Abstract:
A car electronic device mounting assembly for mounting a car stereo or other car electronic device in a mounting aperture provided in a car body comprises a rectangular, hollow bracket fixed in the mounting aperture and having an engage hole formed in its side wall, lock claws provided on the car electronic device to engage the engage hole to hold the car device immovable with respect to the bracket, and an unlocking bar configured to resiliently retract the lock claws from the engage hole into the interior of the electronic device to unlock the electronic device from the bracket.

Description:
FIELD OF THE INVENTION 
     This invention relates to an assembly including a bracket fixed to a mounting aperture in a front panel or console box of a car to support there a car stereo, pre-amplifier or other automotive electronic device, and more particularly to an assembly permitting a user to readily remove the electronic device from the bracket to bring it away from the car with him for antitheft purpose. 
     BACKGROUND OF THE INVENTION 
     A prior art mounting assembly is shown in FIG. 5, in which a car stereo or other automotive electronic device 21 is mounted in a rectangular, hollow bracket 22. A mounting aperture 23 originally provided in a car is 53 mm high and 182 mm wide, which is a uniform size according to the ISO or IDN standard. The standard mounting aperture 23 is formed in a front panel 24 of a car. The bracket 22 which can be attached to the automotive electronic device 21 is inserted in the mounting aperture 23, and engage claws 25 formed on the bracket 22 are bent to fix the bracket to the mounting aperture 23. Subsequently, the electronic device 21 is inserted in the bracket 22, and claw-shaped plate springs 26 formed on the electronic device 21 engage mounting holes 27 formed at both ends of the bracket 22 to fix the electronic device 2 within the mounting aperture 23. 
     To remove the electronic device 21, a specific tool 28 is inserted in slits at both sides of the electronic device 21 to resiliently retract the plate springs 26 from engagement with the bracket 22 and is subsequently used to pull out the device 21 from the bracket 22. 
     A further prior art mounting assembly has been proposed in Japanese Utility Model Application No. 61-42995 in the name of the assignee of this application. According to the assembly, a carrying handle itself is provided with a releasable locking mechanism and, when pulled out, releases engagement between the bracket and the plate springs, so that the electronic device can be readily removed or mounted without using any particular tool as in the aforegoing prior art assembly. 
     The former prior art assembly is configured so that the plate springs 26 in engagement with the bracket 22 project into the interior of the bracket 22, as shown in FIG. 5. Therefore, the device 21 cannot be removed from the bracket unless the plate springs 26 retract into the interior of the device 21, and this requires a specific tool having a particular configuration. If any other tool is forcibly used, it often damages the peripheral margin of the mounting aperture, i.e. the front panel 24. 
     The latter prior art assembly certainly facilitates removal of the device 21 from the bracket. However, it involves a problem in that the device 21 jumps out of the bracket upon a traffic accident or other strong impulse and often injures a human body. 
     OBJECT OF THE INVENTION 
     It is therefore an object of the invention to provide a mounting assembly which permits a user to readily remove a device from a bracket in a one-touch fashion not requiring any particular tool so that the user may bring the device with him for antitheft purpose when he leaves the car. 
     SUMMARY OF THE INVENTION 
     According to the invention, there is provided an assembly for mounting a car electronic device comprising: 
     a rectangular, hollow bracket fixed in a mounting aperture provided in a car; 
     an engage hole formed in at least one side wall of said bracket; 
     an engage member provided on one side of a car electronic device to be mounted in said bracket; 
     lock claws and engage portions both provided on said engage member, said lock claws engaging said engage hole to lock the car electronic device with respect to said bracket when the former is inserted in the latter; 
     an unlocking bar configured to unlock engagement between said lock claws and said engage hole when said car electronic device is inserted in the bracket; and 
     engage projections which are formed on said unlocking bar to engage said engage portions and can hold said engage member at its unlocking position. 
     Each lock claw may have a tapered end, and the unlocking bar may be biased by a resilient member to an inoperative position. 
     With this arrangement, the lock claws of the device engage the engage holes in the vertical walls of the bracket to hold the device immovable. When the unlocking bar is pushed, the lock claws retract into the interior of the device from the engage holes to allow a user to pull out the device from the bracket. After the device is removed from the bracket, the lock claws resiliently return to their projecting positions. When the device is inserted again in the bracket, the lock claws are resiliently pushed into the interior of the device by slidably opposed surfaces of the bracket vertical wall. When the lock claws are opposed to the engage holes of the bracket, they become free from the pressure by the bracket wall and spring out from the interior of the device and engagingly enter the engage holes of the bracket. Thus the device is held in the bracket immovably. 
    
    
     BRIEF DESCRIPTION OF THE DRAWINGS 
     FIG. 1 is a perspective view showing an embodiment of the invention; 
     FIG. 2 is a perspective view, taken from the bottom of members in the embodiment of FIG. 1; 
     FIG. 3 is an exploded, perspective view of members in the same embodiment; 
     FIGS. 4(a) through 4(c) are side elevations of different operational positions of the members in the same embodiment; and 
     FIG. 5 is a perspective view of a prior art assembly. 
    
