• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    A strip-shaped feed magazine (10) for holding roof mounting clips (14) to be fed to a fastening tool comprises a plurality of clip holders (18), distributed along said feed magazine (10), for holding roof mounting clips (14) to be fastened onto a roof support structure by said fastening tool.
    公开号:SE1151012A1
    申请号:SE1151012
    申请日:2011-10-31
    公开日:2013-05-01
    发明作者:Bjarne Svanberg;Goeran Aasberg
    申请人:Bjarnes System Ab;
    IPC主号:
    专利说明:

    20 25 SO something to not fall down. Furthermore, automatic feeding of teak mounting brackets to the fastening tool facilitates the mounting of roof panels and makes the work more efficient.
    According to an embodiment, the roof bracket mounting tool further comprises a magazine guide for guiding said magazine to the fastening tool.
    According to one embodiment, the magazine feed mechanism of the roof bracket mounting tool comprises a carriage, which is movable along said magazine guide between a retracted position and a projected position and is biased to said projected position, said carriage being provided with a follower roof mounting bracket magazine in a reciprocating direction when the carriage is moved from the retracted position to the advanced position, and non-intervening passing the roof mounting bracket magazine when the carriage is moved from the advanced position to the retracted position; and a fastening tool holder, said fastening tool holder being arranged to move back and forth relative to the magazine guide along a fastening tool guide between a raised position and a lowered position, said fastening tool rack being coupled to the carriage for moving the carriage from the front slide. the position to the retracted position when the fastening tool holder is moved from the raised position to the lowered position. Such a feed mechanism provides an easy, reliable and structurally simple feeding of the magazine. Few moving parts cause a low degree of friction in the mounting tool.
    According to one embodiment, the magazine control is designed to control the magazine from a magazine control input to a magazine control output.
    As a result, the loading can take place sequentially, ie the magazines can be fed sequentially into the control at the control input, in such a way that the feeding device can be fed continuously with the magazine. Furthermore, such a design makes the roof bracket mounting tool easy to load, since a strip-shaped magazine with roof mounting brackets can be easily slidably inserted into the magazine guide input and gripped automatically by the carrier and fed by the carriage, as the case may be. to allow the magazine to be freely pushed straight through the feed device in the direction from the magazine guide inlet to the magazine guide outlet. The absence of a projection stop makes the feed mechanism simpler, lighter and more reliable.
    According to one embodiment, the fastening tool holder is connected to the magazine guide in a manner that allows the city to remain in the retracted position when the fastening tool holder is moved from the lowered position to the raised position. By allowing the carriage to return to the advanced position by means of the carriage biasing only, in an otherwise unrestricted, non-forced manner, there is no need for any arrangement for synchronizing the feed of the roof mounting bracket magazine with the lifting of the fastening tool holder; the carriage can be advanced as soon as the magazine is free to move along the magazine guide. This enables a simple and reliable advance mechanism which does not tend to get stuck due to, for example, the synchronization problem. According to one embodiment, the fastening tool holder is connected to and arranged to move the carriage by means of a wedge arrangement.
    According to one embodiment, the roof clearance mounting tool is designed that, when the fastening tool holder is moved from its raised position to its lowered position and thereby moves the carriage from the advanced position to the retracted position, a portion of the test tool or of the fastening tool holder is inserted into the holder. prevents the magazine from sliding in a reverse direction, said inverted direction being opposite to said forward direction. In this way, no separate backstop arrangement is required for the magazine; said portion of the fastening tool or fastening tool holder will act as a backstop and prevent the magazine from following the carriage to the retracted position.
    According to one embodiment, the fastening tool holder is prestressed to the raised position. This makes the tool faster to use and easier to maneuver with just one hand, as it will automatically return to its initial position.
    According to one embodiment, the carriage is provided with a wheel for rolling along a carriage guide arranged in a magazine holder. Preferably, said wheels are arranged to roll on opposite surfaces of the carriage guide. This will prevent the sled from getting stuck.
    According to one embodiment, the fastening tool holder is arranged for connection to the housing of an electrically driven screwdriver. Thereby, commercially available 10 15 2G 25 30 electric screwdrivers can be used, which facilitates spare part handling and reduces the total system cost.
    According to another aspect, some or all of the above problems are solved, or reduced, by means of a tubular feed magazine comprising a plurality of roof mounting brackets arranged to be fed to a fastening tool for attaching said roof mounting brackets to a roof support structure, the roof mounting brackets being releasably attach to and distributed along said feed magazine. For example, the ceiling mounting brackets can be attached by ironing or by hot pressing on the magazine. Such a feed magazine allows the ceiling mounting brackets to be fed efficiently and safely to the fastening tool, for efficient and safe mounting of the ceiling mounting brackets on the bar structure.
    According to one embodiment, the feed magazine further comprises a plurality of fastening elements, intended to be driven into said roof support structure by means of said fastening tool for fastening said roof mounting brackets to said roof support structure, said fastening elements being releasably attached to and distributed along said feed magazine. With the aid of such a feed magazine, a fastening element and a ceiling mounting bracket to be fastened by means of said fastening element can be fed to a fastening tool at the same time. This reduces the need to feed or pour the fasteners separately when attaching the ceiling mounting brackets to the support structure.
    According to yet another aspect, some or all of the above problems are solved or at least reduced by means of a strip-shaped feeding magazine intended to hold ceiling mounting brackets to be fed to a fastening tool, the feeding magazine comprising a plurality of staple holders, distributed along said feed magazine. for holding roof mounting brackets to be attached to a roof bar structure by means of said fastening tool. Such a feed magazine allows the roof mounting brackets to be fed efficiently and safely to the fastening tool, for efficient and safe mounting of the ceiling mounting clearers on the support structure.
    According to one embodiment, the feed magazine further comprises a plurality of fastener holders, distributed along said feed magazine, intended to pour fasteners arranged to be driven into said roof support structure by means of said fastening tool in order to fasten said roof mounting chambers to said roof support structure. With the aid of such a fastening magazine, a fastening element and a roof mounting bracket which are to be fastened with the help of said fastening element can be fed to a fastening tool at the same time. This reduces the need to feed separately after holding the fasteners when attaching the ceiling mounting brackets to the support structure.
    According to one embodiment, said fastening holders are designed to keep a fastening element at a selectable distance from said roof support structure. In this way, a single magazine design can be used together with a single fastening length for fastening roof mounting shrouds of different lengths. According to one embodiment, the fastener holders are designed to keep the respective fasteners at said flexible distance from the roof support structure by means of axially spaced fists.
    According to one embodiment, each of said fastener holders is designed to guide a fastener element on two axially spaced posts. In this way, fasteners can be attached to said support structure with higher precision. According to one embodiment, each of said fastener holders has a cylindrical inner surface for guiding a fastener head, and a tapered fastener outlet for guiding a fastener body.
    According to one embodiment, each of said chamber holders is formed as a portion of a snap lock for engagement with a ceiling mounting chamber having a complementary portion of said snap lock, said snap lock being designed to be released when the respective ceiling mounting chambers are pulled in one direction against said roof bar structure. Thereby, the roof mounting brackets can be released from their respective holders with the respective fastening elements, the proximal fastening elements being driven into the roof support structure.
