KR870700125A - Fastening system and fasteners for shipping containers - Google Patents

Abstract

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Description

Fastening system and fasteners for shipping containers

Since this is an open matter, no full text was included.

3 is an enlarged cutaway sectional view of the lock surface and assembly portion of the fastener of FIG.

4 is a view similar to FIG. 1 after the fastener is installed.

Claims (20)

At least one workpiece having a relatively soft core and an opposite end of the alignment hole in the relatively indeterminate workpiece are provided in a fastening system for fixing the workpiece in a state where one worker is individually accessible but not accessible at the same time. The fastener has a tubular sleeve and an elongated pin, the sleeve having an extended sleeve head and an elongated sleeve stem, the sleeve body having a first bore portion and a second at the end of the sleeve body opposite the sleeve head; A through bore consisting of a bore portion, the second bore portion having a larger diameter than the first bore portion and defining a shoulder extending radially inward at the junction of the first and second bore portions, the pin extending A pin head and body, the pin body having a generally smooth body portion adjacent to the pin head, It is located adjacent to the smooth body portion and has a larger diameter than the body portion, the lock groove has a diameter smaller than the smooth body portion, is located directly adjacent to the lock protrusion and has a plurality of protrusions and grooves, and the spline protrusion Is a diameter approximately matching the diameter of the second bore portion, wherein the spline groove has a depth approximately matching the depth of the lock groove, and the spline groove and the projection are about 10 to 30 degrees with respect to the axis of the pin body. Spirally formed at an angle, the traction is located at the end of the pin body opposite the pin head and is to be captured by a tool that applies a state axial force between the pin and the sleeve to secure the fastener, Is located midway between the towing and spline sections, with the spline section pre-installed A frictional connection that frictionally secures the sleeve together to engage the shoulders of the sleeve and the second bore, the frictional connection being sufficient to hold the pin and sleeve together when the tool is applied to the towing portion, the pin head being the pin body. Of the material at the sleeve body when the outer surface of the arm has the same diameter and the surface under the pin head engages the opposite end of the thrill body and the pin head moves axially into the sleeve body in response to relative axial forces. Shearing the ring, the pin head and the sheared ring radially inflates the sleeve body to form an expanded head that is larger in diameter than the opposing alignment holes of the workpiece, and the spline portion moves the material of the sleeve body into the spline groove. And at the same time radially inflate the first bore of the sleeve body when the pin is axially threaded into the sleeve, The expanded material of the first bore radially couples with the holes of the relatively hard small fish to assist in sealing, and the lock projection moves the shoulder material coupled into the radial inside of the lock groove after the spline portion has moved. In combination with the shoulder material, the spline grooves and protrusions provide the lock protrusion with a predetermined cross-sectional area and volume of the sleeve material in the shoulder to facilitate movement of the shoulder material into the lock grooves. And the breaking neck groove is cut when the relative axial force obtains the predetermined size after the formation and after the lock groove is substantially filled. A fastening system for securing a workpiece having aligned holes, the fastener having a tubular sleeve and an elongated pin, the sleeve having an extended sleeve head and an elongated sleeve body, the sleeve body having a sleeve head. Has a through bore consisting of a first bore portion and a second bore portion at an end of the sleeve body opposite the second bore portion, wherein the second bore portion has a larger diameter than the first bore portion and the junction of the first and second bore portions. Defining a shoulder extending radially inwardly, the pin having an extended pin head and body, the pin body having a body portion adjacent to the pin head, and the locking protrusion located adjacent to the body portion. Having a diameter larger than most, the lock groove has a diameter smaller than the smooth portion and is located adjacent to the lock protrusion, The line portion is located adjacent to the lock groove and has a plurality of protrusions and grooves, the spline protrusions belonging to a diameter approximately matching the diameter of the second bore portion, the spline grooves approximating the depth of the lock groove. Having a well matched depth, the spline grooves and protrusions are formed helically with respect to the axis of the pin body, and the towing portion is located at the end of the pin body opposite the pin head and the relative axis between the pin and the sleeve to secure the fastener. It is intended to be captured by a tool that applies a directional force, the friction connecting means frictionally fastening the pin and sleeve together in a pre-installed state, the friction connecting means holding the pin and sleeve together when the tool is applied to the towing portion It is sufficient for the pin head to have a diameter approximately equal to the outer diameter of the pin body, and the surface underneath the pin head The pin head, which engages with the opposite end of the rib body and radially inflates the sleeve body in response to the relative axial force, forms an