EP2420388B1 - A chalk line device with means for preventing chalk line breakage - Google Patents
A chalk line device with means for preventing chalk line breakage Download PDFInfo
- Publication number
- EP2420388B1 EP2420388B1 EP20100173271 EP10173271A EP2420388B1 EP 2420388 B1 EP2420388 B1 EP 2420388B1 EP 20100173271 EP20100173271 EP 20100173271 EP 10173271 A EP10173271 A EP 10173271A EP 2420388 B1 EP2420388 B1 EP 2420388B1
- Authority
- EP
- European Patent Office
- Prior art keywords
- drive shaft
- chalk line
- gears
- protrusion
- spool
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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- 238000000034 method Methods 0.000 claims description 4
- 230000006835 compression Effects 0.000 description 3
- 238000007906 compression Methods 0.000 description 3
- 238000004519 manufacturing process Methods 0.000 description 2
- 230000005540 biological transmission Effects 0.000 description 1
- 238000009435 building construction Methods 0.000 description 1
- 238000010276 construction Methods 0.000 description 1
- 230000013011 mating Effects 0.000 description 1
Images
Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B44—DECORATIVE ARTS
- B44D—PAINTING OR ARTISTIC DRAWING, NOT OTHERWISE PROVIDED FOR; PRESERVING PAINTINGS; SURFACE TREATMENT TO OBTAIN SPECIAL ARTISTIC SURFACE EFFECTS OR FINISHES
- B44D3/00—Accessories or implements for use in connection with painting or artistic drawing, not otherwise provided for; Methods or devices for colour determination, selection, or synthesis, e.g. use of colour tables
- B44D3/38—Cord line chalkers
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H75/00—Storing webs, tapes, or filamentary material, e.g. on reels
- B65H75/02—Cores, formers, supports, or holders for coiled, wound, or folded material, e.g. reels, spindles, bobbins, cop tubes, cans, mandrels or chucks
- B65H75/34—Cores, formers, supports, or holders for coiled, wound, or folded material, e.g. reels, spindles, bobbins, cop tubes, cans, mandrels or chucks specially adapted or mounted for storing and repeatedly paying-out and re-storing lengths of material provided for particular purposes, e.g. anchored hoses, power cables
- B65H75/38—Cores, formers, supports, or holders for coiled, wound, or folded material, e.g. reels, spindles, bobbins, cop tubes, cans, mandrels or chucks specially adapted or mounted for storing and repeatedly paying-out and re-storing lengths of material provided for particular purposes, e.g. anchored hoses, power cables involving the use of a core or former internal to, and supporting, a stored package of material
- B65H75/40—Cores, formers, supports, or holders for coiled, wound, or folded material, e.g. reels, spindles, bobbins, cop tubes, cans, mandrels or chucks specially adapted or mounted for storing and repeatedly paying-out and re-storing lengths of material provided for particular purposes, e.g. anchored hoses, power cables involving the use of a core or former internal to, and supporting, a stored package of material mobile or transportable
- B65H75/406—Cores, formers, supports, or holders for coiled, wound, or folded material, e.g. reels, spindles, bobbins, cop tubes, cans, mandrels or chucks specially adapted or mounted for storing and repeatedly paying-out and re-storing lengths of material provided for particular purposes, e.g. anchored hoses, power cables involving the use of a core or former internal to, and supporting, a stored package of material mobile or transportable hand-held during use
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H75/00—Storing webs, tapes, or filamentary material, e.g. on reels
- B65H75/02—Cores, formers, supports, or holders for coiled, wound, or folded material, e.g. reels, spindles, bobbins, cop tubes, cans, mandrels or chucks
- B65H75/34—Cores, formers, supports, or holders for coiled, wound, or folded material, e.g. reels, spindles, bobbins, cop tubes, cans, mandrels or chucks specially adapted or mounted for storing and repeatedly paying-out and re-storing lengths of material provided for particular purposes, e.g. anchored hoses, power cables
- B65H75/38—Cores, formers, supports, or holders for coiled, wound, or folded material, e.g. reels, spindles, bobbins, cop tubes, cans, mandrels or chucks specially adapted or mounted for storing and repeatedly paying-out and re-storing lengths of material provided for particular purposes, e.g. anchored hoses, power cables involving the use of a core or former internal to, and supporting, a stored package of material
- B65H75/44—Constructional details
- B65H75/4418—Arrangements for stopping winding or unwinding; Arrangements for releasing the stop means
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H75/00—Storing webs, tapes, or filamentary material, e.g. on reels