    According to one embodiment, a first end of the feed magazine is provided with a first end connection device, and a second end of the feed magazine is provided with a second end connection device arranged to be grain complementary with a first end connection device of another, similar strip-shaped feed magazine. Thereby, feed magazines can be easily connected in series to provide an end-to-end feed of ceiling mounting chambers, in such a way that no complicated operation for loading or aligning the feed magazine in a ceiling bracket mounting tool is required for each feed magazine. Preferably, said connection devices together form a snap lock for snap-on when said feed magazine and said second feed magazine are compressed in the longitudinal direction. Thereby, a second feed magazine can be connected in series with a first feed magazine, which is already present in the ceiling clamp mounting tool, by simply compressing the ends of the feed magazine along a magazine guide direction.
    According to one embodiment, a plurality of said fastener holders are provided with respective fasteners and a plurality of said bracket holders are provided with respective roof mounting brackets, each of said ceiling mounting brackets having a mounting hole in front of at least one of said fastening elements.
    According to yet another aspect, some or all of the above problems are solved or at least reduced by means of a roof joint bracket for tapping a joint of a sheet metal roof on a roof support structure, the roof joint bracket comprising a base plate for attachment to said roof support structure; a train holder having a first end connected to said base plate and a second end configured to hold said joint; and an attachment arrangement for attaching the speech joint lamb to a feed magazine. As an example, the fastening arrangement can be designed as a portion of a snap lock for engagement with a staple holder which has a portion complementary to said snap lock. Such a roof joint bracket can be used in a roof bracket mounting tool or a feed magazine as described above.
    According to one embodiment, said portion of said snap lock is formed as a cam and recess arrangement on said other end.
    According to an embodiment storm, said portion of said snap read is formed as an upwardly directed hole arranged on the other end of the joint holder.
    According to yet another aspect, some or all of the above problems are solved or at least reduced by means of a method of mounting a roof panel on a roof support structure, the method comprising feeding a magazine pouring a plurality of roof mounting brackets into a fastener. 25 30 tools; and attaching said roof mounting brackets to the roof support structure by means of said fastening tool.
    According to one embodiment, the method further comprises feeding the fastener to said fastening tool.
    Brief Description of the Drawings The above, as well as further objects, functions believed and advantages of the present invention, will be better understood upon reading the following illustrative and non-limiting detailed description of the preferred embodiments of the present invention, with reference to to the accompanying drawings, in which like reference numerals will be used for corresponding elements, wherein: Fig. 1 is a schematic perspective view of a strip-shaped mounting mechanism partially loaded with screws and ceiling mounting chambers; Fig. 2a is a sectional and perspective view of the strip-shaped feed magazine of Fig. 1 provided with a screw in a first selectively predefined vertical position; Fig. 2b is a schematic sectional and perspective view of the strip-shaped feed magazine of Fig. 1 provided with a screw in a second selectively predefined vertical position; Fig. 3a is a sohematic perspective view of two strip-shaped feed magazines, similar to those in Fig. 1, before connection in series; Fig. Sb is a schematic perspective view of the two strip-shaped feed magazines of Fig. 3a after they have been connected in series; Fig. 4 is a schematic perspective view of a machine for screwing ceiling mounting chambers onto a support structure, the machine comprising a feeding device for feeding the magazines of Figs. 1-3; Fig. 5 is a schematic perspective view, partly in section, of the feeding device of the machine of Fig. 4; Fig. 5a is a schematic view, partly in section, illustrating the measuring device of Fig. 5 during loading with a magazine; Fig. Gb is a schematic view, partly in section, illustrating the feeding device in Fig. 1 in a starting position with a screwdriver holder in a tilted position and a seat in a remote position; Fig. dc is a sohernatic view, partly in section, illustrating the feeding device in Fig. db while a ceiling mounting frame is mounted on a support structure; Fig. 1 is a multi-sectional view, partly in section, illustrating the feeding device in Fig. dc after key screwing of the roof mounting bracket onto the support structure, the feeding device having the screwdriver holder in a lowered position and the carriage in a retracted position; Fig. Se is a schematic view, partly in section, illustrating the feeding device in Fig. time while listening to the screwdriver holder from the lowered position, the carriage still remaining in the retracted position; Fig. dt is a sohematic view, partly in section, illustrating the feeding device in Fig. 1 when it has been returned to the starting layer in Fig. 6D and has rapidly advanced the magazine to the next indexing position; Fig. 7 is a schematic sectional and perspective view of a third embodiment of a tubular feed magazine, partially loaded with nails and ceiling mounting brackets; Fig. 8a is a sonar perspective view, partly in section, of a machine for nailing ceiling mounting brackets to a support structure, the machine being provided with a feeding device for feeding the magazines in Fig. 7, the feeding device being shown with a nail gun holder portion in a raised position; Fig. 8b is a sohematic perspective view, partly in section, of the machine shown in Fig. 8a, the feeding device being shown with the nail gun holder portion in a lowered position; Fig. Qa is a sohematic sectional and perspective view of a fourth embodiment of a belt storm feed magazine partially loaded with nails and ceiling mounting brackets; Fig. Qb is a sonematic perspective view of a nail drive device for use with the magazine of Fig. 9a; 10 15 2G 25 30 Fig. 10 is a sohematic sectional and perspective view of a sixth embodiment of a belt storm feed magazine, partially loaded with nails and ceiling mounting chambers; Fig. 11 is a sectional and perspective view of a seventh embodiment of a strip-shaped feed magazine, partially loaded with nails and ceiling mounting chambers; and Fig. 12 is a schematic view of yet another embodiment of a feed magazine feeder in Figs. 1-3. illustrated by the exemplary utteriittrstdrmerzta in Fig. 1 illustrate a remote feed magazine 10 intended to hold a series of screws 12 and ceiling mounting brackets 14 to be fed to a screwdriver. The magazine 10, which may be formed as a single, one-piece plastic component, is provided with a series of fastener holders, formed as screw holders 16 intended to hold the screws 12. The screw holes 16 are arranged in a straight line along the length of the magazine 10. Each screw holder 16 is associated with a pair of forming chamber holders 18 intended to hold the ceiling mounting brackets 14 in a dry position relative to the respective screw 12.
    Each screw holder 16 is also associated with a pair of auxiliary feed ridge openings 20 for engaging a feed device for feeding the magazine 1Û in an indexed or stepwise manner.
    The exemplary roof mounting brackets 14 in Fig. 1 are roof joint chambers designed to secure a joint of a sheet metal roof to the surface of a support structure.
