The present invention relates to a mechanical key.
A mechanical key includes a grip and a key plate, which is inserted into the grip. Such a mechanical key may be used, for example, in an electronic key system for vehicles. An electronic key system includes a portable device, which is provided with a communication function, and a lock controller, which communicates with the portable device. The portable device is carried by a user, and the lock controller is installed in a vehicle.
When the user approaches the vehicle, the electronic key system establishes communication between the lock controller and the portable device, which is located outside the vehicle, to unlock a vehicle door. Since the electronic key system automatically unlocks the door, the user may enter the vehicle by just pulling the door knob.
The portable device incorporates a battery and uses the battery power to perform communication with the lock controller. Thus, when the voltage of the battery becomes less than a predetermined value, the portable device cannot communicate with the lock controller. As a result, the door cannot be unlocked with the electronic key system. To cope with such a case, the portable device includes a mechanical key to mechanically lock and unlock the door. This enables the user to unlock the door with the mechanical key even when communication between the portable device and the lock controller is disabled.
To improve portability, there is a demand for a more compact portable device. Thus, recent mechanical keys have become shorter. This has shortened the portion of the key plate that is inserted into the grip. As a result, when inserting the key plate into the grip, the key plate easily inclines relative to the grip, or the insertion direction. This makes it difficult to position the key plate relative to the grip, and the key plate may become loose.
The present invention provides a mechanical key enabling ensured positioning of a key plate relative to a grip.
One aspect of the present invention is a mechanical key provided with a grip including a socket. A key plate is fixed to the grip and has a thickness and a width. The key plate includes a blade and a shank, which is inserted into the socket in an insertion direction. The shank has a distal part. The socket of the grip includes a movement restriction portion for abutting against the shank of the key plate and restricting movement of the shank in a direction perpendicular to the insertion direction. The shank of the key plate includes a pivot restriction portion for restricting pivoting of the key plate about the distal part of the shank.
A further aspect of the present invention is a mechanical key for accommodation in a portable device for use in an electronic key system. The mechanical key is provided with a grip including a socket. A key plate is fixed to the grip and has a thickness and a width. The key plate includes a blade and a shank, which is inserted into the socket in an insertion direction. The shank of the key plate includes a first edge, extending in the insertion direction, for abutting against the socket when the shank is inserted into the socket. The shank also includes a shoulder extending from the blade. The socket includes a guide for abutting against and guiding the first edge of the shank when the shank is inserted into the socket. The guide is mated with the first edge under pressure so as to restrict movement of the key plate. The socket also includes a second edge for abutting against the shoulder when the shank is inserted into the socket. The second edge is mated with the shoulder under pressure so as to restrict movement of the key plate.
Other aspects and advantages of the present invention will become apparent from the following description, taken in conjunction with the accompanying drawings, illustrating by way of example the principles of the invention.
The invention, together with objects and advantages thereof, may best be understood by reference to the following description of the presently preferred embodiments together with the accompanying drawings in which:
A preferred embodiment of the present invention will now be described with reference to the drawings. In the preferred embodiment, a portable device of an electronic key system includes a mechanical key 12.
Referring to
As shown in
As shown in
As shown in
As shown in
Referring to
The socket 21 includes guides 25. Each guide 25 is defined by a slanted surface linearly extending between the two walls of the socket 21 that face toward the corresponding guide abutment edge 35 in a state in which the shank 31 is inserted into the socket 21. The guides 25 guide the guide abutment edges 35 of the shank 31 during insertion of the key plate 30 into the socket 21. Further, the guides 25 abut against the guide abutment edges 35 in a manner that the guides 25 are mated with the guide abutment edges 35 under pressure. That is, the guide abutment edges 35 are press-fitted to the guides 25. The guides 25 function as a movement restriction portion for restricting movement of the key plate 30 in directions perpendicular to the insertion direction D1. In the preferred embodiment, the guides 25 restrict movement of the guides 25 in the thicknesswise direction D2 and the widthwise direction D3. Further, the press-fitting of the guide abutment edges 35 to the guides 25 absorbs errors in the cross-sectional dimensions of the key plate 30. That is, the press-fitting absorbs dimensional errors in the thicknesswise direction D2 and the widthwise direction D3.
In detail, referring to
A tapered surface 26 extends diagonally toward the opening 22 from each guide 25. During insertion of the key plate 30 into the grip 20, when the distal part of the key plate 30 advances from a position free of the guides 25, as shown in the state of
As shown in
Referring to
The preferred embodiment has the advantages described below.
