BRPI0721431B1 - COVER OPENING DEVICE. - Google Patents

Description

Report of the Invention Patent for "COVER OPENING DEVICE".

Technical Field The present invention relates to a lid opening operating device that includes a cylinder lock formed by inserting a rotor into a body attached to a lid mounted to open and close on a box forming member, the rotor being pivotable between a locked position and an unlocked position by the operation of a key and being able to pivot to an open position opposite the locked position with respect to the unlocked position; a push button allowing pivot movement of the rotor to the open position in response to a compression operation when the rotor is in an unlocked position which disables the compression operation in a state in which the rotor is in the locked position; and a lid locking mechanism provided between the lid and the box forming member to release the lock with the lid to allow a lid opening operation in response to the rotor pivot movement to the open position. Background of the Invention A lid opening operating device in which, when the rotor of a cylinder lock is in an unlocked position, the rotor pivots to an open position upon pressing a push button, and when the rotor is in a locked position. In the locked position, the push button compression operation is disabled so as to maintain the closed state of a lid is known from Patent Publication 1.

Patent Publication 1: Japanese Utility Model Publication No. 61-17154.

Disclosure of the Invention Problems to be Solved by the Invention However, in the provision disclosed in the above-described Patent Publication No. 1, when the cylinder lock rotor is in the locked position, although a pressing force due to the compression operation the knob The actuator acts on the rotor as a pivoting force, since a plurality of rotating hammer hammers disposed on the rotor fit into one body, the pressing operation of the actuating knob and pivoting movement of the rotor to the open position becomes impossible. , and thus there is the possibility of a large load acting on the hammer hammers that will cut one side of the body, which will be undesirable. The present invention is embodied from the perspective of such circumstances, and it is therefore an object of the present invention to provide a lid opening operation device that can prevent a large load from acting on a hammer by means of a simple structure. even when a push button compression operation is performed at the moment the rotor of a cylinder lock is in a locked position.

Means for Solving the Problems To reach the above object according to an aspect of the present invention, a lid opening operating device is provided comprising a cylinder lock formed by inserting a rotor into a body attached to a lid mounted to in order to open and close on a box forming member, the rotor being capable of being pivoted between a locked position and an unlocked position by the operation of a key and being able to pivot to an open position opposite the locked position with respect to the locked position. unlocked position; a push button allowing pivot movement of the rotor to the open position in response to a compressing operation when the rotor is in the unlocked position and disabling the compressing operation in a state in which the rotor is in the locked position; and a lid locking mechanism provided between the lid and the box forming member to release engagement with the box forming member to allow a lid opening operation in response to pivoting movement of the rotor to the open position. characterized in that the rotor is provided with a pressure receiving portion to which a pressing portion provided on the pushbutton counteracts in response to a pressing operation of the pushbutton, and the pressing portion and the pressing portion pressure receiving are formed such that when the rotor is in the locked position and the push button is pressed, a pressing force directed toward the center of the rotor pivot acts from the push button on the rotor, and , when the rotor is in the unlocked position and the actuating knob is compressed, a force that pivots the rotor from the unlocked position to the open position acts from the trigger button on the rotor.

A leg guard 17 of one embodiment corresponds to the box-forming element of the present invention.