    The roof mounting chambers 14 comprise a base plate 22, for tapping on the surface of the support structure, and a retainer 24 having an upright portion 25 and a hook 26 intended to grip and hold the roof joint. The upright portion 25 extends from the base plate 22 along a pawl which is substantially perpendicular to, i.e. forming a angle keel at a distance of about 70 "" and 110 ° with, the base plate 2.2. A mounting screw heel 28 is arranged in the base plate 22 of each roof mounting chamber 14. In Fig. Za-b, each screw holder 1 is arranged to hold the respective screw 12 in such a way that it points towards the screw housing 28 in the base plate 22 of the respective ceiling mounting brackets 14. By moving the screw 12 along its axis A ”lÜ 15 20 25 3G 1D it will thus penetrate into the screw hole 28. The screw hole 16 comprises a circular-cylindrical portion 29 having a non-circular-cylindrical inner guide surface 30, which tapers to a screw outlet 32. In order to more precisely guide the screw 12 along the screw hole , and into the hole 28, the screw 12 is guided by the screw hole 16 at two axially spaced apart screw guides along its length.The cylindrical guide surface 30 has an inner diameter corresponding to the outer diameter ho s head 12 of the screw 12, thereby forming a first screw guide of said two screw guides, for guiding the screw 12 with its head 34. The screw outlet 32 forms a second screw guide of said two screw guides, for guiding the screw 12 with its body 36. Screw outlet a 32 engages the threaded body 36 of the screw 12, in such a way that, upon rotation of the screw 12 about its axis A, it will be moved along the axis A. A pair of forming longitudinal slots 37 (Fig. Ba) allow the screw outlet 32 to pressed to a sufficiently open position to allow the screw head 34 to pass the screw outlet 32. in Figs. 2a-b again, the cylindrical guide surface 30 of the screw holder 16 is provided with a first, upper set of inwardly projecting beads 38, a second, intermediate set of inwardly projecting beads 40, and a third, lower set of inwardly projecting beads 41. The upper two sets of beads 38, 40 together form upper and lower boundaries of an upper screw holder position shown in Fig. 2a, in which the head 34 of the screw 12 is trapped between the two upper sets of beads 38, 4-0. The lower set of beads 41 forms an upper limit for a lower screw holding position, as shown in Fig. 2b, in which the head 34 of the screw 12 is caught between the lower set of beads 41 and the tapered screw outlet 32. The crotch / exit 32 thus acts as a lower limit for the lower screw hole position. It is clear that more beads can be added to the inner, cylindrical guide surface 30 in additional axial positions in order to define further predetermined, selectable axial positions for the screws 12. When the magazine 10 is loaded with screws 12, the screws 12 can be inserted into the screw holes 16 from above, and snap into the desired axial position by pushing the screw head 34 past the respective sets of beads.
    As illustrated in Figs. Za-b, the possibility of inserting a screw 12 in a selectable axial position inside the screw holder 16 makes it easier to use the same screw length in the same type of magazine 10 for different lengths on the upright portion 25 of the joint holder 24. , whereby the number of different screws and / or magazines that need to be produced and stored is reduced. Alternatively, different screw lengths may be used in the same type of magazine for a single length of the upright portion 25 of the joint holder 24, in such a way that the screw / length can be adapted to the properties of the structure into which it is to be screwed without the magazine Need to be given a new design. Fig. 3a illustrates a first feed magazine 10a and a second feed magazine 10b of the same type as the feed magazine 1G shown in Figs. 1-2. A first end 42 of the first feed magazine 110a is provided with a female connector 44. The ion connector 44 is formed as a fork extending from the first end 42. Two hooks 46 extend inwardly from the ends 48 of the brackets.
    It does not appear in Fig. 3a, but the second feeding magazine 10b has an identical identical first end provided with an identical identical female connector. A second end 50 of the second feed magazine 10b has a proximal end screw driver barrel provided with two hooks 52, one of which is visible in the view of Fig. 3a. The female connector 44 of the first magazine 10a is shaped to engage the proximal end of the second magazine '10b' in such a manner that the hooks 52 of the proximal end of the screw holder 16b engage the hooks 46 of the female connector 44. The second magazine 10b of the second magazine 10 end-mounted screw carriers thereby provide a male connector for engaging the first female connector 44 of the first magazine. The hooks 46, 52 of the connectors are oriented to provide a snap-on connection for connection by snaping the first and second magazines. compression of them in their longing direction. in Fig. Sb, the two magazines tOa-b are degraded after they have been snapped together. in the enlarged view ifb Bb also more clearly illustrate a clamp holder 18. Each clamp holder 18 is, as shown in cross section, shaped like a downwardly open fork. One of the arms of the fork is provided with a projection 53 extending inwards, in order to, together with the other arm of the fork, delimit a key opening F. The hook 26 of the roof mounting bracket 14 comprises, as shown in cross section, an upper cam portion 54 having a width B greater than the key opening F; a meilan portion formed as a recess 56 for engaging the projections 53 of the chamber housing 18; and a lower portion 58 extending obliquely away from the upright portion 25 of the roof mounting chamber 14 to facilitate alignment of the roof mounting bracket 14 on the roof joint. When the magazine 10 is loaded with ceiling mounting brackets 14, the ceiling mounting chambers 14 can be snapped into associated engagement with respective core holders 18 by pushing the upper portion 5-4 of the hook 26 through the hinge opening F of the bracket holder 18, the projection 53 thereby combing on the upper surface of the core The part 54 of the ceiling mounting chamber hook 26, until the projection 53 of the chamber holder 18 snaps into the recess 56 of the hook 26. Correspondingly, the ceiling mounting bracket 14 can be snapped out of the chamber holder 18 by being pulled in the reverse direction, out of the chamber opening F. in Fig. 4. schematically illustrates a hand-held machine 62 for attaching ceiling mounting chambers to a bar structure. The machine 62 includes a portable self-propelled screwdriver 64 of the type well known to those skilled in the art and commercially available in a wide variety of variants, such as a "Festooi T fo".
    The machine 62 also includes a portable feed device 66 for feeding a strip-shaped magazine, such as the feed magazine 16 with roof mounting chambers described above with reference to Figures 1-3, to the self-propelled screwdriver 64. The feed device 66 is a portable roof mounting tool arranged to mount roof mounting chambers on the roof support structure; As will be further explained below, the roof chamber mounting tool 66 can be used to feed roof chambers to several different types of fasteners; said electric screwdriver 64 is only one example. Although it is described below how the feeding device 66 can be used for feeding a strip-shaped magazine 10 which holds both screws 12. and ceiling mounting chambers 14, it will be appreciated that the feeding device 66 is also suitable for feeding a magazine which has only ceiling mounting chambers, and fastening chambers. elements may be provided for the mounting chamber 62 mounting tool in any other suitable manner, the lifting device 66 includes a magazine holder 70, and a screwdriver holder 68 for connecting the wire assembly 66 to a non-rotating screwdriver of the electric drive member. 64, such as the height 69 of the electric screwdriver. In Fig. 5, the feeding device 66 is partly illustrated in section. The magazine holder 76 has a magazine guide 71 for guiding a strip-shaped magazine 10 (Figs. 3 ~ 3) from a magazine guide input 74 to a magazine guide output 76. The magazine guide 71 is formed by two opposite, parallel grooves 72, one of which is visible in the view in Fig. 6, each groove 12 being formed to slidably hold a longitudinal edge 78 (Fig. t) of the magazine 10. A pair of forming opposite, longitudinal walls 80, of which again only one is visible in Fig. 5, have abutment surfaces 82 for placement on the surface of a support structure on which a ceiling mounting chamber is to be attached. The two longitudinal walls 80 together delimit a feeding space 84 through which the magazine ti), provided with screws 12 and ceiling mounting chambers 14 (lig t), can be fed without interference with the surface of the support structure. At a front end of the magazine guide 71, each of the two walls 80 is provided with a downwardly open, V-shaped groove 109, said two grooves together forming a roof joint guide.