enlarged head with a larger diameter than the alignment holes facing the workpiece, and the spline portion of the sleeve body As the material moves into the spline groove and at the same time the pin is axially threaded into the sleeve, the first bore of the sleeve body expands radially, and the lock projection provides a shoulder material coupled radially into the lock groove after the spline portion moves. In combination with the shoulder material for movement, the spline groove and the projection providing the lock protrusion with a predetermined cross sectional area and volume of the sleeve material in the shoulder to facilitate movement of the shoulder material into the lock groove by the locking protrusion. Fastening system. A fastening system for securing a workpiece having aligned holes, the fastener having a tubular sleeve and an elongated pin, the sleeve having an extended sleeve head and an elongated sleeve body, the sleeve body having a sleeve head. A through bore consisting of a first bore portion and a second bore portion at the end of the sleeve body opposite to the second bore portion, wherein the second bore portion has a larger diameter than the first bore portion and a junction point of the first and second bore portions; Defining a shoulder extending radially inwardly, the pin having an extended pin head and body, the pin body having all of the locks spaced close to the pin head and having a diameter greater than the first walk-up portion, The groove has a smaller diameter than the lock shoulder and is located adjacent to the lock shoulder and the spline portion is located adjacent to the lock groove. And the spline protrusion belongs to a diameter larger than the diameter of the first bore portion, the spline groove has a diameter smaller than the lock shoulder and the traction portion is located at the end of the pin body opposite the pin head. It is captured by a tool that applies a relative axial force between the pin and the sleeve to secure the fastener. The pin head has a diameter substantially the same as the outer diameter of the pin body, and the surface under the pin head faces the sleeve body. In engagement with an end, the pin head radially inflates the sleeve body in response to a relative axial force to form an expanded head having a diameter larger than the opposing alignment holes of the workpiece, the spline portion being axially into the sleeve. When towed, it moves the material of the sleeve body into the spline groove, and the lock shoulder A sleeve in the sleeve shoulder to engage with the sleeve shoulder material to move the sleeve shoulder material coupled into the radially inside of the lock groove, the spline groove and the projection to facilitate movement of the sleeve shoulder material into the lock groove by the lock shoulder Providing a predetermined cross sectional area and volume of material to the lock shoulder. 4. A fastening system according to claim 3, wherein the spline grooves and protrusions are formed spirally. 4. A fastening system according to claim 3, wherein the spline grooves and protrusions are formed spirally at an angle of about 10 to 30 degrees with respect to the axis of the pin body. 4. The fastening system of claim 3 wherein the spline portion radially expands the first bore of the sleeve body when the pin is axially towed into the sleeve. At least one workpiece having a relatively soft core and an opposite end of the alignment hole in the relatively hard workpiece are provided in a fastening system for fixing the workpiece in a state in which one worker is individually accessible but not accessible at the same time. The fastener has a tubular sleeve and an elongated pin, the sleeve having an extended sleeve head and an elongated sleeve body, the sleeve body having a through bore, and the pin having an extended pin head and body The pin body has a generally smooth body portion adjacent the pin head, the lock protrusion is located adjacent to the smooth body portion and has a larger diameter than the body portion, and the lock groove has a diameter smaller than the smooth body portion and Located directly adjacent to the lock projection, the spline portion is adjacent to the lock groove And a plurality of protrusions and grooves, the spline protrusions belonging to a diameter approximately matching the diameter of the second bore portion, the spline grooves having a depth approximately matching the depth of the lock groove, And the projection is spirally formed at an angle of about 10 to 30 degrees with respect to the axis of the pin body, and the traction part is located at the end of the pin body opposite the pin head and has a relative axial force between the pin and the sleeve to fix the fastener. The break neck groove is located midway between the towing portion and the spline portion, the spline portion is adapted to engage the end of the sleeve body opposite the sleeve head and the material of the sleeve body is splined. As the sleeve moves axially into the pin at the same time as it moves into the groove, the sleeve body is radially inflated. The locking protrusion is engaged with the shoulder material to move the shoulder material coupled into the radially inside of the lock groove after the spline part is moved, and the spline groove and the protrusion are connected to the lock groove by the locking protrusion of the shoulder material. The lock projection provides a predetermined cross sectional area and volume of the sleeve material in the shoulder to facilitate movement, and the sealing sleeve is located on the pin body adjacent the pin head, and the sealing sleeve is elastically deformable material to maintain the sealed state. The sleeve can be connected by the end of the sleeve body as it moves into the pin to assist, thereby radially deforming between the smooth body portion and the hole of the workpiece of the relatively hard