This invention relates generally to a cover or shield cooperable with prisoner leg cuffs for making the leg cuffs safer and more tamper-proof and, more particularly, to a safety shield for use with double-lock leg cuffs.
Leg cuffs used by police and law enforcement officers worldwide for prisoner restraint are basically standardized in construction and operation. Typically, the leg cuffs comprise a pair of leglets either hingedly connected or, more frequently, joined together by a short link chain. Each leglet has a single strand or ratchet bar which automatically engages the teeth in a double strand and is thus pivotal or rotatable through the double strand in only one direction. Once applied to the legs of a prisoner, the ratchet bar can be released or disengaged only with a key insertable into a keyhole or first lock on the leglet.
While on the legs of a prisoner, the ratchet bar is still squeezable or rotatable inwardly through the double strand to make the encircling circumference progressively smaller. This capability could of course cause injury to the prisoner. To prevent such injury, standard leg cuffs are provided with a second lock for fixing the leglet circumference preset by the officer on the prisoner's leg. The second lock typically comprises a recessed rod within a small hole that can be actuated by a projection or pin on the key carried by the officer. Use of the key to open the first lock can also open or disengage the second lock so that the leg cuffs are ready for further use.
Use of the leg cuffs with chain-connected leglets can frequently place arresting officers in dangerous and even life threatening situations. Since the connection between the leglets is flexible and rotatable, the manacled prisoner is able to manipulate his legs with a large degree of freedom. Picking of the locks is a possibility. Also, when applying the leg cuffs, the officer is standing close to the prisoner and is in physical jeopardy if the prisoner is violent or struggling. If the leg cuffs are applied to only one leg at a time, the physical danger is in no way reduced because the rotatable and pivotal connection between the two leglets affords the officer scant leverage even over the leg that is manacled.
Efforts have been made to improve the safety aspects of conventional handcuffs. Thus, for example, U.S. Pat. No. 3,616,665 shows a shield that was passed over the handcuff chain to cover the key openings and maintain the chain in a taut condition. U.S. Pat. No. 3,740,977 shows a hinged cover assembly that was applied over the wristlets and connecting chain to rigidify the connection between the prisoner's wrists and also encase the key openings. Both of the identified prior structures were characterized by a disadvantageous feature in that they made no provision for actuation of the second or double lock. The handcuffs thus needed first to be applied to the prisoner's wrists and the second lock then actuated to fix the setting of the wristlets. Only after this dangerous operation was completed was the shield or cover applied to the handcuffs. The officer thus was subjected to the kinds of dangers described above during the handcuffing operation. Furthermore, none of these prior efforts function with leg cuffs.
U.S. Pat. No. 5,007,257 discloses a safety shield for double-lock handcuffs, which is a lockable box that encompasses the mechanisms of both bracelets, and the connecting chain. This is unsuitable for use to secure the lock mechanisms of leg cuffs, even if one were employed on each leglet, because each box would be free to slide along the chain away from the leglet, exposing the mechanism.
There thus exists a need for further improving the safety aspects of leg cuff use and, particularly the need exists for a means to provide greater protection for the arresting officer during the initial leg cuffing operation as well as subsequent thereto.
The present invention provides a shield for leg cuffs which substantially eliminates the dangers and problems described. The inventive shields can be applied to the leg cuffs before the prisoner is leg cuffed to greatly improve the officer's advantage. The invention nonetheless permits the leg cuffs to be double locked as required.
Briefly, the invention comprises an improvement over the type of handcuff cover shown in U.S. Pat. No. 5,007,257 by making the cover compatible with a new form of leg cuffs. The invention thus comprises two hinged, box-like assemblies adapted to be locked over the leg cuff chain and leglets and the keyholes of the first locks. The shields are modified by the addition of circular recesses that receive an enlarged ring portion of the leg cuff chain. The shields comprise additionally access means in a wall thereof aligned with the second locks when the cover is operationally positioned and closed over a leglet of a pair of leg cuffs. The access means permits access to the second locks with a portion of the key carried by the officer. As a result, the leg cuffs may be operationally locked within the shields prior to the time that their use in shackling a prisoner is required. Once the leg cuffs are applied to the prisoner's legs, the officer may easily actuate the second locks to securely double-lock the leg cuffs. A single shield can still be used with a standard pair of handcuffs.
Numerous other advantages and features of the present invention will become apparent from the following detailed description of the invention, from the claims and from the accompanying drawings.
In the accompanying drawings forming a part of the specification, and in which like numerals are employed to designate like parts throughout.
Referring with greater particularity to the drawings, the reference numeral 10 indicates generally a safety shield embodying the principles of the invention. Safety shield 10 comprises a box-like body 12 having a pair of plate-like members 14 and 16 hingedly connected along a sidewall by a hinge rod 18. The members 14 and 16 are substantial mirror images of each other, comprising an outer face 20, an inner face 22, and a sidewall 24 opposite the hinged connection.
Each inner face 22 comprises a pair of raised sections 26 and 28 shaped to define a chain-receiving channel 30 therebetween and a pair of cuff-receiving recessed areas 32, 32, opening to the opposite ends of the face 22. The flat floor of each recessed area 32 defines a circular recess 74. The raised sections 26 and 28 are also shaped to define two recesses each 66, 68 and 70, 72.
