A connection fastener includes a plurality of fasteners, a sheet-shaped connection portion and attaching portions. Each fastener includes a head portion provided at one end portion side and a tapered leading end portion provided at the other end portion side. The sheet-shaped connection portion is configured to connect the plurality of fasteners in a parallel direction. The attaching portions are separate from the connection portion attached to the fasteners such that each attaching portion covers at least one part of each leading end portion. The connection portion includes first holding portions and second holding portions. Each of the first holding portions is configured to support a head portion side of each fastener. Each of the second holding portions is configured to support at least one part of a circumferential surface of each attaching portion.

A connection fastener includes a plurality of fasteners, a sheet-shaped connection portion and attaching portions. Each fastener includes a head portion provided at one end portion side and a tapered leading end portion provided at the other end portion side. The sheet-shaped connection portion is configured to connect the plurality of fasteners in a parallel direction. The attaching portions are separate from the connection portion attached to the fasteners such that each attaching portion covers at least one part of each leading end portion. The connection portion includes first holding portions and second holding portions. Each of the first holding portions is configured to support a head portion side of each fastener. Each of the second holding portions is configured to support at least one part of a circumferential surface of each attaching portion.

A self-sealing fastener for sheathing having an integrated water and air resistant barrier employs an activatable sealant which is disposed in a non-activated state on the fastener. Upon driving the fastener into the sheathing, the sealant activates and forms a seal at the fastener/sheathing interface and also functions as a shock absorber to prevent overdriving of the fastener. The sealant may take numerous forms including a deformable gasket, a collar and a washer. In some embodiments, up activation, the sealant exhibits a tint which contrasts with the tint of the sheathing. Collated self-sealing fastener strips or cartridges of various forms provide a matrix of severable fasteners each having a sealant which are sequentially drivable by an automatic driver.

A self-sealing fastener for sheathing having an integrated water and air resistant barrier employs an activatable sealant which is disposed in a non-activated state on the fastener. Upon driving the fastener into the sheathing, the sealant activates and forms a seal at the fastener/sheathing interface and also functions as a shock absorber to prevent overdriving of the fastener. The sealant may take numerous forms including a deformable gasket, a collar and a washer. In some embodiments, up activation, the sealant exhibits a tint which contrasts with the tint of the sheathing. Collated self-sealing fastener strips or cartridges of various forms provide a matrix of severable fasteners each having a sealant which are sequentially drivable by an automatic driver.

A device for driving fastening elements into a substrate comprises a setting channel; an energy transmission element, which can be moved in a fastening direction in the setting channel, for transmitting energy to one of the fastening elements at a time; and a magazine for transporting the fastening elements to the setting channel in a transport direction. The magazine is suitable for transporting multiple rows of fastening elements at once. Additionally, a fastening element strip comprises a plurality of rows of receptacles for fastening elements aligned in a transport direction and fastening elements which are housed in the receptacles and define a fastening direction, wherein the rows of receptacles are arranged one behind the other in a transverse direction oriented perpendicular to the transport direction and perpendicular to the fastening direction.

A device for driving fastening elements into a substrate comprises a setting channel; an energy transmission element, which can be moved in a fastening direction in the setting channel, for transmitting energy to one of the fastening elements at a time; and a magazine for transporting the fastening elements to the setting channel in a transport direction. The magazine is suitable for transporting multiple rows of fastening elements at once. Additionally, a fastening element strip comprises a plurality of rows of receptacles for fastening elements aligned in a transport direction and fastening elements which are housed in the receptacles and define a fastening direction, wherein the rows of receptacles are arranged one behind the other in a transverse direction oriented perpendicular to the transport direction and perpendicular to the fastening direction.

In a method for securing a component, a nail having a nail shank and a nail head is provided, a sleeve is arranged on the nail shank, a driving-in element and a guide channel are provided, the nail head and the sleeve are arranged in the guide channel such that a peripheral gap is formed between the nail head and the guide channel, the driving-in element is driven through the guide channel toward the nail head in order to move the nail in a driving-in direction toward the substrate, the sleeve is compressed between the nail shank, the guide channel and the nail head while the nail moves toward the substrate, and a portion of the sleeve is pressed into the peripheral gap between the nail head and the guide channel.

A barbed staple for installing fencing wire onto a fence post. The staple has a crown section and a leg section. The crown section has an arcuate crown portion and a radiused portion, and the leg section has a pair of leg portions that extend in parallel from the radiused portion of the crown section. At least one barb protrudes from each of the leg portions, the barb having projecting points. The distance between the distal edge of the projecting points defines an outer leg width. The crown portion of the crown section has a greater width than the pair of leg portions in parallel. The outer crown width is greater than the outer leg width.

A barbed staple for installing fencing wire onto a fence post. The staple has a crown section and a leg section. The crown section has an arcuate crown portion and a radiused portion, and the leg section has a pair of leg portions that extend in parallel from the radiused portion of the crown section. At least one barb protrudes from each of the leg portions, the barb having projecting points. The distance between the distal edge of the projecting points defines an outer leg width. The crown portion of the crown section has a greater width than the pair of leg portions in parallel. The outer crown width is greater than the outer leg width.

A strip of fastening elements having receiving elements and fastening elements received in the receiving elements is provided, the fastening elements each defining a fastening direction that is the same for all fastening elements, wherein the receiving elements are arranged in at least one row, which defines a transport direction, the at least one strip including a frontmost receiving element and a rearmost receiving element, wherein the fastening direction and the transport direction enclose an acute angle, wherein the strip of fastening elements has a support element for supporting the frontmost receiving element counter to the fastening direction and/or a counter-support element for supporting the rearmost receiving element in the fastening direction.