The present invention relates to a securing device, and more particularly, to a string securing device that is operated smoothly.
A conventional string/shoelace securing device is shown in
Another conventional string/shoelace securing device is shown in
For the first conventional shoelace securing device, the two positioning pins 62 are positioned by the ring 64 and the positioning pins 62 compress the springs 622. This arrangement makes the two positioning pins 62 do not compress the springs 622 evenly which pushes the positioning pins 62 by different forces such that the rotation of the cap 65 may not be smooth as desired. Besides, the installation of the springs 622 into the reception holes requires time. Furthermore, because the bolt 612 extends from the underside of the base 61 to connect the cap 65, so that the whole set of the device has to be separated when a part between the base 61 and the cap 65 needs to be replaced.
For the second conventional shoelace securing device, because the arms 732 has one end fixed to the cap 73 so that the force reacts from the first teeth 711 has to be transfer a distance to the end that is fixed to the cap 73. This may result in uneven biasing forces to the arms 732 and may have the same problem as the first conventional securing device.
The present invention intends to provide an improved securing device for tightening string, strap, or shoelace, wherein the spool is pushed straightly and upward to cooperate with the cap, the forces between the cap and the spool are even so that the operation of the cap is more reliable and smooth.
The present invention relates to a string securing device which comprises a base having a skirt extending from a top thereof so as to define a space. A central post extends centrally from an inner end of the space and has a passage defined axially therethrough. A shaft extends through the passage of the central post and is connected to a cap mounted to the base. A ring is located within the space defined by the skirt and includes multiple ratchet teeth on a top thereof and multiple flexible members are connected to an underside of the ring. A spool has an annular groove in which the string wraps the spool and a through hole is defined axially through the spool so that the central post extends through the through hole. Multiple first teeth extend radially from a top tubular portion of the spool and are engaged with multiple second teeth defined in an underside of the cap. The underside of the cap further includes multiple third teeth which are removably engaged with the ratchet teeth on the ring.
The primary object of the present invention is to provide a string securing device which includes simple structure and the cap is operated smoothly.
The present invention will become more obvious from the following description when taken in connection with the accompanying drawings which show, for purposes of illustration only, a preferred embodiment in accordance with the present invention.
Referring to
A shaft 2 extends through the passage 14 of the central post 13 and a connection end 21 is located on a top end of the shaft 2. A first groove 23 and a second groove 24 are defined in an outer periphery of the shaft 2, the second groove 24 is located beneath the first groove 23. The shaft 2 further includes a positioning hole 22 defined in the connection end 21 on the top end thereof and a flange 25 extends radially outward from a bottom end of the shaft 2.
A ring 3 has multiple ratchet teeth 31 extending from a top thereof and multiple flexible members 33 are connected to an underside of the ring 3. The flexible members 33 are shaped to be deformed evenly so as to store a straight and upward force. The ring 3 is located within the space defined by the skirt 12. Two blocks 32 extend radially from an outer periphery of the ring 3 and are engaged with the notches 15 of the skirt 12.
A spool 4 has an annular groove 41 and the string 45 wraps around the spool 4, the two ends of the string 45 are fixed with the fixing holes 44 defined in the spool 4. A through hole 42 is defined axially through the spool 4 and multiple first teeth 43 extend radially from a top tubular portion of the spool 4. The spool 4 is mounted to the central post 13 which extends through the through hole 42.
A cap 5 is connected to the shaft 2 and mounted to the base 1. The cap 5 includes a central hole 52 and a bolt 53 extends through the central hole 52 from a top of the cap 5 and is connected to the positioning hole 22 of the shaft 2. Multiple second teeth 54 are defined in an underside of the cap 5 and engaged with the first teeth 43 of the spool 4. Multiple third teeth 55 are defined in the underside of the cap 5 and removably engaged with the ratchet teeth 31 on the ring 3. A cover 51 is mounted to the top of the cap 5 to hide the bolt 53.
When rotating the cap 5, the engagement of the first and second teeth 43, 54 drives the spool 4 to rotate so as to tighten the string 45. In the meanwhile, the third teeth 55 move over the ratchet teeth 31 which are lowered by compressing the flexible members 33, so that the cap 5 is able to rotate in one direction and does not return. It is noted that the deformation of the flexible members 33 provides straight and upward force to cooperate the ratchet teeth 31 with the third teeth 55 so that the rotation of the cap 4 is smooth.
As shown in
The maintenance for the parts between the cap 5 and the base 1 is simple and easy by unscrewing the bolt 53 to access the parts. The flexible members 33 are deformed to store an upward force which effectively engages the ratchet teeth 31 of the ring 3 with the third teeth 55 of the cap 5, such that the operation of the cap 5 is smooth.
It is noted that the securing device can be used for securing fastening straps for helmets, strings for bags, shoelaces for shoes or the like. The string is defined as elongate and flexible member with two ends which are fixed to the spool 4.
While we have shown and described the embodiment in accordance with the present invention, it should be clear to those skilled in the art that further embodiments may be made without departing from the scope of the present invention.