When the members 14 and 16 are operationally closed and brought into face-to-face contact, the recessed areas 32 provide a cavity 34 as seen in
The use of two constrictions is not necessary, but is preferred to provide a shield that may be attached in either orientation, and is also versatile for use with typical short-chain handcuffs. In alternative embodiments, only one constriction is needed between the ring and cuff, to maintain the shield over the mechanism of the cuff. The circular recesses 74 enable the shield to accept a particular security handcuff locking mechanism that protrudes from the body of the handcuff and surrounds the key hole.
The sidewall 24 is formed with openings 36, 36, adjacent the opposite ends thereof which communicate with their respective recessed areas 32. In the embodiment illustrated, the openings 36 are formed by vertical cut-outs or slots and, as seen
A continuous recess or groove 38 is formed in and extends around the outer face 20 and sidewall 24 of each of the body members 14 and 16, and the raised sections 26 comprise oblong slots 40 opening to their respective outer faces. A U-shaped retainer member 42 formed as an articulated planar body is slidably receivable in the continuous groove 38 of the closed body 12, and the legs of the retainer member have oblong slots 44, 44, of complementary configuration and adapted to align with the slots 40. The aligned slots 40 and 44 are adapted to receive a zip-tie, padlock, or clip means (not shown) for locking the shields 10 in the secure closed condition shown in
Referring now to
Each leglet 46 comprises a ratchet bar 50 pivotally connected to a double strand leglet body 52 having internal teeth (not shown) which permit rotation of the ratchet bar only inwardly therethrough, but automatically prevent withdrawal in the opposite direction. Leglet body 52 comprises an enlarged head portion 54 carrying first lock means 56 in the form of a keyhole in a planar face thereof. Head portion 54 comprises further a second lock means 58 in the form of a small recessed rod engageable through a small hole in a side edge of the head portion.
A conventional key 60 cooperates with the leg cuffs 45. Key 60 comprises at one end a finger 62 insertable into the first lock means keyhole 56. At its opposite end, the key 60 comprises a projection or pin 64 which is insertable into the opening in the side edge of the leglet head 54 for actuating the second lock means 58.
Operation of the safety shields 10 may now be best appreciated by referring to
The cylindrical cavities capture the enlarged ring portions and hold the shields up against the leglets 46, preventing them from sliding along the chain to expose the leglet mechanism. The leglets may be in the open and disengaged condition. The officer can now apply the leg cuffs to the legs of a prisoner, set the leglets to the desired encircling dimension, and then actuate the second lock means 58 by pushing the key pin 64 through the access openings 36. When the leg cuffs require removal, the finger 62 of the key 60 is inserted into the keyhole 56 to reset the second lock means and unlock the first lock means.
The shield parts may be conveniently molded of suitable plastics or metal, and it will be appreciated that the invention enables the officer to carry the leg cuffs operationally secured in the safety shields at all times if desired. Even in dangerous situations where the officer is able to manacle only one leg, the rigid assembly affords substantial leverage for subduing the prisoner. If desired, or when conditions permit, the shields may of course be attached after the leg cuffs have been applied to a prisoner's legs.
Referring now to
Each wristlet 146 comprises a ratchet bar 150 pivotally connected to a double strand wristlet body 152 having internal teeth (not shown) which permit rotation of the ratchet bar only inwardly therethrough, but automatically prevent withdrawal in the opposite direction. Wristlet body 152 comprises an enlarged head portion 154 carrying first lock means 156 in the form of a keyhole in a planar face thereof. Head portion 154 comprises further a second lock means (not shown) in the form of a small recessed rod engageable through a small hole in a side edge of the head portion.
A conventional key 60 cooperates with the handcuffs 145. Key 60 comprises at one end a finger 62 insertable into the first lock means keyhole 156. At its opposite end, the key 60 comprises a projection or pin 64 which is insertable into the opening in the side edge of the wristlet head 154 for actuating the second lock means.
Preparatory to shackling a prisoner, the officer can insert improved handcuffs 145 in the body 12 with the enlarged ring portion 176 seated in the cylindrical cavities formed by recessed areas 66, 68, 70, and 72 and the wristlet heads 154 in the cavities 34, close the body, apply the retainer member 42, and securely lock the rigid assembly with a padlock or the like. The cylindrical cavities capture the enlarged ring portion and hold the shield up against the wristlets 46, preventing them from sliding to expose the wristlet mechanism. If a conventional set of double-lock handcuffs is used, the chain 148 is placed in the channel 30. The wristlets 146 may be in the open and disengaged condition. The officer can now apply the handcuffs to the wrists of a prisoner, set the wristlets to the desired encircling dimension, and then actuate the second lock means by pushing the key pin 64 through the access openings 36. When the handcuffs require removal, the finger 62 of the key 60 is inserted into the keyhole 156 to reset the second lock means and unlock the first lock means.
It will be appreciated that the invention enables the officer to carry the handcuffs operationally secured in the safety shield at all times if desired. Even in dangerous situations where the officer is able to manacle only one wrist, the rigid assembly affords substantial leverage for subduing the prisoner. If desired, or when conditions permit, the shield may of course be attached after the handcuffs have been applied to a prisoner's wrists. It should also be appreciated that the language and expressions used herein are for purposes of description only and changes and modifications may be made by those skilled in the art without departing from the spirit and scope of the invention which is defined in the appended claims.