of an identified key type. A key cutting module is configured to cut the key blank in accordance with a tooth pattern of the master key.

Systems and methods for duplicating keys are disclosed. A key duplication system receives a key blank into a key receiving module. The key receiving module includes opposable jaws that assist with alignment of the key blank within the module. The key receiving module also includes an end stop that engages the tip of the received key blank and is linearly displaced as the key blank is further inserted. The linear displacement of the end stop is compared to a known value corresponding to a length of the shank of the key blank, and if the displacement does not match the known value, the user is instructed to re-orient the key blank.

An automatic key duplicating machine is disclosed. A master key identification module includes at least one key blade cross-section detector with a plurality of sliding elements, the master key identification module being configured to determine a key type for a master key based at least in part on engagement of the plurality of sliding elements with a blade profile of the master key. A key extraction module is configured to retrieve a key blank of an identified key type. A key cutting module is configured to cut the key blank in accordance with a tooth pattern of the master key.

Systems and methods for duplicating keys are disclosed. A key duplication system receives a key blank into a key receiving module. The key receiving module includes opposable jaws that assist with alignment of the key blank within the module. The key receiving module also includes an end stop that engages the tip of the received key blank and is linearly displaced as the key blank is further inserted. The linear displacement of the end stop is compared to a known value corresponding to a length of the shank of the key blank, and if the displacement does not match the known value, the user is instructed to re-orient the key blank.

A clamp is disclosed for a key making machine. The clamp may have an anvil, and a door movable toward the anvil to sandwich a key blank therebetween. The clamp may also have a gate pivotally connected to the door and configured to engage the key blank.

A clamp bench for key duplicating machines, comprising a fixed component, a first rotary component, a second rotary component and a slide base; the fixed component comprises a first fixed component and a second fixed component, the first fixed component is used to hold the master key in place and the second fixed component is used to hold the key blank in place; the first rotary component, the first fixed component and the second fixed component are rigidly connected to the first plane of the first rotary component, the second rotary component forms a rotary connection with the second plane of the first rotary component. Using the clamp bench, the user can press and rotate the handle with one hand to perform composite rotary feeding of the duplicated key along two different axial lines around the rotary axis and the slide base, completing the processing of the key with bevel tooth.