Patent Grant
11738922
Pawl-latching devices (e.g., cable ties, clips, clamps) are plastic injection molded parts that have a long history of use for securing elongated items (e.g., wires, cables, hoses, tubing, conduits) in a bundle. A variety of different types of defects may occur in molded parts produced using conventional injection molding processes.
A first type of defect is often referred to as a “warpage defect” or “warp.” A molded part that includes uneven wall thicknesses may experience a warpage defect because of stresses in step transitions (e.g., part wall sections) between the varying wall thicknesses, where the slower cooling of a thicker portion of the molded part, which is located adjacent to a thinner portion of the molded part (which cools faster), results in the warping of the thinner portion of the molded part. The thick sections will shrink more than the thin sections, causing the thin sections to be pulled towards (warp towards) the thick sections. A second type of defect is often referred to as a “sink” or “sink mark.” As a molded part cools, the plastic first solidifies at the surface of the mold, and then the solidification moves inward into the part until the entire part has solidified. The thicker the part, the longer the part will take to solidify. As a result, the centers of the thickest portions of the part may still be molten when the part is ejected from the mold. During cooling of the thickest portions of a molded part, an inward pulling stress can develop that results in sinks defined on the outer surfaces of the part. Defects in molded parts, particularly those that occur in functional features, may affect the performance of the part.
To avoid these types of defects, a manufacturer may spend considerable time monitoring the quality of the parts ejected from the molds to determine if such deformities exist and what changes to the molding process are needed to prevent such deformities. These changes may include, for example, adjusting (e.g., increasing) the hold time, adjusting the holding pressure, adjusting a cooling temperature of the molds, and the like. Such changes may result in a slowing of the production of parts and may result in reduced production quantities output.
In the molding of pawl-latching devices, warp and sink defects in pawl teeth profiles are undesirable because they impact the visual appearance of the products produced. Further, as discussed above, such warps and sinks could further result in poor product performance issues, for example, by potentially reducing the pawl teeth-to-strap serration engagement, possibly lowering the retention strength provided by the pawl-latching device when secured around elongate items.
This document describes techniques and apparatuses directed at improved pawl-latching devices.
In an aspect, disclosed is a pawl-latching device that includes an elongated strap with a plurality of serrations and a head. The head includes a slot, a pawl, and a pivot member. The slot extends through the head and includes a first channel conjoined with a second channel. The first channel is configured to receive the elongated strap. The pawl is disposed within the second channel of the slot, positioned internally to the head. The pawl includes a front side, a first side, a second side, a back side, a top side, and a bottom side. The pawl further has multiple pawl teeth defined in the front side that are configured to engage the plurality of serrations on the elongated strap when the elongated strap is disposed within the first channel. The pawl connects to the head at a hinged connection. The hinged connection defines a hinge axis relative to the head for the pawl to rotate about. The pivot member is defined in the bottom side of the pawl. The pivot member has a stop surface configured to contact a rear wall of the second channel when the elongated strap is disposed within the first channel and the pawl teeth engage the plurality of serrations in the elongated strap. The pivot member has a left side opposite a right side, and a notch in a center portion defined between the left side and the right side.
In another aspect, disclosed is a pawl-latching device that includes an elongated strap with a plurality of serrations and a head. The head includes a slot that extends through the head. The slot having a first channel conjoined with a second channel. The first channel is configured to receive the elongated strap. The head further includes a pawl disposed within the second channel of the slot. The pawl is positioned internally to the head and includes a front side, a first side, a second side, a back side, a top side, and a bottom side. The pawl further includes multiple pawl teeth defined in the front side; the pawl teeth configured to engage the plurality of serrations on the elongated strap when the elongated strap is disposed within the first channel. The pawl connects to the head at a hinged connection. The hinged connection defines a hinge axis that the pawl is configured to pivot relative to the head. The pivot member defined in the bottom side of the pawl. The pivot member has a stop surface configured to contact a rear wall of the second channel (e.g., a ledge of the pawl hinge) when the elongated strap is disposed within the first channel and the pawl teeth engage the plurality of serrations in the elongated strap. The pivot member has a left side opposite a right side, with a center portion defined therebetween. The pivot member further has a length that extends generally parallel to the hinge axis, with a notch defined along the length in the center portion. The pawl further includes a release feature that extends from the top side of the pawl spaced apart from the front side, the second side, and the first side of the pawl.