    A magazine feed mechanism 85 includes a carriage 86 which is movable along a seed guide extending along the magazine guide '71.
    The seed guide is formed as a seed housing 88, which is arranged in the magazine holder 70 above the magazine guide 71. The carriage 86 is provided with a pair of forming magazine carriers 90 arranged to advance the magazine "EG by engaging with feed lock openings 20 of the magazine" 10 (fig. T). .
    The carriage 86 is slidable between a retracted position and an advanced position, as described in more detail with reference to Figs. 6a-6t, and biased to the advanced position by means of a pair of forming helical compression springs 92. Four wheels 93, of which two are visible in Fig. 5, reduces the friction between the carriage 86 and the seed housing 88.
    The screwdriver holder 68 is controlled relative to the magazine holder 70 by means of a screwdriver guide 94, which is fixedly connected to the magazine holder 70.
    The screwdriver holder 68 is slidably connected to an outer surface of the screwdriver guide 94, in such a way that the screwdriver holder can move vertically back and forth relative to the magazine holder 70 along an axis A between a raised position and a lowered position. . The screwdriver guide 94 also has a circular-cylindrical inner space 95 which forms a guide for a screwdriver bit 96. The circular inner-chamber 95 space opens into the magazine guide 71. Said screwdriver bit 96 is connected to, and arranged to be rotated by, the e driven screwdriver 64, and has a lower end 98 formed as a cross-locking screwdriver interface facing the magazine guide 71. It is clear that the lower end 98 of said screwdriver bit 96 may have any other leathery screwdriver interface, such as a torx interface.
    An upper portion 190 of the seed 86 extends upwardly through an opening 102 (Fig. 6a) in the seed nose 88, and is connected to the screwdriver holder 68 by means of a wedge arrangement 104. The wire arrangement 104 comprises a pair of biting surfaces 106, one of which is visible in the view in Fig. 5, for engagement with a pair of assistive carriage retraction carriers 108, of which again only one is visible in the view in Fig. 5. The wedge surfaces 106 are arranged to move with the screwdriver holder 66 when the screwdriver holder 68 moves vertically forward and back, thereby pushing the carriage retraction carriers 108 in such a way that the seat 86 is moved along the carriage housing 88. In Fig. 6a, the feeding device 66 is rested at rest, and with the screwdriver needle 68 in its raised position. The carriage 86, shown in section, is in its advanced position. Each of the magazine carriers 90 is pivotally connected to the seat 86, and biased downwardly by a compression tester 113 so that it slides out into the magazine guide 71 when in the lowest position shown in Fig. 6a. A magazine 10, provided with screws 12 and ceiling mounting brackets 14, is loaded into the feed device 66 by being slidably inserted into the feed device 66 in a forward direction, illustrated by an arrow, along the magazine guide 71. In this case, the magazine drivers 9G will pivot against the action of the spring 113, so that the magazine 10 is allowed to pass the magazine carriers 90 extending into the magazine guide 71. The magazine 10 is slidably moved to the position shown in Fig. Bb, in which the lower end 98 of said screwdriver bit 96 faces the first screw of the magazine. 12, and the magazine carriers 90 engage with respective feed lock openings 20 (Fig. 1) of the magazine 10. 2G 25 30 15 in Fig. 60 illustrate how the mounting device 66 is positioned for mounting a ceiling mounting frame 14 on a support structure 115, of an upright joint edge 111 of a pit roof panel on the supporting structure 115. The upright joint edge 111 shall !! later connected to a complementary joint edge on an adjacent sheet metal roof panel in a manner not shown, so that a roof train is formed. When the joint is connected, the joint will be held on the base structure 115 by the roof mounting bracket 14 attached thereto.
    The feed array 66 is positioned on the surface of the support structure 115 so that the abutment surfaces 82 (Fig. 5) rest on the surface of the support structure 115, and the roof joint guide 169 thereby engages the roof joint edge 111 to place the hook 26 (Fig. 1) of the roof mounting bracket 14 just above the joint edge 111. Thereby, the bar train guide 109 will also automatically adjust the position of the magazine 1G along the magazine guide 71, in such a way that said screwdriver bit 96 (Fig. 66) is axially aligned with the screw housing 16. Then the electric screwdriver 64 is pressed downwards, against the surface of the support structure 115. 68 slides down along the screwdriver guide 94 against the dry tension of a screwdriver heel torque spring 99. Thereby the lower end 98 of said screwdriver bit 96 (fig. 6) enters the first screw hole 16 of the magazine 16, and engages with the first screw 12. At the same time the wedge arrangement presses 164 the seed 66 backwards, along the seed housing 88 (Fig. 5), against bias an engagement of the carriage biasing spring 92, the engagement between said screwdriver bit 96 and the screw holder 16 acts as a backstop, preventing the magazine 10 from sliding along the guide 71 (Fig. 5) in a rearward direction opposite to the forward direction. instead, the magazine carriers 90 pivot against the dry tension of the magazine carrier bias cap 113, such that the magazine carriers 90 non-engagingly pass the screw magazine 10 as the side 86 moves backward.
    The electric screwdriver 64 is used to rotate said screwdriver bit 96 and the screw 12, while the downward movement of the electric screwdriver 64 continues, in such a way that the body 36 (fig. 2a) of the screw 12 passes through the screw hole 28 of the roof mounting bracket 14 (fig. 1) and engages the support structure 115. When the screw 12 is screwed into the support structure 115, the head 34 (Fig. Za) of the screw 12, and the lower end 98 (Fig. 66) of the screw driver bit 96, are pushed through the screw outlet. 32 (Fig. Za) by pushing the longitudinal slot 37 (flg Ba) to the open position. The head 34 of the screw 12 also pulls the roof mounting bracket 14 down vertically via the hole 28, in such a way that the roof mounting chamber 14 snaps loose from the magazine holder 18 (Fig. 1) of the magazine 10 and engages the joint edge 111. Fig. 6d illustrates the situation when the screw 12 has been screwed whole the way into the support structure 115, and fastened the roof mounting bracket 14 to the surface of the support structure 115 in such a way that the roof joint edge 111 is raised on the support structure 115 by means of the hook mounting bracket 14 of the roof mounting bracket 26. For a while the city 86 has reached the retracted position. The magazine carriers 90 are now aligned with the next pair of forming feed lock openings 20 (Fig. 1) of the magazine 10. oriented in this way, the carriers 90 pivot into the feed load openings 20 by means of the magazine driver biasing bias springs 113, as indicated by a curved arrow. The screwdriver holder 08 is in its lowered position in Fig. Sd. It can be seen from the figure that the design is forgiving in terms of fluctuating times in the vertical movement of the screwdriver housing 68 which are caused by, for example, a curved surface of the support structure 115 or depression of the screw 12, since the point where the gas reducers 90 engage the feed holder openings . The magazine carriers 90 may just as well pass the feed openings 20 non-engaging on the path to the city 86 furthest to the right, retracted position, and engage the feed lock openings 20 on the way back to the forward position of the city 86 when the screwdriver holder 68 is raised.