material, the sealing sleeve being the workpiece hole when assembled to the pin body. Assembly of pin and sealing sleeve because it has an outer diameter greater than the diameter of It is inserted into the workpiece hole as predetermined interference, the predetermined interference being sufficient to retain the pin and the sealing sleeve at the workpiece hole when the tool is applied to the towing portion, the pin having a relative axial force after the lock groove is substantially filled. Fastening system, characterized in that to cut the broken neck groove when obtaining this predetermined size. A fastening system for securing a workpiece having aligned holes, the fastener having a tubular sleeve and an elongated pin, the sleeve having an extended sleeve head and an elongated sleeve body, the sleeve body having a through bore. Wherein the pin has an extended pin head and body, the pin body having a body portion adjacent to the pin head, the locking protrusion located adjacent to the smooth body portion and having a larger diameter than this body portion, The groove has a smaller diameter than the smooth body portion and is located adjacent to the lock protrusion, the spline portion is located adjacent to the lock groove and has a plurality of protrusions and grooves, the spline protrusion approximating the diameter of the second bore portion. Belonging to a diameter of approximately the same, wherein the spline groove is approximately equal to the depth of the lock groove. The spline grooves and protrusions are spirally formed by the axis of the pin body, and the traction part is located at the end of the pin body opposite the pin head and applies a relative axial force between the pin and the sleeve to secure the fastener. And the spline portion is adapted to engage the end of the sleeve body opposite the sleeve head and also when the sleeve body is moved axially with a pin while the material of the sleeve body moves into the spline groove. The lock protrusion is combined with the shoulder material to move the shoulder material coupled into the radially inside of the lock groove after the spline portion moves, and the spline groove and the protrusion are caused by the locking protrusion of the shoulder material. Predetermined release of the sleeve material at the shoulder to facilitate movement to the lock groove Providing a cross-sectional area and volume to the lock protrusion, the sealing sleeve being located on the pin body adjacent the pin head, the sealing sleeve being an elastically deformable material, the end of the sleeve body as the sleeve moves into the pin to assist sealing. Can be connected radially between the smooth body and the hole of the workpiece of a relatively hard material, and the sealing sleeve has an outer diameter greater than the diameter of the workpiece hole when assembled to the pin body, The assembly is inserted into the workpiece hole as predetermined interference, wherein the predetermined interference is sufficient to retain the pin and sealing sleeve in the workpiece hole when the tool is applied to the towing portion. A fastening system for securing a workpiece having aligned holes, the fastener having a tubular sleeve and an elongated pin, the sleeve having an extended sleeve head and an elongated sleeve body, wherein the sleeve body is a through bore. Wherein the pin has an extended pin head and body, the pin body having a lock shoulder spaced apart from the pin head and having a diameter greater than the diameter of the sleeve body bore at the opposite end of the sleeve body from the sleeve head. The lock groove has a smaller diameter than the lock shoulder and is located adjacent to the lock shoulder, and the spline portion is located adjacent to the lock groove and has a plurality of protrusions and grooves. The spline protrusion has a diameter of the opposite end of the sleeve body. Belonging to a larger diameter, the spline groove has a smaller diameter than the lock shoulder, The tow portion is positioned at the end of the pin body opposite the pin head and is to be captured by a tool that applies a relative axial force between the pin and the sleeve to secure the fastener, the spline portion splines the material of the sleeve body. And engage the opposite end of the sleeve body to move into the groove, the lock shoulder engages with the opposite end material of the sleeve body to move the joined material at the opposite end into the radial interior of the lock groove after the spline portion has moved. And the spline groove and the projection provide the lock shoulder with a predetermined cross sectional area and volume of the sleeve material at the opposite end to facilitate movement of the opposite end material of the sleeve body into the lock groove. . 10. A fastening system according to claim 9, wherein the spline grooves and protrusions are formed spirally. 10. A fastening system according to claim 9, wherein the spline grooves and protrusions are formed spirally at an angle of about 10 to 30 degrees with respect to the axis of the pin body. 10. The fastener of claim 9, wherein the fastener has a sealing sleeve positioned on the pin body adjacent the pin head, the sealing sleeve being an elastically deformable material opposite the sleeve body as the sleeve moves into the pin to assist in sealing. Fastening system, characterized in that it can be connected by the end to be radially deformed between the body portion and the hole of the workpiece. 13. The fastening system of claim 12 wherein the pin head has a generally smooth body portion adjacent the pin head with the sealing sleeve radially deformed between the smooth body portion and the workpiece aperture to assist in sealing. 