The present disclosure relates to a writing instrument, and in particular to a system for assembling together two barrels of the writing instrument.
By way of example, two barrels may be assembled together by screwing them together or by snap-fastening between ribs and grooves formed on or in each of the barrels.
Nevertheless, the two barrels can be separated from each other relatively easily. There thus exists a risk of the two barrels becoming separated when that is not desired, e.g. while in use.
The present disclosure seeks to remedy those drawbacks, at least in part.
To this end, the present disclosure provides a writing instrument extending in a longitudinal direction and having a circumferential direction and a radial direction, the writing instrument comprising a first barrel, a second barrel, and a self-blocking assembly system for assembling together the first barrel and the second barrel, the self-blocking assembly system comprising a blocking device for blocking the first barrel relative to the second barrel in the longitudinal direction and a locking device for locking the blocking device.
Since the device for blocking the first barrel to the second barrel is locked by the locking device of the self-blocking assembly system while the first barrel is being assembled to the second barrel, it is relatively difficult to separate the two barrels. It is therefore improbable that the two barrels will become separated unintentionally.
It can be understood that the writing instrument may be of any type.
The blocking device may be deformed in the circumferential direction by the locking device.
The deformation in the circumferential direction of the blocking device makes it relatively difficult to deactivate the blocking device.
The blocking device may comprise at least one annular rib carried by the first barrel and at least one annular groove formed in the second barrel, or vice versa, the annular rib and the annular groove co-operating by engaging one in the other.
Co-operation by engagement between a rib and a groove belonging to respective ones of the two barrels is a simple way of making a blocking device.
The term “annular” designates a rib or a groove in the shape of a ring or of a portion of a ring.
The co-operation by engagement may be achieved by the annular rib and the annular groove being complementary in shape.
Furthermore, when the annular rib or the annular groove is deformed in the circumferential direction by the blocking device, the engagement between the rib and the groove is increased, thereby locking the blocking device.
The locking device may comprise a slot arranged in the first barrel and two ramps carried by the second barrel, the slot extending in the longitudinal direction and presenting two longitudinal edges, while the two ramps are configured to move the two longitudinal edges of the slot apart progressively in the circumferential direction during assembly of the first and second barrels.
It can be understood that the blocking device becomes locked at the end of assembling the two barrels together.
The two ramps may be configured to move the longitudinal edges of the slot apart progressively in the circumferential direction while the first and second barrels are being assembled together, whereby the annular rib is locked in position inside the annular groove.
The movement of assembling the two barrels together comprises the first barrel moving in translation relative to the second barrel, enabling the two barrels to be blocked relative to each other, and enabling the blocking device to be locked at the end of assembly. It is thus a single movement of the first barrel relative to the second barrel. The blocking device is locked at the end of the movement of the first barrel relative to the second barrel in a continuous movement of the first barrel relative to the second barrel.
A maximum space between the two ramps is greater than a maximum space between the two longitudinal edges of the slot prior to assembling the two barrels together, these spaces being measured in the circumferential direction. For example, the space in the circumferential direction between the two ramps increases or decreases on moving in the longitudinal direction between the two opposite longitudinal ends of the ramps.
A maximum thickness in the radial direction of the ramps may be greater than a thickness in the radial direction of an assembly end of the first barrel for assembly with the second barrel.
For example, the maximum thickness of the ramps may be not less than the thickness of the assembly end of the first barrel.
The writing instrument may include a window extending in the longitudinal direction and arranged between the two ramps, and also a side button received at least in part in the window, the window possibly including guide surfaces for guiding the side button.
The first barrel may be partially received in the second barrel and the ramps may project in the radial direction into the inside of the second barrel and be arranged between the longitudinal edges of the slot so as to move the longitudinal edges of the slot apart in the circumferential direction.