    In order for the magazine 10 to be advanced along the guide, the electric screwdriver 64 is lifted, said lifting being assisted by the preload of the screwdriver holder biasing spring 99. In Fig. 1 illustrate the lifting of the driven screwdriver 64 and the screwdriver holder 68. the engagement between said screwdriver 96 and the screw holder 16 still acts as a stop and prevents the magazine 10 from being moved forward by the seed 86. This is made possible by the slide carriers 108 being free to leave the wedge surfaces 106.
    To further clarify the function of the chuck arrangement 104, it should be noted that the carriage 86 is forced from the advanced position (tig da-Gb) to the retracted position (tig dd-ße) by the chuck arrangement 104 when the screwdriver holder 68 moves. taken from the raised position (Figs. (Sa-b)) to the lowered position (Fig. 6d), but released from the arrangement 164 when the screwdriver holder 68 is moved from the lowered position to the raised position. In Fig. Sf, the situation is illustrated when the screwdriver holder 68 has returned Said screwdriver bit 96 has now triggered the screw holder 16 of the magazine 10, whereby the magazine 10 is allowed to be pushed forward to the next indexing position, this is achieved by the seed 86, which engages the magazine 10 via the magazine carriers 90, moving the toe. (Fig. 6e) to the tramline bearing (Fig. 6f) The feeding device 66 will now have returned to the initial position shown in Fig. 6b, with the proviso that the magazine 10 will have been indexed one step forward, so that ma the second screw 12 of the gas 10 is placed in front of said screwdriver bit 96. In the event that the second screw 12 and said screwdriver bit 96 are not perfectly aligned at this stage, any no lack of alignment to be automatically corrected when the joint edge guide 109 is lowered again (Fig. 6c) over a roof joint edge 111 for the next fastening operation. Due to this tendency towards small deviations in the indexing step length, no arrangement is needed for stopping the advance of the magazine, for stopping the magazine 10 in a precise, predetermined position for each indexing step. This simplifies the construction of the irrigator 66; In fact, the magazine 16 can be freely pushed straight through the feed device 66 in the direction from the magazine control input 74 to the magazine control output 76.
    As the feeding device 66 approaches the spirit of the magazine 1G, i.e. when most of the screws 12 and ceiling mounting brackets 14 in the magazine 10 have been screwed onto the support structure 115, a second magazine can be slidably inserted into the magazine guide 71 and snapped onto the magazine 10 already present in the feeding device. 66, in the manner described in detail with reference to Fig. 3a, so that continuous, endless feeding of screws 12 and ceiling mounting chambers 14 to the feeding device 66 is made possible.
    As shown in Figs. 6a-6f, the carriage nose 88 is sufficiently large to allow the carriage 86 to tip slightly, thereby allowing the carriage cover 93 to slide on either of the ceilings or provided in the carriage housing 88, depending on the tilt of the city 86. Whenever the arrangement 194 forces the seed 86 against the seed bias (Figs. 6s), the wheels 93 near said screwdriver bit 96 will roll on the inner roof, while the wheels 93 near the bias spring spring 92 will roll on the floor. Whenever the carriage carriers 108 are free from the wedge surfaces 10% (tig de), the wheels 93 near said screwdriver bit 96 will roll on the floor of the carriage housing 88, while the wheels 93 near the cable tension spring 92 will roll on the ceiling. Thereby, the city 86 will be completely free from the tendency to get stuck in the carriage housing 88.
    According to a second embodiment (not shown) of the feed magazine for ceiling mounting brackets, the feed magazine may lack screw holders, ie it can be designed to hold only ceiling mounting brackets. Such a design may, if required, be provided with a separate backstop arrangement. in fact, no backstop arrangement is required for any of the irrigation devices described in this specification; instead, the magazine and grinding device may be designed to provide sufficient friction between the longitudinal magazine edge 78 (Fig. 1) and the magazine guide 71 (Fig. 5) to prevent the magazine 10 from following the carriage to the retracted position.
    Screws 12 can be pre-mounted on, and held by, the roof mounting brackets 12 in the stable directly by the magazine 10. As an example, the screws 12 can be pre-mounted on the mounting holes 28 of the roof mounting brackets 14 in such a way that the screw body 36 (Fig. 2a) engages the mounting hole 28. periphery.
    This embodiment may, depending on the application requirements and the properties of the support structure 115, have the disadvantage, compared to the screws 12 being held in the screw holder 10 of the magazine 10, that the screw-holding function of the mounting holes 28 entails limitations on the mounting hole 28. obtain a perfect recess of the screw heads 34 in the surface of the support structure 115. Alternatively, screws may be fed completely separately to the electrically driven screwdriver 64 by means of any suitable screw-cutting mechanism known in the art. Fig. 7 illustrates a third embodiment of a feed magazine.
    The feed magazine 110 is similar in most respects to the feed magazine 10 in Figs. 1-6, but differs from the feed magazine 10 in that the mounting socket holders are designed as nail holders 116, for the purpose of holding nails 112, instead of screws 12 (Fig. 1). 2G 25 SO 19 in Figs. Sa-b illustrates a hand-held machine 162 for attaching ceiling mounting brackets to a support structure. Again, the machine 162 includes a feed device 166 which provides a portable roof bracket mounting tool arranged to mount ceiling mounting chambers fl on a roof support structure 115.
    The feeding device 166, which is arranged for feeding the feeding magina 110 in Fig. 7, is similar in most aspects to the feeding device 66 in Figs. 4-6, but differs from the feeding device 66 in that the feeding device 166 is designed to be attached to a nail gun 164. , in the stand for on an electric Screwdriver 64 (fšg 4). The nail gun 164 may be a standard shotgun of the type widely available commercially; depending on the courage! however, it may be slightly modified for its purpose. Commercially available nail pistols are often equipped with a nail magazine and a feeding mechanism for the nails; However, since nails 112 are provided in the feed magazine 110, such separate nail feed means of the nail drive piston 164 itself may be removed. Furthermore, the nail gun 164 in Fig. 8a is provided with a nail driver 196 for driving nails into the support structure 115. The nail driver 196 is slightly longer than those included in a standard nail gun in the typical case. As an alternative, a separate nail actuator extension can be used in combination with the shorter nail actuator included in a standard nail gun.