    
     DETAILED DESCRIPTION 
     The invention is described below, referring to a preferred embodiment illustrated in the drawings. 
     FIG. 1 is a perspective view of a mounting assembly embodying the invention, FIG. 2 is a perspective view, taken from the bottom, of members in the same embodiment, FIG. 3 is an exploded, perspective view of an unlocking mechanism in the same embodiment, and FIGS. 4(a) through 4(c) are side elevations showing different operational positions of the same embodiment. 
     The inventive mounting assembly is used exclusively on the right side of the device 1 as seen from the front face of the device 1, so as to hold the device 1 in a bracket 2 by engagement between lock claws 4 of the device 1 and an engage hole 3 of the bracket 2. Each lock claw 4 has an engage end 4a at its front end for engagement with the front end of the engage hole 3 to prevent the lock claw from dropping out of the engage hole 3 upon a traffic accident or other external force beyond a predetermined magnitude. An escutcheon 5 pivotably supports a handle 6. 
     Both vertical walls of the bracket 2 are provided with engage holes 3, and the bracket 2 is fixed to a mounting aperture of a car in the same fashion as in the prior art assembly. 
     The escutcheon 5 is fixed to the front face of the device 1, and has shafts 6c at both sides thereof to pivotably support the handle 6. The handle 6 is normally disposed in a vertical configuration in the car as shown in FIG. 1. At one side of the escutcheon 5 is provided an engage member 7 having lock claws or engage projections 4. The engage member 7 has a front end plate 7a bent and extending upward, and the substantially triangular or trapezoidal lock claws 4 are at both sides thereof. Each lock claw 4 includes an engage end 4a which is its front end (near to the escutcheon 5), which extends vertically downwardly, and which merges into a slope gently sloped edge 4b which in turn merges into an angled edge 4c. Adjacent each lock claw 4, is a base plate 8 of the engage member 7, is provided an engage hole or holding hole 9, and the lock claws 4 and base plate 8 form a U-shaped channel configuration. 
     A resilient planar member 10 is provided at one side of the engage member 7, maintaining a parallel positional relationship with the engage member 7, and always biases the engage member 7 by pressing on it. 
     The resilient member 10 has a recess 10a to accept the head of a stud which would otherwise project into the bracket 2. The stud fixes the resilient member 10 to the device 1. An unlocking bar 11 is movably supported near the lock claws 4. 
     The unlocking bar 11 has a base plate 12 whose distal end is wider than the remainder thereof. At both sides of the wide end are formed engage plates 14 each having an engage projection 13 or holding projection. The base plate 12 has a claw 16 supporting one end of a coil spring 15 which is used as a resilient member described later. 
     For removal of the device 1, a release button 17 provided on the front face of the escutcheon is pushed. Responsively, the unlocking bar 11 advances (FIG. 4A) against the energy of the coil spring 15 which extends between a case C of the device 1 and the claw 16, and the base plate 8 of the engage member 7 bridging the lock claws 4 is resiliently deformed along angled edges 12a at the distal end of the unlocking bar 11, so that the engage ends 4a of the lock claws 4 disengage from the engage hole 3. Concurrently, the engage projections 13 engage the engage holes 9 to lock the unlocking bar 11 in this configuration (FIG. 4B). 
     Subsequently, when the handle 6 secured to the device 1 is rotated up to a horizontal configuration and pulled, the lock claws 4 are pushed into the interior of the device 1 by their ends 4b sliding along the front end of the engage hole 3 (FIG. 4c), and enable removal of the device 1 from the bracket 2. Simultaneously, as shown in FIG. 4c, the projections 13 disengage from the holes 9 and the spring 15 moves the member 12 leftwardly to its original position. 
     Soon after the device 1 is removed from the bracket 2, i.e. after the lock claws 4 become free from frictional engagement with the opposed bracket walls 2, the lock claws 4 are moved to again project outwardly from the exterior of the case C by the energy of the resilient member 10. 
     On mounting the device 1 in the bracket 2, all the user has to do is insert of the device 1 into the bracket 2. More specifically, the angled edges 4c of the lock claws 4 contact the wall surfaces of the bracket 2, forcing the lock claws 4 to move into the interior of the device 1 as the device 1 is inserted into the interior of the bracket 2. When the lock claws 4 biased by the resilient member 10 reach the engage hole 3, they move outwardly and enter the engage hole 3 to hold the device 1 in the bracket 2 immovably in either direction. 
     As described above, the inventive mounting assembly greatly facilitates removal of the device. That is, a user can pull out the device from the bracket, by gripping the handle, after merely pushing the pushbutton on the front face of the device to automatically unlock the device from the bracket. After removal of the device, the unlocking bar is automatically returned by the resilient member to its original configuration taken in the inserted condition. 
     The inventive mounting assembly also facilitates and ensures fixture of the device in the bracket. The engage mechanism reliably, automatically fixes the device 1 when a user merely insert the device 1 into the bracket. 
     Therefore, the inventive arrangement greatly facilitates fixture and removal of the device with respect to the bracket, without requiring any particular tool, and hence alleviates a user&#39;s hesitation in carrying the device with him for antitheft purpose when he leaves the car. This not only prevents robbery theft of the device but also prevents various damages in the interior room of the car during the theft.