Patent Application
20190012900
Not Applicable.
Not Applicable,
This disclosure relates to personal protective equipment (PPE) and more particularly to fall protection equipment (FPE), and even more particularly to fail indicators/fall detection devices as used in connection with fall harnesses and other fall protection equipment.
Fall harnesses are an example of a critical piece of fall protection safety equipment that are integral to preventing accidents on the job site. They provide a reliable restraint system worn by the worker that is connected to a fixed anchor point on a supporting structure. Fall harnesses are designed to arrest the fall of a worker quickly and safely but result in the worker being suspended in the fall harness. If there is no ladder or scaffolding for the worker to climb back up, the worker will remain suspended until additional rescue help can be rendered. Being suspended in the fall harness for an extended period of time can lead to serious injury or death. Consequently, rapid response is critical.
It is known to provide a fall indicator in a fall harness to provide notice that a fall harness has experienced a arrested fall while worn by worker, with the fall indicator being formed by a folded length of one of the straps that forms the fall harness that is secured in the folded condition by a breakable connection that breaks when the harness experiences an arrested fall while worn by a worker. Typically, such fall indicators have a label or other indicia that is exposed when the breakable connection is broken and the folded length of strap unfolds, with the now exposed label or other indicia providing notice that the harness has experienced an arrested fall. While the notice provided by the label/indicia is useful for preventing future use of the harness without understanding that the harnesses already experienced an arrested fall, the label/indicia does nothing to alert other personnel that a worker has experienced an arrested fall and may be suspended in the fall harness.
A fall detection/fall indicator device is provided that automatically senses when a user of fall protection equipment, such as a fall harness, has experienced an arrested fall and capable of providing an alarm/alert to other personnel so that they may provide assistance to the user in a timely fashion.
In accordance with one feature of this disclosure, a fall harness is provided for use in fall protection. The fall harness includes a plurality of straps configured to attach the harness to a user and to other fall protection equipment. The harness further includes a fall indicator having a first state wherein the harness has not experienced an arrested fall, and a second state wherein the harness has experienced an arrested fall while worn by a user. The fall indicator includes a length of one of the straps, the length having a folded condition in the first state wherein the length is folded upon itself and maintained in the folded condition by a connection that breaks in response to the harness experiencing an arrested fall while worn by a user, and an unfolded condition in the second state wherein the connection is broken and the length unfolded in response to an arrested fall experienced by the harness while worn by a user. The fall indicator further includes an electrical connection having a pair of electrical contacts that are contacted together to form a closed circuit in the first state and that are spaced from each other in the second state to form an open circuit. The contacts are mounted on the length of strap so that the contacts face each other in adjacent portions of the length of strap in the folded condition and are contacted together to form the closed circuit, and so that the contacts are spaced from each other with the length of strap in the unfolded condition to form the open circuit. The fall indicator further includes an alert device operably connected to the electrical connection and responsive to the open circuit to provide an alert to other personnel that the fall indicator is in the second state after the harness experiences an arrested fall while worn by a user.
As one feature, the electrical connection includes a snap fastener having a post component defining one of the contacts, and a socket component defining the other contact and configured to releasably receive the post component.
In one feature, a processing unit is operably connected to the electrical connection to detect the open circuit and to the alarm device to initiate the alert in response to detection of the open circuit. According to a further feature, the processing unit is a microprocessor unit. As one feature, a housing mounts at least one of the processing unit and the alert device to the harness. In a further feature, the housing is fixed on the length of strap.
According to one feature, the alert device is configured to emit an audible acoustic alert. As a further feature, the alert device includes a siren device.
In one feature, the alert device is configured to emit a visual alert. According to a further feature, the alert device includes a strobe light device.
As one feature, the alert device is configured to emit a wireless signal that can be detected by a device remote from the harness to alert the device that the fall indicator is in the second state. In a further feature, the alert device includes a wireless transmitter.
According to one feature, the harness includes at least one more fall indicator.
As one feature, a method of providing an alert that a piece of fall protection equipment has experienced an arrested fall while worn or used by a user is provided. The piece of fall protection equipment including a fall indicator having a first state wherein the piece of fall protection equipment has not experienced an arrested fall, and a second state wherein the piece of fall protection equipment has experienced an arrested fall while worn or used by a user. The method includes the steps of electronically detecting a change of the fall indicator from the first state to the second state, and automatically initiating an alert in response to the step of electronically detecting.
In one feature, the step of electronically detecting includes creating an open circuit in response to the change of the fall indicator from the first state to the second state.
