The present application is based on Japanese patent application No. 2010-133010 filed on Jun. 10, 2010, the entire contents of which are incorporated herein by reference.
1. Field of the Invention
This invention relates to an installation structure for a key cylinder, in particular, an installation structure for a key cylinder in a vehicle.
2. Description of the Related Art
A latch part for maintaining a trunk door in an engaging state by engaging with a striker is fixed in a trunk of a rear part of a vehicle. For example, an outer handle is rotatably installed in a ceiling part of a mounting part of license plate, and the latch part can be operated by that the outer handle is operated from the outside. In addition, some vehicles have a structure that a key cylinder for locking and unlocking the trunk by a key operation is installed. For example, they have a structure that a key cylinder with an opener is fixed in a trunk located at the back of the vehicle together with a garnish part, and by operating the key cylinder, the striker engaged with the latch part can be unlocked from the outside, so that the trunk can be unlocked or locked (e.g., JP-A-2001-26220).
However, although the structure shown in JP-A-2001-26220 that the key cylinder is installed in an approximately horizontal state to the trunk has a good workability in the installation work of the key cylinder, in case of a structure that the key cylinder is installed from a position located below the trunk of the vehicle, it is necessary that the installation work is carried out while the key cylinder and fixing bolts for fixing the key cylinder on a side of the vehicle are supported from a lower position at the installation of the key cylinder so as not to fall, thereby the workability may be lowered.
Therefore, it is an object of the invention to solve the above-mentioned problem and provide an installation structure for a key cylinder that has a good workability in the installation work of the key cylinder even if a structure that the key cylinder is installed from a position located below the trunk is adopted.
(1) According to one embodiment of the invention, a key cylinder installation structure comprises:
a key cylinder comprising a flange that is fixed to a trunk of a vehicle, the flange comprising a mounting hole through which a mounting bolt is inserted into a reference hole and a secondary reference hole, respectively, formed in the trunk, the key cylinder being operable to lock and unlock the trunk; and
a pad that is attached to the flange of the key cylinder and comprises a hole through which the mounting bolt is inserted and a projection projecting toward a center of the key cylinder in the hole of the pad,
wherein when the mounting bolt is inserted into the mounting hole, the projection of the pad lies between the mounting bolt and the mounting hole.
In the above embodiment (1) of the invention, the following modifications and changes can be made.
(i) The key cylinder is installed from below the trunk of the vehicle.
(ii) A lap margin of the projection of the pad lying between the mounting bolt on a side of the reference hole and the mounting hole of the flange is set to be more than a lap margin of the projection of the pad lying between the mounting bolt on a side of the secondary reference hole and the mounting hole of the flange.
(iii) The pad comprises an elastic material.
(iv) The pad is attached to the flange at an opposite side of the reference hole and the secondary reference hole.
(v) A distance between the mounting holes of the flange is greater than a distance between the reference hole and the secondary reference hole.
(vi) The projection on the side of the reference hole has a thickness more than that of the projection of on the side of the secondary reference hole.
Points of the Invention
According to one embodiment of the invention, a key cylinder installation structure is constructed such that a pad is mounted on a flange of a key cylinder, and upon the insertion of mounting bolts projections of the pad are bent to engage the mounting bolts with the projections of the pad. Thereby, the mounting bolts are unlikely to disengage or drop down, so that the workability in installing the key cylinder can be enhanced even when the key cylinder is installed from below, as in a trunk key cylinder.
The preferred embodiments according to the invention will be explained below referring to the drawings, wherein:
A key cylinder 100 to be installed in a trunk 2 of a vehicle 1 is fixed by that a flange 120 disposed in a cylinder case 110 of the key cylinder 100 is fastened to a reinforcement 22 welded to an inner panel 21 of the trunk 2 by using stud bolts 200A, 200B and nuts 210A, 210B. The key cylinder 100 is installed from a position (B in
(Structure of Key Cylinder 100)
The key cylinder 100 includes the cylinder case 110 as a housing part having the flange 120 for mounting and fixing the cylinder case 110 on a side of the vehicle 1, and a rotor unit (not shown) housed in the cylinder case 110 and rotatable by an insertion and rotation operation of a match key K that is a proper key.
As shown in
The cylinder case 110 includes the body part 115 of a tubular shape having an interior space capable of housing the rotor unit, and the flange 120 extending from the body part 115 along the diameter direction. The flange 120 is fastened to the reinforcement 22 as a reinforcement member welded to the inner panel 21 of the trunk 2 by using stud bolts 200A, 200B and nuts 210A, 210B via the pad 300.