Effects of the Invention In accordance with the aforementioned provision of the present invention, when the cylinder lock rotor is in the locked position, a pressing force, which occurs as a function of the pushbutton compression, acts on the rotor in the center direction. From the rotor pivot, pivoting force from the pushbutton is not transmitted to the rotor, and compression of the pushbutton becomes impossible. In addition, according to a simple arrangement with few components in which only the shapes of the pressure receiving portion provided on the rotor and the pressing portion provided on the actuating knob are designed, it is possible to prevent a large load is applied to the hammer hammers even when a push button compression operation is performed when the cylinder lock rotor is in a locked position. Brief Description of the Drawings Figure 1 is a partial perspective view of a scooter motorcycle (first embodiment). Figure 2 is a front view of a cylinder lock and a push button (first embodiment). Figure 3 is a view from the arrow 3 of figure 2 (first embodiment). Figure 4 is a sectional view along line 4-4 of Figure 2 (first embodiment). Figure 5 is an exploded perspective view of the cylinder lock, the pushbutton, and a lid lock mechanism (first embodiment). Figure 6 is a sectional view along line 6 - 6 of Figure 4 in a state in which a rotor is in a locked position (first embodiment). Figure 7 is a sectional view corresponding to Figure 6 in a state in which the rotor is in an unlocked position (first embodiment). Figure 8 is a sectional view corresponding to Figure 6 in a state in which the rotor is in an open position (first embodiment). Figure 9 is a sectional view along line 9 - 9 of Figure 4 in a state in which the rotor is in the locked position (first embodiment). Figure 10 is a sectional view corresponding to Figure 9 in a state in which the rotor is in the unlocked position (first embodiment). Figure 11 is a sectional view corresponding to figure 9 in a state in which the rotor is pivoted to the open position due to push button compression (first embodiment).

Best Mode for Carrying Out the Invention A method for carrying out the present invention is explained below with reference to one embodiment of the present invention shown in the accompanying drawings.

Mode 1 Figure 1 to Figure 11 show one embodiment of the present invention.

The longitudinal and left and right directions of the sport refer to the direction of movement of a motorcycle.

Firstly, in Figure 1, a body cover 15 of, for example, a scooter-type motorcycle includes a leg guard 17 as a box-forming element that rises from the front end of a stirrup 16, and a portion of rearwardly projecting housing 17a is integrally formed with the leg protector 17. A lower end portion of a lid 18 for closing a rearward opening of housing portion 17a so that it can be opened and closed is supported above the housing portion 17a so that it can pivot longitudinally, and a recess 19 is provided on an upper intermediate portion of the lid 18 so as to open on the upper edge side of the lid 18. Arranged in the recess 19 are a cylinder lock 20 and a pushbutton 21, the pushbutton 21 releasing a closed locked state of the lid 18 when being depressed when the cylinder lock 20 undergoes an unlocking operation. A hook 23, which is positioned above the cylinder lock 20 when the lid 18 is in a closed state, is provided over the leg protector 17 to allow a shopping bag or the like to hang on the same, and a main key 24 is disposed over an upper right part of the leg protector 17.

In Figure 2 to Figure 5, the cylinder lock 20 includes a body 27 attached to the cap 18, and a rotor 28 pivotably inserted into the body 27. The body 27 has an integral main body portion 27a made in a substantially cylindrical shape. , a collar portion 27b extending outwardly from the rear end of the main body portion 27a, and a pair of downwardly extending guide portions 27c and 27c from the collar portion 27b when the lid 18 is in a closed state; a cylinder bore 29 having a circular cross section is provided in a rear portion of the main body portion 27a, a recess 30 is provided in a front portion of the main body portion 27a so as to open onto an upper side surface of the main portion. main body 27a when communicating with the cylinder bore 29, and a body cover 31 for closing recess 30 is mounted on a front side surface of the main body portion 27a. The rotor 28 pivotably fits into the cylinder bore 29 so that its rear portion is disposed behind the collar portion 27b and its front portion is disposed within recess 30; This rotor 28 is provided with an opening 32 having a substantially circular cross-section and an opening at the rear end of the rotor 28, and with a lock 33 into which a key (not shown) may be inserted with its rear part. communicating with the front end of the opening 32, and the front end of the lock 33 is closed. A cover 35 is mounted on the rear end of rotor 28, cover 35 is made in a plate form with an insert hole 34 corresponding to lock 33, and a shutter plate 36 disposed within opening 32 is supported on rotor 28. through a support shaft 38 while being driven by a spring 37 in a direction that closes the insertion hole 34. The key (not shown) can then be inserted into the lock 33 through the insertion hole 34 at the same time. pressing and pivoting the shutter plate 36 in the opening direction.