According to one feature, a method of providing an alert that a piece of fall protection equipment has experienced an arrested fall while worn or used by a user is provided. The method includes the steps of providing the piece of fall protection equipment with an electrical circuit that is closed in a first state wherein the piece of fall protection equipment has not experienced an arrested fall, and that is open in a second state wherein the piece of fall protection equipment has experienced an arrested fall while worn or used by a user, and automatically initiating an alert in response to the open circuit.
As one feature, a fall indicator is provided for use on a piece of fall protection equipment to provide an alert to other personnel that a worker using or wearing the piece of fall protection equipment has experienced an arrested fall. The fall indicator has a first state wherein the piece of fall protection equipment has not experienced an arrested fall, and a second state wherein the harness has experienced an arrested fall while worn or used by a worker. The fall indicator includes a length of strap, the length having a folded condition in the first state wherein the length is folded upon itself and maintained in the folded condition by a connection that breaks in response to the piece of fall protection equipment experiencing an arrested fall; and an unfolded condition in the second state wherein the connection is broken and the length unfolded in response to an arrested fall. The fall indicator further includes an electrical connection having a pair of electrical contacts that are contacted together to form a closed circuit in the first date and that our spaced from each other in the second state to form an open circuit. The contacts are mounted on the length of strap so that the contacts face each other in adjacent portions of the length of strap in the folded condition and are contacted together to form the closed circuit, and so that the contacts are spaced from each other with the length of strap in the unfolded condition to form the open circuit. The fall indicator further includes an alert device operably connected to the electrical connection and responsive to the open circuit to provide an alert to other personnel that the fall indicator is in the second state after the piece of fall protection equipment experiences an arrested fall.
Other features and advantages will become apparent from a review of the entire specification, including the appended claims and drawings.
With reference to
One or more fall protection/fall indicator devices 20 are provided at one or more corresponding key locations on the harness 10 where the harness 10 will experience a shock load when a user 14 of the harness 10 experiences an arrested fall. Each of the fall indicators 20 has a first state wherein the user 14 and the harness 10 have not experienced an arrested fall, and a second state wherein the user 14 and the harness 10 have experienced an arrested fall. In the second state, each of the fall indicators 20 provide an alarm/alert to other personnel that the user 14 has experienced an arrested fall, thereby enabling such personnel to provide assistance to the user 14 in a timely fashion. Because fall harnesses are well known and because they can be, and are, provided in a number of different configurations with different details that are compatible with the concepts of this disclosure, and further because the details of the safety harness 10 outside of the fall indicator 20 are not critical to understanding the fall indicator 20 and the method according to this disclosure, further details of the harness 10 outside of the fall indicator 20 will not be provided herein.
In the illustrated embodiment, the connection 24 is provided in the form of two spaced lines of stitching 26 that extend through and connect adjacent portions 28, 30, and 32 of the length 22 at folds 34 of the fall indicator 20 in the folded condition. As is known, proper selection of materials and stitch configuration will allow the lines of stitching 26 to break when the length 22 of strapping 12 experiences a predetermined tensile shock load F that corresponds to the expected load that will be experienced during an arrested fall. It should be appreciated that while the illustrated embodiment shows the connection 24 in the form of the pair of spaced lines of stitching 26 other suitable forms of the connection 24 are contemplated within the scope of this disclosure, such as, for example, a single line of stitching, bonding agents or adhesive, and/or one or more breakable/releasable rivet connections.
The fall indicator 20 includes an electrical connection 40 having a pair of electrical contacts 42 and 44 that are part of an electrical circuit, shown schematically at 45 in
In the illustrated embodiment, the electrical connection 40 is provided in the form of an electrically conductive snap fastener 50 having an electrically conductive post component 52 defining one of the contacts 42 and an electrically conductive socket component 54 defining the other of the contacts 44 and configured to releasably receive a post 56 of the post component 52, with the engagement of the post 56 and the socket component 54 forming an electrically conductive connection. Although it is not known for such snap fasteners to be used as an electrical connection, the garment industry is replete with many known suitable, electrically conductive configurations and types of such snap fasteners, any of which may be utilized in the fall indicator 20 according to this disclosure depending upon the particular requirements of each application and, accordingly, the details of the illustrated snap fastener 50 are not important to an understanding of the concepts disclosed and claimed herein and the claims are not limited to any particular detail unless expressly stated in the claims. Having said that, as best seen in
In the illustrated embodiment, the fall indicator 20 further includes an electronics module 60 that at least includes an alert device 62 operably connected to the electrical connection 40 and responsive to the open circuit 48 to automatically provide an alert that the fall indicator 20 is in the second state after the harness 10 and the user 14 have experienced an arrested fall.
