The present invention relates to fall protection technology, and more particularly to a fall arrest device that is practical for use in a hanging work site.
When working at height, people will be equipped with a fall arrest device containing a safety belt. The fall arrest device is fixed to a support, and the safety belt is attached to the person to prevent the person from falling, thus ensuring personnel safety.
In order to urge the brake block 22 normally stay at the restoring position, a restoring spring 24 is connected between the brake wheel 20, and the brake block 22. An end of the restoring spring 24 fits around a fixing rod 202b of the brake wheel 20. However, when the user is working, the fall arrest device 1 may be shaken. If the restoring spring 24 disengages from of the fixing rod 202b, the brake block 22 will be shaken, and the brake block 22 could be stuck on the stopper 122a, so that the safety belt 16 could not be pulled out. Even worse, the brake block 22 could be disengaged from the pivot axle 202a, losing its safety locking effect.
The present invention has been accomplished under the circumstances in view. It is the main object of the present invention to provide a fall arrest device, which prevents the restoring spring from disengaging from the fixing rod to increase the reliability of the fall arrest device.
To achieve this and other objects of the present invention, a fall arrest device comprises a bracket, a rotating member, a safety belt, a brake wheel, a brake block, and a restoring spring. The bracket has a stopper provided thereon. The rotating member is rotatably disposed on the bracket. The safety belt is wound around the rotating member and is pulled to drive the rotating member to rotate. The brake wheel is connected to and is rotated with the rotating member. The brake block is pivotally disposed on the brake wheel, and has a stop portion. The restoring spring has a first end thereof connected to the brake wheel, and a second end thereof connected to the brake block. The restoring spring normally drives the brake block to remain in a restoring position. The stop portion of the brake block is spun out with a centrifugal force generated by a rotation of the brake wheel to abut against the stopper so as to limit a rotation of the rotating member. The fall arrest device is characterized in that the brake wheel includes a wheel body and a fixing rod. The wheel body is connected to the rotating member. The fixing rod has a fixed end, a first segment, and a second segment. The fixed end is connected to the wheel body. The second segment is located between the fixed end and the first segment. Further, an outer diameter of the first segment is greater than an outer diameter of the second segment. The first end of the restoring spring has a ring fitting around the second segment of the fixing rod. An inner diameter of the ring is smaller than the outer diameter of the first segment.
Since the outer diameter of the outer diameter of the first segment of the fixing rod is greater than the inner diameter of the ring of the restoring spring, the ring could be restricted to the second segment, effectively avoiding the restoring spring from disengaging from the fixing rod.
The present invention will be best understood by referring to the following detailed description of some illustrative embodiments in conjunction with the accompanying drawings, in which
Referring to
Two shells 12 match with each other to form the housing 10, wherein each of the two shells 12 has a first chamber 12a, a second chamber 12b, and an opening 12c. The two shells 12 are connected to each other via the two openings 12c. Further, the housing 10 has a top hole 10a and a bottom hole (not shown).
The bracket 14 comprises a frame body 16 and a hanging ring 22 which is engaged with a top of the frame body 16. The frame body 16 has a first side panel 18 and a second side panel 20 facing each other. The first side panel 18 is located in the first chambers 12a of the two shells 12. The second side panel 20 is located in the second chambers 12b of the two shells 12. The first side panel 18 has a perforation 18a, and an outer surface 182 facing away from the second side panel 20, wherein at least one stopper 182a is disposed on the outer surface 182. In this embodiment, two stoppers 182a are disposed on the outer surface 182, and the two stoppers 1182a are oppositely disposed with the perforation 18a as a center.
The rotating member 24 is rotatably disposed between the first side panel 18 and second side panel 20 of the frame body 16, comprising a shaft 242 and a rotating drum 244. The shaft 242 has two opposite ends thereof respectively passing through the perforation 18a of the first side panel 18 of the bracket 14 and the second side panel 20. The rotating drum 244 is disposed on the shaft 242 and rotates coaxially with the shaft 242. A portion of the rotating drum 244 is exposed inside the perforation 18a.
The safety belt 26 is wound around the rotating member 24 between the first side panel 18 and second side panel 20. More specifically, an end of the safety belt 26 is connected to and is wound around the rotating drum 244, while another end thereof extends out of the housing 10 through the bottom hole of the housing 10. The safety belt 26 could be pulled to rotate the rotating drum 244 and the shaft 242.
The reeling device 28 is disposed in the second chambers 12b of the two shells 12 and is connected to the second side panel 20 of the bracket 14. The reeling device 28 comprises a box 282 and a spiral spring (not shown) located in the box 282. The spiral spring has an inner end thereof connected to the shaft 242 of the rotating member 24, and an outer end thereof connected to the box 282. The spiral spring provides a power of rewind the safety belt 26.
The brake wheel 30 is engaged with the rotating member 24 and rotates with the rotating member 24. In this embodiment, the brake wheel 30 comprises a wheel body 32 which is circular. The wheel body 32 has an inner surface 322 (i.e., the lateral side of the wheel body 32 defined in the present invention). The inner surface 322 faces the outer surface 192 of the first side panel 18. A central portion of the inner surface 322 is convexly formed with a convex shaft 324 passing through the perforation 18a of the first side panel 18 and engaged with the rotating drum 244 of the rotating member 24, and the convex shaft 324 has a shaft hole 324a which is adapted to be penetrated by the shaft 242. The brake wheel 30 further comprises at least one pivot axle 36 and at least one fixing rod 38. In this embodiment, two pivot axles 36 and two fixing rods 38 are provided. Each pivot axle 36 and each fixing rod 38 are integrally formed by extending from the inner surface 322 of the wheel body 32 as a monolithic unit, and the two pivot axles 36 and the two fixing rods 38 are respectively located on two opposite sides relative to the convex shaft 324.