- B65H75/02—Cores, formers, supports, or holders for coiled, wound, or folded material, e.g. reels, spindles, bobbins, cop tubes, cans, mandrels or chucks
- B65H75/34—Cores, formers, supports, or holders for coiled, wound, or folded material, e.g. reels, spindles, bobbins, cop tubes, cans, mandrels or chucks specially adapted or mounted for storing and repeatedly paying-out and re-storing lengths of material provided for particular purposes, e.g. anchored hoses, power cables
- B65H75/38—Cores, formers, supports, or holders for coiled, wound, or folded material, e.g. reels, spindles, bobbins, cop tubes, cans, mandrels or chucks specially adapted or mounted for storing and repeatedly paying-out and re-storing lengths of material provided for particular purposes, e.g. anchored hoses, power cables involving the use of a core or former internal to, and supporting, a stored package of material
- B65H75/44—Constructional details
- B65H75/4481—Arrangements or adaptations for driving the reel or the material
- B65H75/4492—Manual drives
- B65H75/4494—Arrangements or adaptations of the crank
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H2701/00—Handled material; Storage means
- B65H2701/30—Handled filamentary material
- B65H2701/35—Ropes, lines
- B65H2701/357—Marking strings, e.g. pre-inked lines
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H2701/00—Handled material; Storage means
- B65H2701/50—Storage means for webs, tapes, or filamentary material
- B65H2701/53—Adaptations of cores or reels for special purposes
- B65H2701/537—Stopping the winding or unwinding of reels which do not feature spring motors
Definitions
- the present invention relates to a chalk line device comprising a retracting device which is linked to a spool via a set of gears.
- a chalk line is attached to said spool and may either be coiled onto said spool or uncoiled from said spool.
- Chalk lines are widely used during building construction for marking lines on floors, walls and the like. For example, it can be used where cuts shall be made or where cabinets, shelves and other built-in furnishings are to be installed.
- a chalk line is wound on a reel or spool and coated with dry chalk. The free end of the chalk line is held at a predetermined location and the chalk line is stretched to the opposite end of a line to be marked. The ends of the chalk line are placed against the surface to be marked and the length of the chalk line there between is stretched taut. The center of the chalk line is then drawn outwardly from that surface and released. The resiliency of the chalk line causes the line to rebound against the surface to be marked, thereby causing a linear chalk marking to be formed upon a wall or floor.
- US2006/0144985 relates to chalk line device having a helical gear and an improved locking assembly.
- the locking assembly comprises a first lock member having a lock button.
- the locking assembly also comprises a second lock member including an opening to lockingly engage the first lock member and having a plurality of teeth at one end disposed adjacent one of the helical gears used in this embodiment.
- the second lock member engages with the helical gear in response to a movement of the lock button member.
- the object of the present invention is to provide a chalk line that overcomes the above issues.
- the invention is based on the insight that by, at least temporarily, disconnecting a force transmission to the chalk line, it is possible to prevent the chalk line from breaking.
- the invention relates to a chalk line device comprising a retracting device which is linked to a spool via a set of gears, a chalk line which is attached to said spool and which may either be coiled onto said spool or uncoiled from said spool.
- the retracting device is a rotatable crank. Said set of gears and said spool being rotatably disposed inside a housing to rewind the uncoiled chalk line when said retracting device transmits a force onto said spool via said set of gears.
- a force transmitting link may be a connection or an engagement between two parts where a force is transmitted during rewinding the chalk line.
- a connection/engagement can be between the retracting device and the set of gears, between two gears in the set of gears, between the set of gears and the spool or anywhere were it is possible to disconnect two parts in order to disconnect the links between the retraction device and the spool.
- the set of gears may be designed in such a way that at least two connected meshing gears separate from each other when the torque exceeds the threshold value.
- the connection can be a mutually matching engagement accomplished by mutually matching teeth where the teeth are so design that when the torque exceeds its threshold value the mutually matching teeth connection separates from each other and/or separates and connects by turns.