A pair of locking grooves 41 and 41 are provided on an inner face of the cylinder bore 29, the locking grooves 41 and 41 extending in the axial direction of the cylinder bore 29, and a plurality of tapping hammers 42 are mounted on top of them. rotor 28, the hammer hammers 42 being spring-biased in a direction in which they fit into the locking slots 41. In a state in which the key is not inserted into the lock 33, the hammering hammer 42 fits into the locking slots. 41 thus preventing rotor 28 from pivoting into the cylinder bore 29, and when the key is inserted into the lock 33, it operates to release the locking hammer 42 into the locking grooves 41, thereby allowing pivotal movement of rotor 28 within cylinder bore 29.

Referring to Figure 2, the rotor 28 is in a locked position P1, in a state in which the hammer hammers 42 engage the locking grooves 41 and can be pivoted to an unlocked position P2, spaced from the locked position P1 in a locked position. counterclockwise α angle by means of a pivoting operation in a state in which the key is inserted into the lock 33 so as to release the hammering hammer 42 with the slotting grooves 41 and can be pivoted. from the unlocked position P2 to an open position P3, spaced from the unlocked position P2 at a counterclockwise angle β opposite the locked position P1 with respect to the unlocked position P2.

In addition, a rear body 27 is lined with a cover 43 having an outer shape substantially corresponding to the external shape of the collar portion 27b of the body 27, and this cover 43 is mounted on the collar portion 27b. Also provided is a circular window 44 in cover 43, a portion of cover 35 at the rear end of rotor 28 being fitted to circular window 44.

A lid locking mechanism 22 is provided between the housing portion 17a of the leg protector 17 and the lid 18, i.e. in this embodiment between the lid 18 and the rotor 28 supported on the body 27 attached to the lid 18, the lid locking mechanism 22 releasing the housing portion 17a engagement to allow the lid 18 to be opened in response to the rotor 28 of the pivoting cylinder lock 20 for the open position P3.

Referring still further to Figure 6, the lid locking mechanism 22 includes a slide 45 which slidably runs through a through hole 50 provided in the body cover 31 and having at its outer end a locking portion 45a detachable in the housing portion 17a of the leg protector 17, a spring 46 provided in a compressed state between the slide 45 and the main body portion 27a so as to spring-bias the lock portion 45a so as to projecting outwardly in the radial direction of the main body portion 27a, a juxtaposition arm 47 extending toward the rotor 28 from an inner end of the slide 45 provided integrally with the slide 45, and a restraining protrusion 48 and a pressing protrusion 49, both provided integrally with the front end of the rotor 28 and may be adjacent to the juxtaposition arm 47. Slide 45 fits slidably A guide recess 51 provided on an inner surface at the front end of the main body portion 27a along a diameter of the main body portion 27a, and the spring 46, which is in a spiral form, is provided in a compressed state between the main body portion 27a and the slide 45 so as to surround a protruding pin 52 integrally over the main body portion 27a, while facing the inner end of the slide 45. restriction 48 is provided protruding over rotor 28 so as to be coaxial thereto, and in a state in which rotor 28 is in the locked position P1, as shown in Figure 6, and in a state in which rotor 28 In the unlocked position P2, as shown in Figure 7, the restraint protrusion 48 abuts adjacent the juxtaposition protrusion 47 of slide 45 from a direction opposite to that in which it is driven. a by spring 46, thereby determining a protrusion end position for slide 45.

Further, the pressing protrusion 49 is provided protruding at the rear end of the rotor 28 in a position offset from the pivot center of the rotor 28; when the rotor 28 is in the locked position P1 shown in figure 6, the pressing boss 49 does not abut the juxtaposition boss 47, but when the rotor 28 is pivoted to the unlocked position P2 shown in figure 7, the boss 49 abuts adjacent the juxtaposition protrusion 47 in a direction opposite that in which it is driven by spring 46, and when rotor 28 is pivoted from unlocked position P2 shown in figure 7 to open position P3 shown in 8, the pressing force acts on the juxtaposition protrusion 47, thereby causing the slide 45 to slide to the side on which the slide 45 is housed within the main body portion 27a against the biasing force by the action of spring 46, thus releasing the engaged state of cap 18 with housing portion 17a, allowing cap 18 to open.