    The feed device 166 includes a nail gun holder 166 for attachment to the height 169 of the nail gun 164; alternatively, the nail gun holder portion 168 may be integrated with the nail 169 of the nail gun 164, in such a way that the nail gun 164 and the feeding device 166 together provide a single, integrated tool. Similar to the feed device 66 in Figs. 1-4, the nail gun dispenser portion 168 relatively controls the magazine holder 70 by means of a nail gun guide 194 which is fixedly connected to the magazine needle 70. The nail gun holder 168 is rigidly attached to an outer surface of the nail 194, the nail gun holder 168, and the nail gun 164, can move vertically back and forth in relation to the magazine cutter 70 with a raised position (Fig. 5a) and a lowered position (Fig. 8b). Again, the nail gun guide 194 has a circular cylindrical interior space 195 which forms a guide for the nail driver 196. 1G 15 2G 25 30 2G I Fig. 1 illustrate the nail gun 1ê4 in the raised position. The nail gun 164 is loaded, i.e. the nail drive device 196 is in a retracted position, ready to strike downwards along the nail drive guide 195.
    The magazine 110 is advanced by means of the feeding device 166 in a manner similar to that described earlier in this document with reference to Figs. 6a-6f, i.e. by first lowering the nail gun holder 168 (Fig. 8b), thereby forcing the carriage Sd to the retracted position, in which it engages the magazine 119. A backstop arrangement (not shown) may, if necessary, be formed as a portion of the nail gun holder 168, which portion is pressed into the magazine 110 when the nail gun holder 163 is lowered.
    Then, the nail gun holder 168 can be lifted again, in such a way that the carriage 86, when it returns to its advanced position shown in Fig. 8a, advances the magazine 110 to the next ceiling mounting bracket position. A backstop arrangement may, if necessary, be formed as a portion of the nail gun holder 1fi8, which portion is pressed into the magazine when the nail gun holder 168 is lowered, in Fig. St) illustrating the nail gun 164 when in its lowered position, the nail gun 154 still being loaded. When in this position, the nail assembly 164 can be pushed off, thereby accelerating the nail driver 196 downward along the nail drive guide 195 and striking the nail 116 through the ceiling mounting bracket 14 and into the support structure 115. The driving force can be adjusted so that the ceiling mounting bracket 14 is detached from the nail mounting bracket. 119 staples 18. In the typical case, the nail gun 164 is automatically reloaded, ie automatically pulls back the nail driver 196 again after stripping. The nail gun 164 can be driven with any suitable source of power; commonly available nail guns are often powered by, for example, compressed air, cassettes with explosive charges, combustible gas or electricity.
    Fig. 9 illustrates a fourth embodiment of a feed magazine.
    The feed magazine 210 is similar in most respects to the feed magazine 11G in Fig. Ya, but differs from the feed magazine 119 in that the magazine 210 is provided with nail holders 116 arranged in two parallel rows extending in the longitudinal direction of the feed magazine 219. The two rows define pairs of forming nail holders 116, each pair of forming nail holders 116 holding a pair of forming nails 112, such that there is a pair of forming nails 112 for each roof mounting bracket layer of the magazine 2.1 D. The ceiling mounting bracket 14 is provided with a corresponding pair of forming mounting holes 28. Figs. 9b illustrate how the pair forming nails 112 held by the holding pair 11ö in Fig. 9a can be recessed into the support structure 115 simultaneously by means of a branched nail drive device 296. Figs. Sa-b can be modified to have a branched actuator 296 in place of the single, rod-shaped actuator 196 in Figs. Sa-b. It is clear that such a modification could involve extending a lower part of the nail drive guide 195 in the direction perpendicular to the plane of the illustrated section, in such a way that there will be sufficient space for the 2% branched portion of the nail driver to move forward and back vertically. As an alternative to the branched actuator 296 for synchronous countersinking of the pair of forming nails 112 in Figs. Qa-b, the machine 162 may be provided with a pair of forming parallel, synchronously actuated, rod-shaped, i.e. non-branched actuators, i.e. a separate actuator per row with nails 112.
    According to a fifth embodiment (not shown) of the mounting bracket feed magazine, the feed magazine may lack splice holders 116, i.e. it may be designed to hold only ceiling mounting brackets 14. Nails or staples may be fed separately, using any suitable nail or staple feeding mechanism. known in the art, directly to the nail gun, which can drive the separately fed splices or clamps through the base plate 22 of the roof joint bracket 14. The base plate 22 of the roof joint chamber 14 need not be provided with a through hole 28 for the nails to pass; instead, the nails can be driven in through the metal plate of the base plate 22, through which they form their own through holes during assembly. Fig. 10 illustrates a sixth embodiment of a feed magazine, the l1 / loading magazine 310 is similar in most respects to the feed magazine 110 in Fig. 7, but differs from the feed magazine 110 in that each staple holder 318 is formed as a non-linear protruding projection. from the feed magazine 110. An upper portion of a ceiling mounting clip 314 is provided with a pair of forming non-circular through holes 360 for receiving a corresponding pair of forming chamber holders 318. The complementary projections 318 and the holes 366 have corresponding size and shapes so as to form a frictional engagement between the feed magazine 316 and the mounting bracket 314. It will be readily appreciated, although only a single ceiling mounting clip 314 illustrates, that the magazine 310 may have a plurality of ceiling mounting chambers 314.
    The projections 318 need not be circular-cylindrical. A suitable frictional engagement with an uncircular through hole 314 can be obtained by means of, for example, a cylindrical projection having, for example, a star-shaped cross section. Furthermore, a protrusion 318 need not be strictly non-cylindrical; as an exemplary alternative, it may be provided with an iiv (not shown) for receiving the periphery of the corresponding through hole 314, in such a way that the projection 318 defines a knob which forms a snap lock together with the respective through hole 360. An alternative is illustrated in Fig. 11, which differs from Fig. 10 in that each staple holder 418 is formed as a longitudinally divided arrow. It is apparent that the projections 318, 418 and the holes 366 may have any suitable form of engagement with each other in a frictional, pre-bonded or snapping manner. Fig. 12 illustrates yet another embodiment of a feeding device 566. The feeding device 166, which is arranged for feeding the feeding magazine 10 in Fig. 1, is in most respects similar to the feeding device 66 in Figs. 4-6, but differs from the feeding device 66 in Figs. that the feeding device 566 is provided with an optional, upwardly curved magazine guide assembly 521, which is designed for fixed control of the magazine 10 (Fig. 1) at a distance from the roof bar structure 115 (Fig. 6G) in order to make the feeding device 566 more compact and easier to handle, especially when using a long magazine 10. The magazine guide extension 521 may also, depending on its length, allow insertion of several successive magazines 10, connected in series, into the magazine guide.
    The feeder 566 is also provided with an optional, removable screwdriver holder extension 523, which enables the construction worker to adjust the overall height of the feeder 566, thereby weighting the most comfortable and ergonomic workload when mounting ceiling mounting brackets. It is clear that the screwdriver holder extension 523 should be combined with a longer screwdriver bit 96 (Fig. 5).
    Another difference between the two embodiments 66, 566 is that the wedge arrangement 504 of the feed device 566 is turned upside down compared to the wedge arrangement 104 of the feed device 66. The wedge surfaces 506 are arranged on the upper portion 500 of the carriage (not shown), while the carriage retraction carriers 508 are arranged on the screwdriver holder 568. In this way, the wedge arrangement 504 in Fig. 12 can be made more compact than the wedge arrangement 104 according to 4-6.