This Summary is provided to introduce simplified concepts for improved pawl-latching devices, which are further described below in the Detailed Description and Drawings. This Summary is not intended to identify essential features of the claimed subject matter, nor is it intended for use in determining the scope of the claimed subject matter.
The details of one or more aspects of techniques and apparatuses directed at improved pawl-latching devices are described with reference to the following Drawings, in which the use of the same numbers in different instances may indicate like features and/or components.
Overview
This document describes techniques and apparatuses for improved injection molded pawl-latching devices. Aspects of the present disclosure further address technical problems associated with warpage defects and sinks of pawl teeth profiles, and in particular, may enable one or more of maintaining of pawl teeth-to-strap serration engagement of pawl-latching devices, maintaining the retention strength provided by the pawl-latching device when secured around elongate items, decreasing manufacturing costs associated with injection molded pawl-latching devices, and/or increasing the production speed of injection molded pawl-latching devices.
An example pawl-latching device is described herein that includes a head end and a tail end. The head end includes a locking head and the tail end includes an elongated strap that extends from the locking head. The elongated strap may be configured for insertion through the locking head to form a loop (e.g., a loop around a bundle of elongate objects). The term “bundle” used herein refers to any object or objects that may be secured by a pawl-latching device. Common examples of a bundle, which is securable via an example pawl-latching device, include a bundle of wires, cables, lines, hoses, tubing, conduit, or other objects (e.g., elongate objects) that need securing. Additional example implementations of securing a bundle include securing vines to trellises, small trees to stakes, animal fencing to poles, etc. The locking head may include a pawl mechanism configured for engaging strap serrations defined on the elongated strap, thereby retaining the strap relative to the locking head. The locking head may include a release feature (e.g., unlocking tab, unlocking lever) configured to permit the pawl mechanism to be released from engagement with the strap serrations of the strap, thereby enabling the pawl-latching device to be removed from securing the bundle. The release feature may be configured to enable an operator to digitally manipulate (e.g., utilizing a finger of the operator, utilizing a tool) the release feature to disengage the pawl teeth on the pawl from engagement with the strap serrations. Disengagement of the pawl teeth from the strap serrations permits the elongated strap to be withdrawn from the locking head and the pawl-latching device to be removed from securing the bundle.
The pawl-latching device may be formed to include at least one notch defined in a portion of the pivot member of the pawl for reducing warpage defects and sinks of pawl teeth profiles of the pawl. In addition, the pawl-latching device may be formed to include an open cavity defined in the bottom of the pawl for reducing warpage defects and sinks of pawl teeth profiles of the pawl. Further, the pawl-latching device may be formed to provide a generally uniform wall thickness in the pawl for reducing warpage defects and sinks of pawl teeth profiles of the pawl. In aspects, the pawl-latching device may be formed with a release feature structure configured for reducing warpage defects and sinks of pawl teeth profiles of the pawl. In other aspects, the pawl-latching device may be formed to include a strut and channels defined on a back side of the pawl for reducing warpage defects and sinks of pawl teeth profiles of the pawl. In further aspects, the pawl-latching device may be formed to include downwardly extending channels defined within the body of the pawl that defines a beam therebetween for reducing warpage defects and sinks of pawl teeth profiles of the pawl. One or more of these pawl-latching devices, as described in detail below, may reduce the occurrence of warpage defects and sinks of pawl teeth profiles in injection molded pawl-latching devices, thereby improving pawl-to-strap-serration engagement strength (also referred to as loop tensile strength) relative to conventional cable-tie pawls. These are but a few examples of how the described techniques and apparatuses may be used to reduce warpage defects and sinks of pawl teeth profiles in injection molded pawl-latching devices. Other examples and implementations are described throughout this document.