(1) When the shank 31 of the key plate 30 is inserted into the grip 20, the guides 25 of the grip 20 restrict movement of the key plate 30 in directions perpendicular to the insertion direction D1 (i.e., the thicknesswise direction D2 and the widthwise direction D3). Further, the inclined surfaces 33 of the key plate 30 restrict pivoting of the key plate 30 about the distal part of the shank 31. Thus, movement of the shank 31 of the key plate 30 when inserted into the grip 20 is restricted. This ensures positioning of key plate 30 in the socket 21 and prevents the key plate 30 from becoming loose.
(2) Movement of the key plate 30 in the thicknesswise direction D2 is restricted by the guides 25, and pivoting of the key plate 30 in the widthwise direction D3 is restricted by the inclined surfaces 33 of the shoulder 36. The guides 25 restrict movement of the shank 31. The inclined surfaces 33 restrict pivoting of the key plate 30 at positions located closer to the blade 32 than the distal part of the shank 31. Thus, movement of the key plate 30 in directions perpendicular to the insertion direction D1 is restricted at different locations in the insertion direction D1. This ensures positioning of the key plate 30 with respect to the grip 20.
(3) When inserting the key plate 30 into the grip 20, the guides 25 guide the guide abutment edges 35 of the shank 31 in the insertion direction D1 of the key plate 30. Thus, the key plate 30 is smoothly inserted into the socket 21. This facilitates assembly of the mechanical key 12. Further, the guide abutment edges 35 of the key plate 30 are mated with the guides 25 under pressure (press-fitted) in correspondence with the cross-sectional dimensions of the key plate 30. This absorbs errors in the cross-sectional dimensions (dimensions in the thicknesswise direction D2 and the widthwise direction D3) of the key plate 30.
(4) The abutment of the inclined surfaces 33 of the shank 31 against the shoulder abutment edges 24 of the grip 20 restrict pivoting of the key plate 30 about the distal part of the shank 31. Further, the shoulder abutment edges 24 of the grip 20 are mated with the inclined surfaces 33 under pressure (press-fitted) in correspondence with the dimensions of the key plate 30. This absorbs dimensional errors of the key plate 30 in the widthwise direction D3.
(5) The tapered surface 26 extends diagonally toward the opening 22 of the socket 21 from each guide 25. When the key plate 30 is inserted into the grip 20, each tapered surface 26 guides the distal part of the key plate 30. Thus, the key plate 30 is smoothly inserted into the socket 21.
(6) The shoulder abutment edges 24 of the grip 20 abut against the inclined surfaces 33 of the key plate 30, and the guide abutment edges 35 of the key plate 30 abut against the guides 25 of the grip 20. In this manner, the grip 20 and the key plate 30 contact each other at the abutment edges 24 and 35. Thus, the grip 20 and the key plate 30 are fixed to each other in an optimal manner even though they are made of metal, which is harder than resin.
It should be apparent to those skilled in the art that the present invention may be embodied in many other specific forms without departing from the spirit or scope of the invention. Particularly, it should be understood that the present invention may be embodied in the following forms.
In the preferred embodiment, the tapered surfaces 26 are formed extending from the guides 25 toward the opening 22. However, the tapered surfaces 26 are not necessarily required.
In the preferred embodiment, the guides 25 are arranged on opposite sides of the wall extending in the widthwise direction D3. However, the guides 25 may take other forms as long as movement of the key plate 30 in directions perpendicular to the insertion direction D1 of the shank 31 is restricted. For example, there may be only one guide 25. Alternatively, the guides 25 may be arranged on opposite sides of a wall extending in the thicknesswise direction D2.
In the preferred embodiment, the key plate 30 includes the inclined surfaces 33, which are linear such that the distance between the inclined surfaces 33 gradually increase in the widthwise direction D3 toward the blade 32. However, the inclined surfaces 33 may have other forms as long as pivoting of the key plate 30 about the distal part of the shank 31 is restricted.
In the preferred embodiment, the shoulder abutment edges 24 of the grip 20 that abut against the inclined surfaces 33 of the key plate 30 may take any form as long the shoulder abutment edges 24 abut against the inclined surfaces 33 and restrict pivoting of the key plate 30 about the distal part of the shank 31. However, it is preferable that the shoulder abutment edges 24 be located as far as possible from the distal part of the shank 31. This would space the shoulder abutment edges 24 from the pivoting center of the key plate 30 and position and fix the key plate 30 in the socket 21 in an optimal manner.
In the preferred embodiment, the grip 20 and the key plate 30 are made of metal. However, the grip 20 and the key plate 30 do not have to be made of metal and may be made of, for example, resin.
The present examples and embodiments are to be considered as illustrative and not restrictive, and the invention is not to be limited to the details given herein, but may be modified within the scope and equivalence of the appended claims.
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