    Another advantage is that the engagement between the wedge surfaces 506 and the carriage retraction carriers 508 can be located close to the carriage, in order to reduce any tendency of the carriage to get stuck.
    The invention has been described above mainly with reference to some embodiments. However, as will be readily appreciated by one skilled in the art, embodiments other than those described above are also possible within the scope of the invention, as defined by the appended claims.
    For example, the feed magazine 10, 110, 210, 310 described above holds the staples 14, 314 and the fasteners 12, 112 in a one-to-one or one-to-two relationship. However, as an alternative, the magazine may be arranged to hold any suitable number of fasteners per staple. The fasteners do not all have to be spaced the same distance along the magazine, since the feeding device can allow non-uniform indexing of the magazine, for example by placing the feeding reading openings 20 at a uniform distance along the magazine 10, 110, 210, 310. In addition the feed reading openings 20 need not be designed as through holes; instead, they may be formed as, for example, recesses in the longitudinal edge 78 of the magazine. In fact, any other suitable design may be used for engagement with the magazine carriers 90 instead of openings 20, such as projections distributed along the magazine. Alternatively, the carriers 90 may engage the roof mounting chambers 14 instead of the magazine 10, 110, 210, 310.
    The feeding device 66 described with reference to Figs. 4-6 illustrate in the figures as symmetrical with respect to a plane delimited by the feeding direction of the magazine 10 and the screwdriver holder shaft A. However, this is not necessary. The discharge device 66 may be provided with, for example, only a single magazine carrier 90 or a single carriage retraction carrier 108, and may have an asymmetric geometry also in other respects. The same reasoning applies, mutatis mutandis, to the feeders 166, 566 and the magazines 10, 110, 210, 310; they do not have to be symmetrical in relation to said plane. Furthermore, the feeding devices 66, 166, 566 can be used for feeding ceiling mounting brackets to testing tools other than nail guns 164 or electric screwdrivers 64.
    The constructions described in this document may also be implemented in embodiments outside the scope set forth herein. Such embodiments may be the subject of pending applications. As an example, the feeding devices 66, 166, 566 described above can be used for feeding fastener magazines, such as screw magazines or nail magazines which hold exclusively screws or nails, e.g. an electric screwdriver or nail chair.
    Correspondingly, each of the magazines 10, 110, 210, 310 described above may be modified to hold only fasteners, to form a strip-shaped feed magazine intended to hold fasteners, such as screws or nails, to be fed to a fastening tool. such as an electric screwdriver or nail gun.
    Correspondingly, the bracket brackets 18, 318, 418 may be shaped to hold components other than ceiling mounting brackets for fastening, such as other types of building keys used in the construction industry.
    The feed magazines 10, 110, 210, 310 described above have features that can be considered as separate inventive concepts. As an example, the beads 38, 40, 41 can be used to hold a fastening element in a selectable axial position also in a supply magazine which is not provided with staple holders. The same reasoning applied to the snap-lock arrangement for snap-fitting two feed magazines in series, as well as to the concept of axial control of a screw in two separate axial positions for higher precision; even these concepts can be applied to magazines that hold exclusively screws or nails.
    权利要求:
    Claims (30)
    [1] 1. Portable roof clip mounting tool (66; 166; 566), for fitting roof mountingclips (14; 314) to a roof support structure (115), the roof clip mounting tool(66; 166; 566) being characterized in comprising a magazine forwardingmechanism (85) for feeding a strip-shaped roof mounting clip magazine (10;110; 210; 310) to a fastening tool (64; 164) for driving fasteners (12; 112) intothe roof support structure.
    [2] 2. The portable roof clip mounting tool according to claim 1, furthercomprising a magazine guide (71) for guiding said magazine (10; 110; 210;310) to the fastening tool (64; 164).
    [3] 3. The portable roof clip mounting tool according to claim 2, wherein themagazine forwarding mechanism (85) comprises a sled (86), movable along said magazine guide (71) between aretracted position and an advanced position, and biased to said advancedposition, said sled (86) being provided with a dog (90) configured to engagewith and advance said roof mounting clip magazine (10; 110; 210; 310) in aforward direction when the sled (86) moves from the retracted position to theadvanced position, and to non-engagingly pass the roof mounting clipmagazine (10; 110; 210; 310) when the sled (86) moves from the advancedposition to the retracted position; and a fastening tool holder (68; 168), said fastening tool holder (68; 168)being reciprocatable relative to the magazine guide (71) along a fastening toolguide (94; 194) between a raised position and a lowered position, saidfastening tool holder (68; 168) being coupled to the sled (86) so as to movethe sled (86) from the advanced position to the retracted position when thefastening tool holder (68; 168) is moved from the raised position to thelowered position.
    [4] 4. The portable roof clip mounting tool according to any of the claims 2-3, 26wherein the magazine guide (71) is configured for guiding the magazine (10;110; 210; 310) from a magazine guide entry (74) to a magazine guide exit(76).
    [5] 5. The portable roof clip mounting tool according to claim 4, the magazinefon/varding mechanism (85) being configured to allow the magazine(10; 110;210; 310) to be freely pressed right through the feeding apparatus (66; 166;566) in the direction from the magazine guide entry (74) to the magazineguide exit (76).
    [6] 6. The portable roof clip mounting tool according to any of the claims 3-5,said fastening tool holder (68; 168) being coupled to the magazine guide (71)in a manner allowing the sled (86) to remain in retracted position when thefastening tool holder (68; 168) is moved from the lowered position to theraised position.
    [7] 7. The portable roof clip mounting tool according to any of the claims 3-6,the fastening tool holder (68; 168) being coupled to and arranged to move thesled (86) by means of a wedge arrangement (104).
    [8] 8. The portable roof clip mounting tool according to any of the claims 3-7,the roof clip mounting tool (66; 166; 566) being configured to, when thefastening tool holder (68; 168) is moved from its raised position to its loweredposition and thereby moves the sled (86) from the advanced position to theretracted position, push a portion (98) of the fastening tool (64) or of thefastening tool holder (68; 168) into the magazine (10; 110; 210; 310), suchthat said portion (98) prevents the magazine (10; 110; 210; 310) from slidingin a reverse direction, said reverse direction being opposite to said forwarddirection.
    [9] 9. The portable roof clip mounting tool according to any of the claims 3-8,the fastening tool holder (68; 168) being biased to the raised position. 27
    [10] 10. The portable roof clip mounting tool according to any of the claims 3-9,the sled (86) being provided with wheels (93) for rolling along a sled guide(88) arranged in a magazine holder (70).
    [11] 11. The portable roof clip mounting tool according to claim 10, said wheels(93) being arranged to roll on opposite surfaces of the sled guide (88).
    [12] 12. The portable roof clip mounting tool according to any of the claims 3-11, the fastening tool holder (68) being adapted for connecting to the housing(69) of a power screwdriver (64).