Pawl-Latching Devices
The locking head 108 has a top side 202 and a bottom side 204, with a slot 206 defined therebetween. The slot 206 has a first channel 208 and a second channel 210 conjoined with the first channel 208. The slot 206 extends through the locking head 108. The first channel 208 may be configured to receive the elongated strap 102, such as the tail end 106 of the strap 102. The slot 206 may include a rear wall 232 opposite a front wall 234. The pawl mechanism 110 may be disposed within the second channel 210 of the slot 206 such that when the strap 102 is disposed within the first channel 208, the pawl mechanism 110 engages the strap 102 to allow unidirectional movement of the strap 102 through the first channel 208 in a first direction and resist movement of the strap 102 in an opposite direction. The locking head 108 may further include a buckle 212 defining a buckle channel 214 through the locking head 108. The buckle 212 provides an alternative attachment point, for example, as a slot configured to receive the elongated strap of another pawl-latching device (not illustrated).
The pawl mechanism 110 includes a pawl 216 connected to (e.g., tethered inside) the locking head 108, and forming a hinged connection 218 within the second channel 210 of the slot 206. The hinged connection 218 defines a hinge axis (H), as illustrated in
A pivot member 304 may be defined at or in the bottom side 302 of the pawl 216. The pivot member 304 may function to stop the bottom of the pawl from moving beyond the vertical ledge where hinge is attached when moderate strap tension is applied, may anchor the base of the pawl against the ledge, may reinforce the thin hinge for increased strap tension, may transform into a fulcrum or pivot for further pawl rotation at higher applied loop tension, and may add additional wedging to the pawl for optimal applied tension (at this highest tension level the pivot compresses and deforms and the hinges stretches, and the pivot provides a cam effect).
The pivot member 304 having a stop surface 306 configured to contact the rear wall 232 of the slot 206 (e.g., second channel 210) (e.g., a ledge of the pawl hinge) when the elongated strap 102 is disposed within the first channel 208 and the pawl teeth 220 engage the plurality of serrations 602 in the elongated strap 102 under load (e.g., when the strap is moderately tensioned around a bundle), as illustrated in
The pawl 216 may be positioned internal to the locking head 108 such that the pawl 216 (e.g., the release feature 236 of the pawl 216) does not extend above the top side 202 of the locking head 108 (e.g., the pawl 216 does not protrude longitudinally out of the slot 206/second channel 210) and/or such that the pawl 216 (e.g., bottom side 302, pivot member 304) does not extend below a bottom side 204 of the locking head 108 (e.g., the pawl 216 does not protrude longitudinally out of the slot 206/second channel 210). In such a configuration, illustrated in
The pawl 216 may include the release feature 236 defined by a walled structure 238 integrally connected to the pawl 216 at the top side 230 of the pawl 216. The walled structure 238 may be spaced apart from at least one of the front side 222 of the pawl 216 to define a recess 240 for receiving a tip of a user's finger (further illustrated in
The release feature 236 extends from the top side 230 of the pawl 216. The release feature 236 (e.g., the walled structure 238) may be spaced apart from one or more of the front side 222, the first side 226, and the second side 228 of the pawl 216. The spacing of the release feature 236 (e.g., the walled structure 238) apart from one or more of the front side 222, the second side 228, or the first side 226 may result in the avoidance of geometry that contributes to sinking and warping.
The first side wall 248 and the second side wall 250 may extend from the top side 230 of the pawl 216 along the back side 224 of the pawl 216 to the hinged connection 218. The elongated first side wall 248 and elongated second side wall 250 may function as struts configured to reinforce the connection between the pawl 216 and the hinged connection 218 to provide increased wedging strength during high-loop tensile-strength applications. For example, the first side wall 248 may define a first strut 252 on the back side 224 of the pawl 216, the first strut 252 extending from the hinged connection 218 to the top side 230 of the pawl 216. Likewise, the second side wall 250 may define a second strut 254 on the back side 224 of the pawl 216, the second strut 254 extending from the hinged connection 218 to the top side 230 of the pawl 216. In aspects, the second strut 254 may be spaced apart from the first strut 252, defining at least one channel 256 therebetween. The fore wall 242 may also be configured to reinforce the first side wall 248 and second side wall 250 to provide increased wedging strength during high-loop tensile-strength applications. Further, integration of the first side wall 248, the second side wall 250, and the fore wall 242 provides reinforcement strength to the fore wall 242 for disengaging the pawl teeth 220 when the pawl teeth 220 are compressively engaged with the serrations 602 on the tail end 106 of the strap 102 and a user's finger or a release tool applies a force against the fore wall 242 of the release feature 236 to move the pawl 216 away from the strap 102.
