TR2023019750T - RATCHATCH DIAL MECHANISM FOR HELMET - Google Patents

Abstract

The invention enables the adjustment of the chin straps (200) by tightening and loosening, which is used in ballistic protective personal equipment and ballistic protective personal helmets (300), thus ensuring that the helmet (300) fits the user's head precisely, and reduces the production cost due to fewer parts required for assembly. It is related to the ratchet dial mechanism (100) that reduces the time.

Description

DESCRIPTION RATCH DIAL MECHANISM FOR HELMET Technical Field The invention relates to dial mechanisms for personal protective equipment and more specifically to chin straps used in ballistic personal protective helmets. Specifically, the invention relates to a dial mechanism having three gears laced around the gear wheels to provide greater grip, stability and better adjustability on the user's head during use. Prior Art Current applications include many examples of gear fitting and retention systems. Gear fit and retention systems aim to hold the product on the specific body part during use, maintain fit and comfort during use, and allow the user to release the gear at any time. Dial mechanisms produced in different materials, sizes and shapes are used in sports shoes, snow boots, sports equipment, medical equipment, etc. It is applied to various products such as. These products basically cover and support different body parts such as the head, feet, knees, waist and ankles. The other most commonly applied technique requires an additional connection piece for assembly. The invention consists of a gear wheel, a lace wrapped around the gear wheel, a body into which the gear wheel fits, a lock that connects or releases the lace, and connection parts. The two ends of the lace are fixed to the inside of the gear wheel with a knot, and the lace is wrapped around the gear wheel. The lace is released through holes on opposite sides of the sprocket. The mounting parts on the lace connect to the chin strap. Turning the locking piece clockwise wraps the lace inside the gear and allows the user to tighten a product such as a chin strap. On the other hand, pulling the lock piece allows the wearer to open the lace to release the product. The limitations of this mechanism make it difficult to release and tie the lace due to the use of a single gear wheel. The single gear system can only wrap the lace as much as the diameter of the sprocket in one turn. Additionally, the fitting on the lower part of the body and the mounting parts on the lace cause extra labor requirements and labor hours due to the additional parts that come with similar products on the market. All the above reasons aside, current implementations of the mechanism can be improved. According to literature research, US Pat. No. 8015625B2 discloses an example of such a mechanism applied to adjusting the fit of a bicycle helmet. The invention refers to an adjustment mechanism that includes first and second holding elements (e.g. plastic straps) moving relative to each other, allowing the size of a helmet to be adjusted. The adjustment mechanism includes a gear wheel connected to at least one of the holding elements and capable of rotating in two directions to move at least one of the holding elements relative to the other. US Pat. The invention numbered US6708376B1 is another example of this technique to be examined and defines a method for adjusting the length of a belt. In the invention, an adjustment mechanism consists of a belt with first and second overlapping parts and a wheel rotating between the teeth in the groove arranged in the first and second overlapping parts of said belt. Document numbered US8370967B2 can be shown as another example of the technique. The document relates to an adjustable headband for a helmet. The invention relates to an adjustable headband for a helmet comprising a base, a band, an adjustment wheel, a dial and a cover. The adjustment mechanisms mentioned in the above documents allow the helmet to be adjusted to the user's head by means of a single gear wheel. Therefore, these adjustment mechanisms do not solve the problems experienced in the current technical field. As a result, the existence of the above problems and the inadequacy of existing solutions necessitated an improvement in the relevant technical field. Purpose of the Invention The invention relates to a gear dial mechanism for helmet chin straps, eliminates the above-mentioned disadvantages and brings new advantages to the relevant technical field. The purpose of the invention is to provide a ratchet dial mechanism that allows the chin straps to be completely fixed and adjusted on the user's head using a three-prong system and a lace wrapped around the teeth. The invention introduces a gear dial mechanism that consists of three gear wheels (two small gear wheels and the large wheel in the middle of the two small gear wheels) and rotates a lock attached to the large gear wheel, allowing the lace to be tightened or loosened by wrapping it around the lower part of the small gear wheels. Another purpose of the invention is to facilitate the collection and release of the lace by winding both ends of the lace on two small gear wheels. The invention allows the lace to be loosened or tightened faster with each turn of the lock of the ratchet dial mechanism. The invention provides a simplified design that reduces the labor and costs required in production by eliminating the manufacturer's need for extra mounting parts with the additional design of the mounting holes on the body. In order to fulfill all the purposes stated above and that may arise from the detailed description, the invention includes a ratchet dial mechanism that is found in the adjustment mechanism on ballistic personal protective equipment and enables the adjustment of the chin straps of ballistic helmets, -A groove for three gears fixed to the chin strap on the body, -In the center of the groove A large gear that can be rotated clockwise, -The first and second pinion wheels rotated by the large gear in the middle of the two wheels in the groove, -One end of which is knotted to the first pinion wheel and the other end to the second pinion wheel, passing through the holes on both sides of the body, and the first gear is connected to the first pinion wheel by the rotational movement of the large gear. The lace, which is collected by wrapping around the lower part of the pinion wheel and the lower part of the second pinion wheel, ensures the tightening of the chin strap, -The internal gear cover sitting on the body, -The internal gear that moves clockwise and in and out, which starts the