- the retracting device or the set of gears may have thin wings/protrusions/flat springs which are in a force transmitting engagement/connection with the other part, i.e. the set of gears or retracting device. The thin protrusion may then be so designed that it snaps over the contact area of the other part when the torque exceeds the threshold value.
- the thin protrusion is arranged on the retracting device and the set of gears has at least one surface which connects with the thin protrusion.
- the retracting device is rotated in order to rewind the chalk line onto the spool, the thin protrusion pushes the set of gears in a rotational movement.
- the torque exceeds the threshold value, the thin protrusion bends, due to its design, and it pass the engagement surface, i.e. the retracting device and the set of gears disconnects.
- this could also be the done the other way around, i.e. the thin protrusion could be on the set of gears.
- said retracting device comprises a drive shaft which comprises at least a first connection part, which connects said retracting device to said set of gears, said set of gears comprises a mutually matching second connection part adapted to connect with said first connection part of said drive shaft, wherein said force transmitting link, which is disconnectable, is between said drive shaft and said set of gears.
- said force transmitting link may also be arranged inside the housing and may therefore be protected from the outside environment i.e. dirt and handling of the chalk line device during use, storing and transportation.
- said first connection part of said drive shaft comprises at least one protrusion which protrudes perpendicular to a centre axis of said drive shaft and said mutually matching second connection part of said set of gears comprises at least one protrusion receiving part into which said protrusion of said drive shaft at least partly fits or matches.
- This is an easy way, i.e. easy connection, to transmit the force from the retracting device to the set of gears. It is also easy to manufacture and to assemble.
- One part may be fitted into the other, i.e. the protrusion into the mutually matching protrusion receiving part which may be a free space, in the area of connection, in the set of gears.
- the protrusion may protrude in an angle which is not perpendicular to the centre axis, i.e. an angle which is larger or smaller than 90° or they may protrude in the direction of the centre axis of the drive shaft.
- said protrusion of said first connection part of said drive shaft comprises a first guiding means
- said second connection part comprises mutually matching first guiding elements to said first guiding means, and when said torque exceeds said threshold value said first guiding means and said first guiding element guides said drive shaft and said set of gears to move from their connected position to a disconnected position.
- said protrusion of said first connection part of said drive shaft comprises a second guiding means, and said second connection part of said set of gears, comprises a mutual matching second guiding element to said second guiding means, wherein said second guiding means and said second guiding elements guides said drive shaft and said set of gears back from their disconnected position to a connected position.
- said first guiding means and first guiding element each comprise an inclined surface on said protrusion and on said protrusion receiving part.
- Inclined surfaces are easy to manufacture and easy to control.
- the threshold value of the torque may be determined by the friction between the two inclined surfaces and the inclination of the inclined surfaces.
- said second guiding means and second guiding elements each comprise an inclined surface on said protrusion and on said protrusion receiving part.
- said chalk line device further comprises a spring, which is arranged in connection with said drive shaft in such a way that said spring keeps said drive shaft in connection with said set of gears when said torque is below said threshold value.
- a spring is an easy and effective way, since a spring is flexible and can be compressed or stretched when the two parts disconnects.
- the threshold value of the torque may also be determined by the spring force of the spring. It should be understood that a spring may also be used for embodiments in which said disconnectable force transmitted link is located elsewhere.
- said spring is compressed when said drive shaft and said set of gears are disconnected and said spring forces said drive shaft and said set off gears back to a connected position together with said second guiding means and second guiding elements.
- the spring will use its spring force to push the drive shaft and the set of gears back to a connected position. Instead of using a complicated mechanism this may be done automatically by using the spring force.
- said spring is a coil spring.
- the coil spring may be a simple coil spring off the shelf which is very cost effective or it may be a specially adapted spring. As an alternative a folded flat spring may be used.
- said set of gears comprises an internal gear, to which said retracting device is linked, and an external gear, encircled by and in meshed contact with said internal gear, said external gear being linked to said spool. If the retraction device is connected to an internal gear which encircles an external gear, which obvious is smaller than the internal gear, the external gear will rotate faster than the internal gear, i.e. the spool will rotate faster than the retraction device when rewinding the chalk line onto the spool. That is, the set of gears of this kind accomplishes that the rewinding of the chalk line onto the spool is faster than it would be without this kind of set of gears.