10. The method of claim 9, wherein at least one workpiece has a relatively soft core and the other workpiece belongs to a relatively hard material, the sealing sleeve is located on the pin body adjacent the pin head, and the sealing sleeve is elastic Fastening system characterized by being deformable radially between the smooth body and the opening of the workpiece of a relatively hard material by being able to be connected by the end of the sleeve body as the sleeve moves into the pin to assist the sealing state as a deformable material. . 10. The fastener of claim 9, wherein the fastener has a sealing sleeve positioned on the fin body adjacent to the pin head, the sealing sleeve being an elastically deformable material opposite the sleeve body when the sleeve moves into the fin to assist in sealing. Can be connected by an end so as to be radially deformed between the body portion and the hole of the workpiece, the sealing sleeve having a cross-sectional reduction portion for providing a radial deformation and a cross-sectional enlargement portion which can be joined by opposite ends of the sleeve body. Fastening system, characterized in that. 10. The fastener of claim 9, wherein the fastener has a sealing sleeve positioned on the fin body adjacent the pin head, the sealing sleeve being an elastically deformable material as the sleeve moves into the fin to assist in sealing. Can be connected by opposing ends so that it is radially deformed between the body part and the hole of the workpiece, and the assembly of the pin and the sealing sleeve is intended because the sealing sleeve has an outer diameter greater than the diameter of the workpiece hole when assembled to the pin body. A interference system inserted into the workpiece hole as the interference, the predetermined interference being sufficient to retain the pin and the sealing sleeve in the workpiece hole when the tool is applied to the towing portion. 10. The method of claim 9, wherein at least one workpiece has a relatively soft core and the other workpiece belongs to a relatively hard material, the sealing sleeve is located on the pin body adjacent the pin head, and the sealing sleeve is elastic Material which can be connected by the end of the sleeve body as the sleeve moves into the pin to assist the sealing state as a deformable material so that it is deformed radially between the smooth body and the hole of the workpiece of the relatively hard material, the sealing sleeve being radial An assembly of pins and sealing sleeves is inserted into the workpiece hole with predetermined interference, with a cross-sectional reduction to provide deformation, and having an outer diameter greater than the diameter of the workpiece hole when assembled to the pin body, the predetermined interference being caused by the tool To retain the pin and seal sleeve in the workpiece hole when Fastening system, characterized in that present sufficiently. 18. The fastening system of claim 17, wherein the sealing sleeve has a second cross-sectional enlargement portion that can be engaged by opposing ends of the sleeve body. A fastening system for securing a workpiece having aligned holes, the fastener having a tubular sleeve and an elongated pin, the sleeve having an extended sleeve head and a sleeve body to be extended, wherein the sleeve body is a through bore. Wherein the pin has an extended pin head and body, the pin body having a lock shoulder spaced about the pin head and having a diameter larger than a predetermined portion of the sleeve body bore, the lock groove being greater than the lock shoulder. Has a small diameter and is located adjacent to the lock shoulder, the spline portion is located adjacent to the lock groove and has a plurality of protrusions and grooves, the spline protrusion belongs to a larger diameter than the predetermined portion of the sleeve body, and the spline groove Has a diameter smaller than the diameter of the lock shoulder, and the towing portion has a pin body opposite the pin head. Positioned at the end of the cap and is captured by a tool that applies a relative axial force between the pin and the sleeve to secure the fastener, the spline portion being a predetermined portion of the sleeve body bore to move the material of the predetermined portion into the spline groove. And the lock shoulder engages with the material of the predetermined portion of the sleeve body bore to move the coupled material radially into the lock groove after moving through the splined portion. A fastening system for securing a workpiece having aligned holes, the fastener having a tubular sleeve and an elongated pin, the sleeve having an elongated sleeve body with an extended sleeve head and a through bore, wherein the pin is extended. Having a pin head and a body, the pin body having a lock shoulder with a spaced interval close to the pin head and having a diameter larger than a predetermined portion of the sleeve body bore, the lock groove having a diameter smaller than the lock shoulder and the lock shoulder Located adjacent to the splined portion located adjacent to the lock groove and having a plurality of protrusions and grooves wherein the splined protrusion belongs to a larger diameter than the predetermined portion of the sleeve body and the spline groove is smaller than the diameter of the lock shoulder Having a diameter, the spline portion moves the material of the predetermined portion into the spline groove The lock shoulder is coupled with a predetermined portion of the sleeve body bore, and the lock shoulder is engaged with the material of the predetermined portion to move the combined material into the radially inside of the lock groove after moving through the spline portion. And the projection provides the lock shoulder with a predetermined cross sectional area and volume of the sleeve material in the predetermined portion to facilitate movement of the material of the predetermined portion of the sleeve bodybore into the lock groove by the lock shoulder. ※ Note: It is to be disclosed by the contents of the original application.