The pawl-latching device 800 further includes a pawl mechanism 810 within the locking head 108. The pawl mechanism 810 having a pawl 816 with pawl teeth 820, a front side 822, a back side 824, a first side 826, a second side 828, a top side 830, a bottom side 802, a pivot member 804, a stop surface 806, a pivot member left side 808, a pivot member right side 811, a pivot member center portion 812, and a pivot member notch 814. In aspects, a notch may not be present in the pivot member.
The pawl 816 is connected to (e.g., tethered inside) the locking head 108, forming a hinged connection 818 within the second channel 210 of the slot 206. The hinged connection 818 defines a hinge axis (H2), as illustrated in
The pawl teeth 820 of the pawl-latching device 800 may be configured to engage the plurality of serrations 602 on the tail end 106 of the elongated strap 102 when a portion of the tail end 106 of the elongated strap 102 may be disposed within the first channel 208. For example, when the pawl-latching device 800 is secured around a bundle 604, as illustrated in
The pawl 816 may include a release feature 836 (e.g., release feature 236 in
In the configuration illustrated in
In the aspect illustrated in
The inclusion of the first channel 813 and the second channel 815 may prevent a change in geometry that contributes to sinking and warping. The support wall 817 may function to reinforce front portion 819 relative to the rear portion 821 to provide increased wedging strength during high-loop tensile-strength applications. This may provide reinforcement strength to the pawl 816 for disengaging the pawl teeth 820, such as, when the pawl teeth 820 are compressively engaged with the serrations 602 on the tail end 106 of the strap 102 and a user's finger or a release tool applies a force against the release feature 836 to move the pawl 216 away from the strap 102.
The pawl mechanism 810 of the pawl-latching device 800 may be configured to operate similarly to the release of the pawl mechanism 110 of the pawl-latching device 100 illustrated in
The pawl-latching device 1500 further includes a pawl mechanism 1510 within the locking head 108. The pawl mechanism 1510 having a pawl 1516 with pawl teeth 1520, a front side 1522, a back side 1524, a first side 1526, a second side 1528, a top side 1530, a bottom side 1502, a pivot member 1504, a stop surface 1506, a pivot member left side 1508, a pivot member right side 1511, a pivot member center portion 1512, and a pivot member notch 1514. In aspects, a notch may not be present in the pivot member.
The pawl 1516 is connected to (e.g., tethered inside) the locking head 108, forming a hinged connection 1518 within the second channel 210 of the slot 206. The hinged connection 1518 defines a hinge axis (H3), as illustrated in
In aspects, the pawl-latching device 1500 may include an open cavity 1550 defined in the pawl 1516, for example, as illustrated in
The pawl teeth 1520 of the pawl-latching device 1500 may be configured to engage the plurality of serrations 602 on the tail end 106 of the elongated strap 102 when a portion of the tail end 106 of the elongated strap 102 is disposed within the first channel 208. For example, when the pawl-latching device 1500 is secured around a bundle 604, as illustrated in
The pawl 1516 may include a release feature 1536 (e.g., release feature 236 in
In the configuration illustrated in
The flange 1538 may be spaced apart from the front side 1522 of the pawl 1516 to define a recess 1540 for receiving a tip of a user's finger (as illustrated in
After a pawl-latching device 100 is secured around the bundle 604 and tensioned, a portion of the tail end 106 of the pawl-latching device 100 may be removed, for example, by a tension and cutoff cable tie tool or other such installation tool (not illustrated). For example, an installation tool can be used to apply tension to the pawl-latching device and also shear off excess length of the strap that extends above the top side of the locking head. Such an installation tool may operate by applying tension to the pawl-latching device by pulling the strap while pushing on the top side of the locking head and using a blade to shear the strap. In such an operation, the pawl rotates toward the strap, enabling the pawl teeth on the pawl to engage the serrations on the strap and secure the pawl-latching device in place. Because the pawl-latching device is tensioned around the bundle, when the strap is sheared, the remaining strap tension is momentarily released until the pawl teeth engage serrations on the strap; thereby moving the strap in a reverse direction through the first channel and toward the bundle. Further, because the pawl and the release feature are positioned internally to the locking head, the installation tool can shear the strap substantially flush with the top side of the locking head to substantially remove any protruding, sharp edges on the strap that could pose a risk of injury to a user or damage to adjacent routed bundles, hoses, etc.