Other characteristics and advantages of the invention appear from the following description of embodiments of the invention, given as non-limiting examples and with reference to the accompanying figures, in which:
In general manner, the longitudinal direction corresponds to the direction of the axis L of the barrel, and the radial direction R is a direction perpendicular to the longitudinal direction L. The circumferential direction C corresponds to the direction that describes a ring around the longitudinal direction L. These three directions, longitudinal, radial, and circumferential (or azimuth) correspond respectively to the directions defined by the height, the radius, and the angle in a cylindrical coordinate system. Finally, unless specified to the contrary, the adjectives “inner” and “outer” are used with reference to a radial direction such that an inner portion (i.e. a radially inner portion) of an element is closer to the axis L than is an outer portion (i.e. a radially outer portion) of the same element.
In the embodiment shown in
As shown in
In the embodiment described, the writing tip 22 is made integrally with a writing cartridge 24. It can be understood that the writing instrument 10 may be of any type and is not limited to the writing instrument 10 in which the writing tip 22 is made integrally with the writing cartridge 24.
In this example, the eraser device 18 comprises a reversible eraser support 26 that receives respective erasers 28 in each of its ends.
In conventional manner, the writing instrument has a nose 30 screwed into the first barrel 12. The writing tip 22 and the writing cartridge 24 are received in the first barrel and in the nose 30. The writing instrument 10 also has an extender device 32 for extending the writing tip 22, which device co-operates with a spring 34 to enable the writing tip to be extended from and retracted into the nose 30 of the writing instrument 10.
The extender device 32 for extending the writing tip 22 is actuated by the side button 20, which is housed in part in the first and second barrels 12 and 14.
The side button comprises a reception portion 36 for receiving the extender device 32 and an actuator portion 38. The reception portion 36 is connected to the actuator portion 38 by a rod 40.
The assembly end 12A has an outer surface 12B with two annular ribs 46. The term “annular” is used of the ribs 46 even though they present the shape of only a portion of a ring.
Beside the assembly end 14A of the second barrel, the second barrel 14 has two ramps 48 with a window 50 formed between them. The window 50 extends in the longitudinal direction L and includes at least two guide surfaces 52 for guiding the side button 20.
The two ramps 48 project in the radial direction R into the inside of the second barrel 14.
The inner surface 14A of the second barrel 14 forms two annular grooves 54 and two annular beads 56. Each annular bead 56 is arranged in front of a corresponding annular groove 54.
The ramps 48 are configured to move the longitudinal edges 44 of the slot 42 apart in the circumferential direction C progressively while the first barrel 12 is being assembled with the second barrel 14. For example, the space in the circumferential direction C between the two ramps 48 increases on going along the longitudinal direction L between the assembly end 14A and the reception end 14B of the second barrel 14. The space between the two ramps 48 may increase progressively or it may increase in the form of a step arranged between the longitudinal ends of the ramps 48.
It can be understood that in the non-assembled position, a maximum space E1 between the two ramps 48 is greater than a maximum space E2 between the two longitudinal edges 44 of the slot 42 before the two barrels 12 and 14 are assembled together, these spaces being measured along the circumferential direction C.
Furthermore, the ramps 48 present a maximum thickness e1 in the radial direction R that is greater than a thickness e2 in the radial direction R of the assembly end 12A of the first barrel 12.
It should also be observed that the ramps 48 present a minimum thickness e3 in the radial direction R that is not less than the thickness e2.
While the first barrel 12 is being assembled with the second barrel 14, the reception portion 36 of the side button 20 is inserted in the first barrel 12, the rod 40 of the side button 20 being arranged in the slot 42 in the first barrel 12. It is also possible to insert the reception portion 36 of the side button 20 in the second barrel 14, the rod 40 of the side button 20 being arranged in the window 50 of the second barrel 14. The side button 20 is thus received in part in the window 50.
Thereafter, the assembly end 12A of the first barrel 12 is inserted into the assembly end 14A of the second barrel 14 so that the ramps 48 are arranged between the longitudinal edges 44 of the slots 42 of the first barrel 12.