    [13] 13. Strip-shaped feed magazine (10; 110; 210; 310) comprising a pluralityof roof mounting clips (14; 314) to be fed to a fastening tool (64, 164) forfastening said roof mounting clips (14; 314) onto a roof support structure(115), the roof mounting clips (14; 314) being releasibly attached to anddistributed along said feed magazine (10; 110; 210; 310).
    [14] 14. The feed magazine according to claim 13, further comprising a plurality of fasteners (12; 112), to be driven into said roof supportstructure (115) by said fastening tool (64; 164) to fasten said roof mountingclips (14; 314) to said roof support structure (115), said fasteners (12; 112)being releasibly attached to and distributed along said feed magazine (10;110; 210; 310).
    [15] 15. Strip-shaped feed magazine (10; 110; 210; 310) for holding roofmounting clips (14; 314) to be fed to a fastening tool (64; 164), the feedmagazine (10; 110; 210; 310) comprising a plurality of clip holders (18; 318;418), distributed along said feed magazine (10; 110; 210; 310), for holdingroof mounting clips (14) to be fastened onto a roof support structure (115) bysaid fastening tool (64; 164).
    [16] 16. The feed magazine according to claim 15, further comprisinga plurality of fastener holders (16; 116), distributed along said feedmagazine (10; 110; 210; 310), for holding fasteners (12; 112) to be driven into 28 said roof support structure (115) by said fastening tool (64; 164) to fasten saidroof mounting clips (14; 314) to said roof support structure (115).
    [17] 17. The feed magazine according to claim 16, said fastener holders (16;116) being configured for holding a fastener (12; 112) at a selectable distancefrom said roof support structure (115).
    [18] 18. The feed magazine according to claim 17, said fastener holders (16;116) being configured for holding said fastener (16; 116) at said selectabledistance from said roof support structure (115) by means of axially separatedbeads (38, 40, 41).
    [19] 19. The feed magazine according to any of the claims 16-18, each of saidfastener holders (16; 116) being configured for guiding a fastener (12; 112) attwo axially separated locations (30, 32).
    [20] 20. The feed magazine according to claim 19, each of said fastenerholders (16; 116) having a circular cylindrical inner surface (30) for guiding afastener head (34), and a tapering fastener exit (32) for guiding a fastenerbody (36).
    [21] 21. The feed magazine according to any of the claims 15-20, each of saidclip holders (18; 318; 418) being configured as a portion (53; 318; 418) of asnap-lock for engaging with a roof mounting clip (14) having a mating portion(60, 56; 360) of said snap-lock, said snap-lock being configured to releasewhen the respective roof mounting clip (14; 314) is pulled in a directiontowards said roof support structure (115).
    [22] 22. The feed magazine according to any of the claims 13-21, wherein afirst end (42) of the feed magazine (10; 110; 210; 310) is provided with a firstend connecting device (44; 46), and a second end (50) of the feed magazine(10b) is provided with a second end connecting device (16b; 52) adapted tomate with a first end connecting device (44; 46) of another, identical strip- 29 shaped feed magazine (10a).
    [23] 23. The feed magazine according to claim 22, wherein said connecting devices (44, 16b; 46, 52) together form a snap lock for snapping together when said feed magazine (10b) and said another feed magazine (10a) arepressed together in the Iongitudinal direction.
    [24] 24. The feed magazine according to any of the c|aims 15-23, a plurality ofsaid fastener ho|ders (16; 116) being provided with a respective fastener (12;112), and a plurality of said clip ho|ders (18; 318; 418) being provided with arespective roof mounting clip (14; 314), each of said roof mounting clips (14;314) having a mounting hole (28) in front of at least one of said fasteners (12;112).
    [25] 25. A roof seam clip (14; 314) for fixing a seam (111) ofa metal roof to asupport roof support structure (115), the roof seam clip (14; 314) comprising a base plate (22) for attaching to said roof support structure (115); and a seam holder (24) having a first end connected to said base plate (22)and a second end configured for holding said seam (111), the roof seam clip (14; 314) being characterized in comprising afastening arrangement (60, 56; 360) for attaching the roof seam clip (14; 314)to a feed magazine (10; 110; 210; 310).
    [26] 26. The roof seam clip according to claim 25, said fastening arrangement(60, 56; 360) being configured as a portion of a snap-lock for engaging with aclip holder (18; 318; 418) having a mating portion (53; 318; 418) of said snap-lock.
    [27] 27. The roof seam clip according to claim 26, wherein said portion (60, 56)of said snap-lock is configured as a cam-and-recess arrangement at saidsecond end.
    [28] 28. The roof seam clip according to claim 26, wherein said portion of saidsnap-lock is configured as an upwardly facing hole (360) arranged at the second end of the seam holder (24).
    [29] 29. A method of mounting a roof panel to a roof support structure (115),the method comprising feeding a magazine (10; 110; 210; 310) holding a p|ura|ity of roofmounting clips (14; 314) to a fastening tool (64; 164); and fastening said roof mounting clips (14; 314) to the roof supportstructure (115) using said fastening tool (64; 164).
    [30] 30. The method according to claim 29, further comprising feeding fasteners(12; 112) to said fastening tool (64; 164).
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    同族专利:
    公开号 | 公开日
    WO2013066255A1|2013-05-10|
    CA2854081A1|2013-05-10|
    AU2012331633A1|2014-04-17|
    EP2773822A1|2014-09-10|
    EP3800306A1|2021-04-07|
    US20140305068A1|2014-10-16|
    EP2773822B1|2020-11-25|
    EP2773822A4|2015-05-27|
    SE536259C2|2013-07-23|
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    KR20100003323U|2008-09-17|2010-03-25|김근식|Clip band for screw one united washer|
    EP2497605B1|2011-03-10|2020-02-19|Rheinzink GmbH & Co. KG|Positioner for a driving device for pin-shaped connection elements|TWM476857U|2013-12-11|2014-04-21|Wistron Corp|Screwing accessory device|
    WO2015196108A1|2014-06-20|2015-12-23|Tebo Glenn J|Decking clip|
    CA2945276A1|2015-10-16|2017-04-16|Brian Keith Orchard|Deck clip magazine|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    SE1151012A|SE536259C2|2011-10-31|2011-10-31|Ceiling mounting tool with strip-shaped ceiling mounting bracket, as well as ceiling joint brackets|SE1151012A| SE536259C2|2011-10-31|2011-10-31|Ceiling mounting tool with strip-shaped ceiling mounting bracket, as well as ceiling joint brackets|
    EP20209535.2A| EP3800306A1|2011-10-31|2012-10-31|Mounting of roof clips|
    EP12846773.5A| EP2773822B1|2011-10-31|2012-10-31|Mounting of roof clips|
    AU2012331633A| AU2012331633A1|2011-10-31|2012-10-31|Mounting of roof clips|
    PCT/SE2012/051182| WO2013066255A1|2011-10-31|2012-10-31|Mounting of roof clips|
    CA 2854081| CA2854081A1|2011-10-31|2012-10-31|Mounting of roof clips|
    US14/355,062| US20140305068A1|2011-10-31|2012-10-31|Mounting of roof clips|
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