The following are additional examples of techniques and apparatuses directed to pawl-latching devices.
Example 1: A pawl-latching device comprising: an elongated strap comprising a plurality of serrations; and a head, the head comprising: a slot that extends through the head, the slot including a first channel conjoined with a second channel, the first channel configured to receive the elongated strap; and a pawl disposed within the second channel of the slot, the pawl positioned internally to the head, the pawl comprising: a front side, a first side, a second side, a back side, a top side, and a bottom side; the pawl having multiple pawl teeth defined in the front side, and configured to engage the plurality of serrations on the elongated strap when the elongated strap is disposed within the first channel; the pawl connected to the head at a hinged connection, wherein the hinged connection defines a hinge axis relative to the head for the pawl to pivot about; and a pivot member defined in the bottom side, the pivot member having a stop surface configured to contact a rear wall of the second channel when the elongated strap is disposed within the first channel and the pawl teeth engage the plurality of serrations in the elongated strap, the pivot member having a left side opposite a right side, and a notch in a center portion defined between the left side and the right side.
Example 2: The pawl-latching device of Example 1, wherein the pivot member has a length that extends generally parallel to the hinge axis.
Example 3: The pawl-latching device of Example 1 or 2, wherein the notch is defined along the length in the center portion.
Example 4: The pawl-latching device of any of Examples 1-3, further comprising, an open cavity defined in the pawl, and that extends into the pawl, from the notch, and in a direction of the top side of the pawl.
Example 5: The pawl-latching device of any of Examples 1-4, wherein the open cavity further comprises: a top wall defined in a top portion of the pawl, and opposite an open bottom in the notch, wherein connected to the top wall the open cavity further comprises: a back wall opposite a front wall; and a first side wall opposite a second side wall.
Example 6: The pawl-latching device of any of Examples 1-5, wherein a thickness of the back wall is generally uniform with a thickness of at least one of the front wall, the first side wall, or the second side wall; or wherein a thickness of the first side wall is generally uniform with a thickness of at least one of the back wall, the front wall, or the second side wall.
Example 7: The pawl-latching device of any of Examples 1-6, wherein the thicknesses of the back wall, the front wall, the first side wall, and the second side wall are generally uniform.
Example 8: The pawl-latching device of any of Examples 1-7, wherein the pawl further comprises: a release feature that extends from the top side of the pawl spaced apart from the front side, the second side, and the first side of the pawl.
Example 9: The pawl-latching device of any of Examples 1-8, wherein the top side is recessed below the top side of the head.
Example 10: The pawl-latching device of any of Examples 8 or 9, wherein the release feature is recessed below the top side of the head.
Example 11: The pawl-latching device of any of Examples 8-10, wherein the release feature further comprises: a fore wall that faces a front wall of the slot; a back wall that faces the rear wall of the slot; and a feature channel defined in the back wall.
Example 12: The pawl-latching device of any of Examples 8-11, wherein the release feature is generally U-shaped.
Example 13: The pawl-latching device of any of Examples 1-12, further comprising: a first strut on the back side of the pawl, and that extends from the hinged connection to the top side of the pawl.
Example 14: The pawl-latching device of any of Example 13, further comprising: a second strut on the back side of the pawl, and that extends from the hinged connection to the top side of the pawl, wherein the second strut is spaced apart from the first strut, and defines a channel therebetween.
Example 15: The pawl-latching device of any of Examples 1-14, wherein the pawl further comprises: a first channel defined in the pawl, the first channel that extends from the top side towards the bottom side of the pawl; and a second channel defined in the pawl, the second channel that extends from the top side towards the bottom side of the pawl, wherein the first channel and the second channel define a support wall therebetween, the support wall connects at a first end with a front portion of the pawl, the support wall connects at a second end with a rear portion of the pawl.