Tumbler fitting holes (not shown) that open to the inner periphery of the cylinder case 110 and communicate with the interior space are formed in the cylinder case 110, and by the insertion and rotation operation of the match key K, engagement between tumblers (not shown) and the cylinder case 110 is unlocked, thereby the rotor unit (not shown) becomes rotatable.
The key cylinder 100 has the key insertion port 130 through which the match key K can be inserted into and removed from the rotor unit (not shown), and is rotatably housed in the interior space of the cylinder case 110, and return characteristic is provided to the key cylinder 100 by springs (not shown) for returning the rotor. In addition, the key cylinder 100 is configured to have an operational function that the match key K is inserted into the key insertion port 130 and the rotor unit (not shown) is rotated, thereby the key cylinder 100 can be rotated from the initial position to a predetermined position so as to unlock the latch part 400.
As shown in
As shown
On the other hand, as shown
Here, a distance from the center of the cylinder case 110 to the mounting hole 120a is set to B+A/2 and a distance from the center of the cylinder case 110 to the mounting hole 120b is set to A/2, and the hole interval between the mounting holes 120a, 120b is set to A+B. In addition, both of the mounting holes 120a, 120b are formed to have a diameter of “D”.
As shown in
In addition, hole parts 300b, 300c are formed so as to correspond to the mounting holes 120a, 120b formed in the flange 120 of the cylinder case 110 and so as to allow the stud bolts 200A, 200B to be inserted into and pass through the hole parts 300b, 300c. In the hole parts 300b, 300c, projections 300d, 300e are respectively formed so as to project from the edge portion of the hole parts 300b, 300c toward the center of the hole parts 300b, 300c.
As shown in
Installation of the Key Cylinder
The installation of the key cylinder 100 in the vehicle 1 can be carried out by the following steps. The pad 300 is preliminarily mounted in the key cylinder 100. Namely, the key cylinder 100 is installed in a state that it can function as a key cylinder since the rotor unit (not shown) is mounted, and further, the pad 300 is mounted from a side from which the stud bolts 200A, 200B are inserted into the flange 120 of the cylinder case 110.
The is mounted in the flange 120 in a state that the center hole 300a allows the body part 115 of the cylinder case 110 to pass through, the hook parts 300f, 300g of both edge parts are hooked by both edge parts of the flange 120 and both of the pad 300 and the flange 120 come into approximately contact with each other in the each other's thickness direction.
In the above-mentioned state, an operator inserts the body part 115 of the key cylinder 100 into the body hole part 22a formed in the reinforcement 22 from the lower B position shown in
In the state, the operator supports the key cylinder 100 from the low position. The stud bolt 200A is inserted into the mounting hole 120a of the flange 120 and the reference hole 22b formed in the reinforcement 22 from the lower position B shown in
As shown in
Relationships between the stud bolts 200A, 200B and the projections 300d, 300e of the pad 300, and between the stud bolts 200A, 200B and the mounting holes 120a, 120b of the flange 120 become as shown in
As described above, the thickness t2 of the projection 300d is set larger than the distance (D-d) of the gap, and further a dimensional relationship is set so as to meet the following. Here, the difference between the distance (D-d) of the gap and the thickness t2 of the projection 300d is an amount of compression within limit of elasticity, and is referred to as “lap margin (crush margin)”.
On a side of the reference hole 22b of the reinforcement 22 shown in
The stud bolts 200A, 200B are fastened by the nuts 210A, 210B in a state that the stud bolts 200A, 200B are inserted into and pass through the pad 300, the flange 120 and the reinforcement 22. Namely, as shown in
After the key cylinder 100 is installed on a side of the vehicle 1, as shown in
In accordance with an installation structure for a key cylinder according to the embodiment of the present invention, the following advantages are provided.
(1) The pad 300 is mounted in the flange 120 of the key cylinder 100, and the projects 300d, 300e of the pad 300 are bent by the insertion of the stud bolts 200A, 200B, thereby the stud bolts 200A, 200B and the projections 300d, 300e of the pad 300 are engaged with each other. Thereby, the stud bolt does not easily drop out downward, so that the workability of installation work can be enhanced even if the key cylinder 100 is installed from the lower position.
(2) The lap margin on a side of the reference hole 22b of the reinforcement 22 is set larger than the lap margin on a side of the secondary reference hole 22c, thereby the stud bolt 200A is pushed in the right direction in
Although the invention has been described with respect to the specific embodiments for complete and clear disclosure, the appended claims are not to be thus limited but are to be construed as embodying all modifications and alternative constructions that may occur to one skilled in the art which fairly fall within the basic teaching herein set forth.
Number | Date | Country | Kind |
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2010-133010 | Jun 2010 | JP | national |