In the illustrated embodiment, the electronics module 60 further includes a processing unit provided in the form of a microprocessor unit (MPU) 64 operably connected to the electrical connection 40 to automatically detect the open circuit 48 and operably connected to the alert device 62 to automatically initiate the alert in response to detection of the open circuit 48. In this regard, in some embodiments, it will be desirable for the MPU 64 to be a very low power consumption MPU that is configured to wake up periodically to sense the condition of the fall indicator 20. In the illustrated embodiment, the open circuit 48 is detected as a change in voltage at DI in the MPU 64 relative to the closed circuit 46 voltage at DI. In the illustrated embodiment, a housing 66 is fixed on the length 22 of strap 12 and mounts and encloses the alert device 62 and the processing unit 64.
In some embodiments, the alert device 62 is configured to emit an audible acoustic alert/alarm that is detectable by personnel remote from the user 14. In some embodiments, the alert device 62 is configured to emit a visual alert that is detectable by personnel remote from the user 14. In some embodiments, the alert device 62 is configured to emit a wireless signal that can be detected by a device or devices (not shown) remote from the harness 10 and the user 14 to alert the remote device(s) that the fall indicator 20 is in the second state and that the user 14 has experienced an arrested fall. The remote device(s) may be in the form of one or more wireless phones (cell phones) that have a fall detection application software and that are carried by remote personnel, by a receiver that has an embedded acoustic alert device/generator, or/and a relay device that will relay the wireless signal to a cloud server or similar device configured to distribute the wireless signal, including the identification of the fallen user to the fallen users supervisor and/or rescuers. In some embodiments, the alert device 62 is configured to emit at least two of the visual alert, audible acoustic alert, and wireless signal. In some embodiments, the alert device is configured to emit just one of the visual alert, audible acoustic alert, and wireless signal. In some embodiments, the alert device 62 is configured to emit all three of the visual alert, audible acoustic alert, and wireless signal. In some embodiments wherein the alert device 62 is configured to emit an audible acoustic alert, the alert device 62 will include a siren device 68, of which many suitable types and configurations are known, with a high power siren device 68 capable of producing an 85 dB audible noise being desirable in many applications. In some embodiments wherein the alert device 62 is configured to emit a visual alert, the alert device 62 will include a strobe light device 70, of which many suitable types and configurations are known. It will be desirable in some applications for the strobe light device 70 to be positioned so that it reflects of the material of the strap(s) 12 to further enhance the illumination. In some embodiments wherein the alert device 62 is configured to emit a wireless signal, the alert device 62 will include a wireless transmitter 72, of which many suitable types and configurations are known.
With reference to
With reference to
electronically detecting 82 a change of the fall indicator 20 from the first state to the second state; and
automatically initiating 84 an alert in response to the step on electronically detecting.
In a further embodiment of the method 80, the step 82 of electronically detecting includes creating 86 an open circuit 48 in response to the change of the fall indicator 20 from the first state to the second state.
While several embodiments have been shown and discussed herein, it should be understood that this disclosure contemplates modifications to those embodiments. For example, while the electronics module 60 has been shown as being fixed to the fall indicator 20, the electronics module 60 could be fixed to other portions of the harness 10. As another example, while the electronics module 60 has been shown as being mounted and enclosed in a single housing 66, the electronics module 60 could be mounted and enclosed in multiple housings. As a further example, while the illustrated embodiments show the alert device 62 as being connected to the electrical connection 40 via the MPU 64 and initiated by the MPU 64, other operable connections are contemplated that would initiate the alert device 62 in response to the open circuit 48. As yet a further example, while the illustrated embodiment of the electrical connection 40 is shown in the form of a snap fastener 50, other suitable forms of electrical connections having a pair of electrical contacts that can be connected in the first state and disconnected in the second state are contemplated within the scope of this disclosure. As yet another example, while the fall indicator 20 has been disclosed herein in connection with a fall harness 10, use of the fall indicator 20 with other types of fall protection equipment, such as, for example, fall protection lanyards and SRL's, is contemplated within the scope of this disclosure. As a further example, while the breakable/releasable connection 24 is shown the form of two lines of stitching 26 that extend through three layers of length 22 of strap 12, it is possible for either or both of the lines of stitching 26 to extend only through two layers of the length of strap 12, or for the connection to be a single line of stitching that extends only through two layers of the length of strap 12.
This application claims the benefit of the filing date of U.S. Provisional Ser. No. 62/273,853, filed Dec. 31, 2015, which is hereby incorporated by reference in its entirety.
| Filing Document | Filing Date | Country | Kind |
|---|---|---|---|
| PCT/US2016/064332 | 12/1/2016 | WO | 00 |
| Number | Date | Country | |
|---|---|---|---|
| 62273853 | Dec 2015 | US |