A notch 53 is provided in a lower part of the cover 43 mounted on the rear of the body 27, and an upper part of the drive button 21 is inserted into the cover 43 through the notch 53 so that it can slide in a direction perpendicular to the geometry axis. of the rotor 28.

A pair of guide grooves 54 and 54 are provided on one side of the collar portion 27b of body 27 on cover 43, guide grooves 54 and 54 extending vertically on opposite sides of cylinder bore 29, and shutters 55 and 55 are integrally projected rearwardly from the lower ends of the guide slots 54. The actuator knob 21 may slide in a vertical direction perpendicular to the pivot center of the rotor 28, and is further oriented by the guide slots. 54 and the two guide portions 27c of the body 27, and a return spring 56 is provided in a compressed state between the body 27 and the drive button 21, the return spring 56 exhibiting an elastic force in a direction in which the trigger button 21 is pushed down. The downward moving end of the pushbutton 21 is limited by the pushbutton 21 which juxtaposes against the two shutter portions 55 from above.

Referring further to Figure 9, a pressure receiving portion 60 and a restriction portion 61 are provided protruding over the rotor 28, the pressure receiving portion 60 and the restriction portion 61 being spaced peripherally and projecting. radially outwardly in sliding contact with the collar portion 27b of the body 27 from the rear, and the first and second pressing portions 62 and 63 are provided with an opening therebetween on the drive button 21 in a portion corresponding to the outer periphery of the rotor 28. The pressure receiving portion 60 and the restraining portion 61 thus have outer peripheral surfaces that follow a first imaginary circle C1 with the same radii and the center of the center. rotor 28, and when the rotor 28 is in the unlocked position P2, the restraining portion 61 extends in a substantially horizontal direction from from the rotor 28 to the left side in figure 9, and the pressure receiving portion 60 is disposed in an obliquely extending position from the rotor 28 to the lower left side at a spaced position from the restriction portion 61 in the direction 9. A substantially V-shaped trough portion 64 is thus formed on the outer periphery of the rotor 28 between the pressure receiving portion 60 and the restraining portion 61. The first pressing portion 62 The drive knob 21 is arranged under the rotor 28 on the left side to face the pressure receiving portion 60 when the rotor 28 is in the locked position P1, and an arcuate pressing surface 65 is formed at the end of the rotor. first pressing portion 62; This pressing surface 65 is formed to follow a second imaginary circle C2 which has its center at the pivot center of the rotor 28 when the pushbutton 21 is in a non-compressed operating state, and the radius of the second imaginary circle C2 is defined to be slightly larger than the radius of the first imaginary circle C1. In addition, the second pressing portion 63 of the drive knob 21 is arranged in a position facing the rotor 28 from the lower right side so that the end of the second pressing portion 63 lies over the second imaginary circle C2 when the knob The driver 21 is in a non-compression operating state, and a side surface of the second pressing portion 63 over the first pressing portion 62 is formed as a flat restraining surface 66 against which the restraining portion 61 of the rotor 28 can juxtapose.

By compressing the actuator button 21 when the rotor 28 is in the locked position P1, the pressing surface 65 at the end of the first pressing portion 62 of the actuator button 21 overlaps the outer periphery of the end of the actuating portion. pressure 60 of rotor 28, thus preventing the push button 21 from compressing and causing a pressing force directed to the rotor center of rotor 28 to act on rotor 28. The pivot movement of rotor 28 of Locked position P1 to unlocked position P2 by operation of the switch causes pressure receiving portion 60 of rotor 28 to move to a position just beyond the second pressing portion 63 of actuator knob 21, as shown in the figure. 10, and moves the restraining portion 61 to a position between the first and second pressing portions 62 and 63 of the actuating knob 21. In this state, when the actuating knob is or 21 is compressed, the pressure receiving portion 60 is pushed by the second pressing portion 63 and the pivot rotor 28 to the open position P3 shown in Figure 11; when rotor 28 pivots to open position P3, the restraining portion 61 of rotor 28 juxtaposes against the restraining surface 66 of drive button 21, thereby preventing rotor 28 from pivoting further than has already been done.