The longitudinal edges 44 co-operate by pressing against the ramps 48 during the movement of inserting the first barrel 12 into the second barrel 14. The annular ribs 46 deform and are forced past the annular beads 56 of the second barrel 14. The annular ribs 46 are then received in the annular grooves 54 such that the annular ribs 46 co-operate by engaging with the annular grooves 54 so as to block the first barrel 12 relative to the second barrel 14 in the longitudinal direction L.
The annular ribs 46 and the annular grooves 54 thus form a device for blocking the first barrel 12 relative to the second barrel 14 in the longitudinal direction L.
Furthermore, at the end of insertion, since the maximum space E1 between the two ramps 48 is greater than a maximum space E2 between the two longitudinal edges 44 of the slot 42 prior to assembling the two barrels 12 and 14 together, these spaces being measured in the circumferential direction C, the ramps 48 move the longitudinal edges 44 of the slot 42 apart in the circumferential direction C, whereby the annular ribs 46 are locked in position inside the respective annular grooves 54.
Specifically, since the longitudinal edges 44 of the slot 42 are spaced apart from each other in the circumferential direction C, the annular ribs 46 carried by the outer surface 12B of the assembly end 12A of the first barrel 12 engage increasingly with the annular grooves 54 of the second barrel, thereby locking the blocking device.
The longitudinal edges 44 of the slot 42 and the ramps 48 thus form a device for locking the blocking device.
It can be understood that the annular ribs 46 are blocked in the annular grooves 54.
Thus, the blocking device is deformed in the circumferential direction by the locking device.
In addition, since the maximum thickness e1 in the radial direction R of the ramps 48 is greater than the thickness e2 of the radial direction R of the assembly end 12A of the first barrel 12, the ramps 48 are stiffer than the longitudinal edges 44, so that it is the longitudinal edges 44 that deform preferentially in the circumferential direction C. Nevertheless, the longitudinal edges 44 can exert a force on each ramp 48 that is directed in the circumferential direction C, thereby tending to move the ramps 48 towards each other.
Furthermore, since the maximum thickness e3 in the radial direction R of the ramps 48 is greater than the thickness e2 in the radial direction R of the assembly end 12A of the first barrel 12, the longitudinal edges 44 also co-operate by pressing against the ramps 48 during the movement of inserting the first barrel 12 into the second barrel 14 in the zones of the ramps 48 that are not facing the window 50.
The blocking device and the locking device form a self-blocking assembly system for assembling the first barrel 12 to the second barrel 14.
The movement of assembling the two barrels 12 and 14 together is thus the first barrel 12 moving in translation relative to the second barrel 14, thereby blocking the two barrels 12 and 14 relative to each other, and then locking the blocking device at the end of assembly. This is thus a single movement of the first barrel 12 relative to the second barrel 14. The blocking device is thus locked at the end of the movement of the first barrel 12 relative to the second barrel 14 in a continuous movement of the first barrel 12 relative to the second barrel 14.
Furthermore, the rod 40 of the side button 20 can slide in the window 50 having the guide surfaces 52 that enable the movement in translation of the side button 20 to be guided in the longitudinal direction L. Since the rod 40 is received in the window 50, it can be understood that the side button 40 is received in part in the window 50.
Although the present disclosure is described with reference to a specific embodiment, it is clear that various modifications and changes may be undertaken thereon without going beyond the general ambit of the invention as defined by the claims. In addition, individual characteristics of the various embodiments mentioned may be combined in additional embodiments. Consequently, the description and the drawings should be considered in a sense that is illustrative rather than restrictive.
It can be understood that the longitudinal edges 44 of the slot 42 need not be strictly parallel to the longitudinal direction L, by way of example each of them may form an angle that is less than or equal to 1° relative to this longitudinal direction.
It can also be understood that the rib(s) may be carried by the second barrel and the groove(s) may be formed in the first barrel.
The blocking device and/or locking device as described in the embodiment of
Number | Date | Country | Kind |
---|---|---|---|
1651103 | Feb 2016 | FR | national |
Filing Document | Filing Date | Country | Kind |
---|---|---|---|
PCT/FR2017/050281 | 2/8/2017 | WO | 00 |