rotation movement of the large gear by turning clockwise in the down position and A lock that breaks contact with the large gear in the out position, allowing the lace to release and the chin strap to loosen. The following figures and detailed explanations of the figures explain the structural and characteristic features and all the advantages of the invention. For this reason, the invention should be evaluated by examining these drawings and detailed explanations. Brief Description of the Drawings Figure 1: Exploded view of the gear dial mechanism, which is the subject of the invention. Figure 2a: Top view of the gear dial mechanism, which is the subject of the invention. Figure 2b: Perspective view of the gear dial mechanism, which is the subject of the invention. Figure 2c: Front view of the gear dial mechanism, which is the subject of the invention. Figure 2d: Side view of the gear dial mechanism, which is the subject of the invention. Figure 3: Representative representation of the gear dial mechanism, which is the subject of the invention, on the helmet. Figure 4a: Side view of the ratchet dial mechanism, which is the subject of the invention, on a helmet worn by the user. Figure 4b: Rear view of the ratchet dial mechanism, which is the subject of the invention, on a helmet worn by the user. The elements in the figures above are numbered as follows, and these numberings will be used in the remainder of the description: . Body 11. Groove 12. Male connector 13. Mounting hole. Big teeth. First pinion wheel 40. Second pinion wheel 50. Lace 60. Cover 61. Internal gear 62. Female snap-on component 70. Lock 100. Ratchet dial mechanism 200. Chin strap 300. Ballistic helmet Detailed Description of the Invention This detailed description includes the ratchet dial that is the subject of the invention. It explains the preferred alternatives of the mechanism (100) only for a better understanding of the subject and without any limiting effect. Figure 1 represents the exploded view of the ratchet dial mechanism (100) that is the subject of the invention. Ratchet dial mechanism (100) in its most basic form; a body (10), a large wheel (20) rotating clockwise at the center of the body (10), the first pinion wheel (30) connected to both sides of the large gear (20) that rotates within the body (10), and the second pinion wheel (40). ) is formed. The lace (50) is tightened by wrapping it around the lower part of the first pinion wheel (30) and the second pinion wheel (40), a cover (60) is closed on the body (10), which provides the drive of the rotation movement and at the same time, when the lock (70) is pulled, the lace (50) is tightened. ) There is a lock (70) that breaks its contact with the large gear (20) and ensures its release. There is a groove (11) consisting of three gears (11) in the center of the body (10), which forms the main structure of the ratchet dial mechanism (100). The groove in question holds a large gear (20) in its central groove (11). The large gear (20) rotates clockwise. A first pinion wheel (30) and a second pinion wheel (40) are connected to both sides of the large gear (20) in the said groove (11), in contact with the large gear (20). The first pinion wheel (30) and the second pinion wheel (40) rotate counterclockwise using the force transferred from the large gear (20). The two ends of the lace (50) pass through the holes on opposite sides of the body (10). One end of the lace in question (50) is connected to the first pinion wheel (30) with a knot, and the other end is connected to the second pinion wheel (40) with a knot. The rotational movement of the first pinion wheel (30) and the second pinion wheel (40) tightens the lace (50) by wrapping it around the lower part of the first pinion wheel (30) and the second pinion wheel (40). This movement also results in the adjustment of the chin strap (200) on which the ratchet dial mechanism (100) is placed. A cover (60) that protects the ratchet dial mechanism (100) from external conditions is closed on the body (10). In the center of the cover (60), there is an internal gear (61) that guides the lock (70). The cover (60) and the body (10) come together with a snap mechanism. There are female plug-in components (62) on the cover (60) and male plug-in components (12) on the body (10). A lock (70) fits inside the internal gear (61) on the cover (60). The lock (70) in question rotates clockwise and moves inside and outside the internal gear (61). The lock (70) in question forms an interface with the large gear (20) in its position within the internal gear (61). When the user rotates the lock (70) clockwise, the lock (70) transmits the rotation movement to the large gear (20). Thus, the rotational motion of the large gear (20) is transmitted equally to the first pinion wheel (30) and the second pinion wheel (40) and pulls the lace (50) around the first pinion wheel (30) and the second pinion wheel (40). As a result, the lace 50 tightens the chin strap 200 and users can adjust the ballistic helmet 300 according to their head shape and size. At the same time, when the user pulls the lock (70) out from the internal gear (61), the contact of the lock (70) with the large gear (20) is broken and the chin strap (200) is loosened by releasing the lace (50). The ratchet dial mechanism (100), which is the subject of the invention seen in Figures 2a, 2b, 2c and 2d, is made ready for use by being fixed to the chin straps (200) through the mounting holes (13) located at each corner of the body (10). Although the ratchet dial mechanism (100) is preferably used in ballistic helmets (300) as seen in Figure 3, it can also be applied to ballistic protective personal equipment that needs to be adjusted by tightening and loosening in alternative applications of the invention. The use of the ratchet dial mechanism (100) subject to the invention is as follows; To tighten the chin strap (200), the lock (70) rotates clockwise when it is in the down position and moves the large gear (20). With the rotational movement of the large gear (20), the first pinion wheel (30) and the second pinion wheel (40) rotate and wrap the lace (50) around the lower part of the first pinion wheel (30) and the second pinion wheel (40). As a result, the user tightens the chin strap (200). Thus, as seen in Figures 4a and 4b, the ballistic helmet (300) is ensured to fit on the user's head and can be adjusted according to the head shape and size. To loosen the chin strap (200), the user pulls the lock (70) and releases the lace (50) by breaking the contact between the lock (70) and the large gear (20). Thus, the chin strap (200) is loosened by releasing the lace (50). TR