That is, the rotor 28 is provided with the pressure receiving portion 60, against which the first and second pressing portions 62 and 63 provided on the push button 21 juxtapose in response to the push operation of push button 21; first pressing portion 62, second pressing portion 63, and pressure receiving portion 60 are formed such that when the rotor 28 is in the locked position P1 and the actuating knob 21 is pressed, the pressing force directed to the pivot center of rotor 28 acts from the drive knob 21 on the rotor 28, and when rotor 28 is in the unlocked position P2 and the drive knob 21 is pressed, the force that pivots rotor 28 from position Unlocked P2 to open position P3 acts from the pushbutton 21 on the rotor 28.

In addition, the rotor 28 can be pivoted in a single step from the locked position P1 through the unlocked position P2 to the open position P3 by operation of the key, and thus the lid 18 can be opened. The operation of this mode will be explained below. When the rotor 28 of the cylinder lock 20 is in the locked position P1, the pressing force as a function of the depressed pushbutton 21 acts on the rotor 28 towards the pivot center of the rotor 28, the pivoting force of the pushbutton 21 is not transmitted to rotor 28, and pressing of the pushbutton 21 becomes impossible. Furthermore, according to a simple arrangement with few components, in which only the shapes of the pressure receiving portion 60 provided on the rotor 28 and the first and second pressing portions 62 and 63 provided on the actuating button 21 are designed, it is possible to prevent a large load from acting on the hammer hammers 42 even if the push button 21 compression operation is performed when the cylinder lock rotor 28 is in the locked position P1.

Although an embodiment of the present invention has been explained above, the present invention is not limited to the above embodiment, and may be modified in a number of ways, provided that the modifications do not depart from the spirit and scope of the present invention described and described in following claims.

Reference Listing 17 - Leg protector, which becomes a box forming element 18 - Lid 20 - Cylinder lock 21 - Pushbutton 22 - Lid lock mechanism 27 - Body 28 - Rotor 60 - Pressure receiving portion 62, 63 - Pressing portion P1 - Locked position P2 - Unlocked position P3 - Open position

Claims (1)

1, Lid opening operation device comprising a cylinder lock (20) formed by inserting a rotor (28) into a body (27) attached to a lid (18) mounted to open and close over a box forming member (17), the rotor (28) may be pivoted between a locked position (P1) and an unlocked position (P2) by operation of a key, and may pivot to an open position (P3) opposite to locked position (P1) with respect to the unlocked position (P2); a push button (21) which allows the rotor movement of the rotor (28) to the open position (P3) in response to a compression operation when the rotor (28) is in the unlocked position (P2) and disables the compression operation in a state in which the rotor (28) is in the locked position (P1); and a lid locking mechanism (22) provided between the lid (18) and the box forming element (17) so as to release the engagement with the box forming element (17) to allow an opening operation of the lid. (18) In response to the pivoting movement of the rotor (28) to the open position (P3), the lid opening operation device is characterized in that the rotor (28) is provided with a pressure receiving portion ( 60) against which a pressing portion (62, 63) provided on the pushbutton (21) juxtaposes in response to a pressing operation of the pushbutton (21), and that the pressing portion (62, 63) and the pressure receiving portion (60) is formed such that when the rotor (28) is in the locked position (P1) and the actuating knob (21) is pressed, the pressing force directed towards the center of the pivot of the rotor (28) acts from the actuator button (21) on the rotor (28), and when the rotor (28) is in the unlocked position (P2) and the pushbutton (21) is pressed, a force that pivots the rotor (28) from the unlocked position (P2) to the open position (P3) acts from the pushbutton (21) ) on the rotor (28).