Example 16: A pawl-latching device comprising: an elongated strap comprising a plurality of serrations; and a head, the head comprising: a slot that extends through the head, the slot including a first channel conjoined with a second channel, the first channel configured to receive the elongated strap; and a pawl disposed within the second channel of the slot, the pawl positioned internally to the head, the pawl comprising: a front side, a first side, a second side, a back side, a top side, and a bottom side; the pawl having multiple pawl teeth defined in the front side, the pawl teeth configured to engage the plurality of serrations on the elongated strap when the elongated strap is disposed within the first channel; the pawl connected to the head at a hinged connection, wherein the hinged connection defines a hinge axis that the pawl is configured to pivot relative to the head; a pivot member defined in the bottom side, the pivot member having a stop surface configured to contact a rear wall of the second channel when the elongated strap is disposed within the first channel and the pawl teeth engage the plurality of serrations in the elongated strap, the pivot member having a left side opposite a right side, with a center portion defined therebetween, the pivot member having a length that extends generally parallel to the hinge axis, and the pivot member further comprises a notch defined along the length in the center portion; and a release feature that extends from the top side of the pawl spaced apart from the front side, the second side, and the first side of the pawl.
Example 17: The pawl-latching device of Example 16, further comprising: an open cavity defined in the pawl, and that extends into the pawl from the notch in a direction of the top side of the pawl.
Example 18: The pawl-latching device of Example 16 or 17, wherein the open cavity further comprises: a top wall defined in a top portion of the pawl, the top wall opposite an open bottom, the open bottom in the notch; a back wall opposite a front wall; and a first side wall opposite a second side wall, wherein a thickness of the back wall is uniform with a thickness of at least one of the front wall, the first side wall, or the second side wall.
Example 19: The pawl-latching device of any of Examples 16-18, further comprising: a first strut on the back side of the pawl, and that extends from the hinged connection to the top side of the pawl; and a second strut on the back side of the pawl, and that extends from the hinged connection to the top side of the pawl, the second strut spaced apart from the first strut, defining a channel therebetween.
Example 20: The pawl-latching device of any of Examples 16-19, wherein the pawl further comprises: a first channel defined in the pawl, and that extends from the top side towards the bottom side of the pawl; and a second channel defined in the pawl, and that extends from the top side towards the bottom side of the pawl, wherein the first channel and the second channel define a support wall therebetween, and that connects at a first end with a front portion of the pawl, and further connects at a second end with a rear portion of the pawl.
While various aspects of pawl-latching devices are described in the foregoing description and illustrated in the drawings, it is to be understood that this disclosure is not limited thereto but may be variously embodied to practice within the scope of the following claims. From the foregoing description, it will be apparent that various changes may be made without departing from the spirit and scope of the disclosure as defined by the following claims. Further, the specific features and methods disclosed are example implementations of pawl-latching devices, and other equivalent features and methods are intended to be within the scope of the appended claims. Additionally, various different aspects are described, and it is to be appreciated that each described aspect can be implemented independently or in connection with one or more other described aspects or parts thereof.
The use of “or” and grammatically related terms indicates non-exclusive alternatives without limitation unless the context clearly dictates otherwise. As used herein, a phrase referring to “at least one of” a list of items refers to any combination of those items, including single members. As an example, “at least one of: a, b, or c” is intended to cover a, b, c, a-b, a-c, b-c, and a-b-c, as well as any combination with multiples of the same element (e.g., a-a, a-a-a, a-a-b, a-a-c, a-b-b, a-c-c, b-b, b-b-b, b-b-c, c-c, and c-c-c or any other ordering of a, b, and c).
This application claims benefit under 35 U.S.C. § 119(e) to U.S. Provisional Patent Application 63/257,047, filed on Oct. 18, 2021, U.S. Provisional Patent Application 63/214,142, filed on Jun. 23, 2021, and U.S. Provisional Patent Application 63/213,606, filed on Jun. 22, 2021, the disclosures of which are incorporated herein by reference in their entireties.
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