The structure of each fixing rod 38 is the same, and one of the fixing rods 38 is taken as an example to illustrate the structure thereof with reference to
In this embodiment, the inner surface 322 of the wheel body 32 is recessed to form at least one groove 326. In this embodiment, two grooves 326 are formed in the inner surface 322 of the wheel body 32. The fixed end 382 of each fixing rod 38 is connected to a surface 326a of one respective groove 326. The second segment 386 of each fixing rod 38 is located between an extension surface 322a of the inner surface 322 and the surface 326a of the respective groove 326, and each fixing rod 38 protrudes beyond the respective groove 326. The outer diameter of the first segment 384 is gradually increased from the free end 388 toward the second segment 386. In this embodiment, the outer diameter of the first segment 384 is gradually increased to the maximum and then gradually decreased, so that an outer peripheral surface of the first segment 384 is convexly curved. However, the shape of the outer peripheral surface of the first segment is not a limitation of the present invention. In other embodiments, the outer peripheral surface of the first segment could be tapered. Further, a length of the first segment 384 is greater than a length of the second segment 386.
In the current embodiment, the fall arrest device 100 includes two brake blocks 40, wherein each brake block 40 has a pivot hole 402. The brake block 40 is pivotally connected to the pivot axle 36 of the brake wheel 30 via the pivot hole 402, such that the brake block 40 is located in the space between the inner surface 322 of the wheel body 32 of the brake wheel 30 and the outer surface 182 of the first side panel 18. The brake block 40 could be pivoted between a restoring position (refer to
The restoring spring 42 has a first end 422 and a second end 424, wherein the first end 422 is connected to the brake wheel 30, and the second end 424 is connected to the brake block 40 to be located at a side of the stop portion 404. In a normal state, each restoring spring 42 urges the corresponding brake block 40 to remain in the restoring position, so that the stop portion 404 of the brake block 40 is normally located in an area of an outer circumference of the wheel body 32 of the brake wheel 30.
More specifically, the first end 422 is circularly curved to form a ring 422a, wherein an inner diameter of the ring 422a is smaller than the outer diameter of the first segment 384 and is slightly greater than the outer diameter of the second segment 386. The ring 422a fits around the second segment 386 of the fixing rod 38. During the process of assembling, the ring 422a is placed to the free end 388 of the fixing rod 38 first. Since the ring 422a is flexible, when the ring 422a is attached to the first segment 384, the ring 422a will expand along the outer perimeter of the first segment 384 and then shrink, and finally fits around the second segment 386. The outer diameter of the first segment 384 is gradually increased from the free end 388 to the second segment 386, which facilitates the mounting of the ring 422a. The inner diameter of the ring 422a is preferably greater than the outer diameter of the free end 388 which facilitates to fit around the fixing rod 38.
Since the inner diameter of the ring 422a is smaller than the outer diameter of the first segment 384 of the fixing rod 38, the ring 422a could be restricted to the second segment 386, thereby to prevent the ring 422a from disengaging from the fixing rod 38.
With the outer diameter of the first segment 384 gradually increased to the maximum and then gradually contracted, when the person wants to remove the ring 422a (for example, to replace the restoring spring 42), the ring 422a could be stretched by the outer perimeter of the first segment 384, which could be easily taken out of the fixing rod 38. In practice, the outer diameter of the first segment 384 could be gradually increased to the maximum, and could be not shrunk, thereby to form a step difference between the first segment 384 and the second segment 386.
With the length of the first segment 384 greater than the length of the second segment 386, even if the ring 422a is removed from the second segment 386 in direction toward the free end 388, the ring 422a could be placed over the first segment 384 for a longer distance, reducing the chance of directly disengaging from the fixing rod 38.
Since the second segment 386 of the fixing rod 38 is located between the extension surface 322a of the inner surface 322 of the wheel body 32 and the surface 326a of the groove 326, the restoring spring 42 could be disposed close to the surface 326a of the groove 326 of the brake wheel 30 and the brake block 40 could be disposed close to the inner surface 322 of the brake wheel 30 after the ring 422a of the first end 422 is placed onto the second segment 386. The groove 326 could accommodate a part of a body 426 of the restoring spring 42, avoiding the brake block 40 from propping away from the inner surface 322 by the restoring spring 42, which may cause rubbing of the brake block 40 against the first side panel 18.
When the user accidentally falls, the safety belt 26 will be pulled sharply to rotate the rotating member 24 and the brake wheel 30 to rapidly, so that the brake block 40 is subjected to a centrifugal force and overcomes the elastic force of the restoring spring 42 to be spun out. At this time, one of the brake blocks 40 abuts against one of the stoppers 182a to restrict the rotation of the rotating member 24 and to fix the pulled out length of the safety belt 26, preventing the user from falling continuously.
According to the above description, with the outer diameter of the fixing rod being greater than the outer diameter of the second segment, and the outer diameter of the first segment of the fixing rod being greater than the inner diameter of the ring of the restoring spring, the fall arrest device of the present invention could restrict the ring to the second segment, effectively avoiding the restoring spring from falling out of the fixing rod to improve reliability.
It must be pointed out that the embodiments described above are only some preferred embodiments of the present invention. All equivalent structures which employ the concepts disclosed in this specification and the appended claims should fall within the scope of the present invention.
Number | Date | Country | Kind |
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107131911 | Sep 2018 | TW | national |