- said threshold value of said torque is defined by the friction and/or the inclination between said inclined surfaces of the first guiding means and first guiding element.
- said threshold value of said torque is further defined by the spring force of said spring.
- said protrusion of said first connection part disconnects from said protrusion receiving part and due to further exposure of said torque, said protrusion connects with said protrusion receiving part again or another adjacent protrusion receiving part. Due to rotational movement of the drive shaft or the set of gears the parts will disconnects and connects again.
- the protrusion of the first connection part of the drive shaft disconnects from the protrusion receiving part of the second connection part. Due to the design and due to rotation of the two parts, i.e. the drive shaft and set of gears, the protrusion either connects the same protrusion receiving part again or an adjacent arranged protrusion receiving part.
- the set of gears may have either one or several protrusion receiving parts. If it only has one protrusion receiving part, the protrusion will connect the same protrusion receiving part. If the set of gears has several protrusion receiving parts, the protrusion will connect the adjacent, in the rotation direction, arranged protrusion receiving part. If the drive shaft has several protrusions and the set of gears has the same number of protrusion receiving parts, the protrusions will jump/slip over to the next adjacent protrusion receiving part which is arranged in the rotation direction.
- Fig. 1 and Fig. 2 show a chalk line device 1 comprising a housing 2a, 2b with a top part 2a and a bottom part 2b. The two parts are connected to each other by fastening means, here in shape of screws 3.
- a retracting device 5 is linked to a spool 4 via a set of gears 9.
- the spool 4 is mounted inside the housing 2a, 2b for rotation and for retaining a chalk line (not shown).
- the chalk line has opposite ends. One end is secured to the spool 4 in a conventional manner. The other end of the chalk line emanates from the housing 2a, 2b through the chalk line aperture 10.
- the chalk line may either be coiled onto the spool 4 or uncoiled from the spool 4.
- the housing 2a, 2b also has the function to make up the chalk cavity, i.e. where the chalk is stored during use.
- a retracting device 5, here exemplified as a crank 5 for rewinding said chalk line onto to the spool 4, is arranged onto the chalk line device 1 via a drive shaft 6 protruding through the top part 2a of the housing 2a, 2b into the cavity of the housing 2a, 2b.
- the drive shaft 6 is releasably connected to the set of gears 9, which is arranged inside the housing.
- the set of gears 9 connects the crank 5 to the spool 4 in such a way that when the crank 5 is rotated, the spool 4 is also rotated, however it rotates faster than the crank 5 due to the design of the set of gears 9.
- the set of gears 9 comprises an internal gear 11 and an external gear 12.
- the internal gear 11 is connected to the crank 5.
- the internal gear 11 encircles the external gear 12, here exemplified as a spur gear 12.
- the external teeth of the spur gear 12 reside in meshed engagement with the internal teeth 17 of the internal gear 11.
- the spool 4 is formed with an axial aperture of square cross section 28 (See Fig. 2 ) with a cylindrical opening 8 adapted to receive a central, square portion 13 of the spur gear 12.
- the drive shaft 6 is, as said above, releasably connected to the set of gears 9 by being in releasable connection with the internal gear 11.
- the connection is established by mutually mating portions on the drive shaft 6 and on the internal gear 11 which will now be closer described (see fig. 1 ).
- the drive shaft 6 is here exemplified as a cylindrical shaft which on its upper end (not shown in fig. 1 ) is connected to the crank 5 by a pivot shaft 7.
- the drive shaft 6 is not limited to be cylindrical, it may have any suitable shape.
- the drive shaft comprises a connection part 33 at its lower end.
- connection part 33 comprises a flange 15, which is protruding from the end portion of the lower part 14 of the drive shaft 6 and several protrusions 18 protruding perpendicular to the centre axis (not shown) of the drive shaft 6 and from the flange 15 towards the upper end of the shaft and they are uniformly circumferentially arranged around the cylindrical shaft.
- Each protrusion 18 comprises a first guiding means 29 and a second guiding means 26 here exemplified as slanted surfaces.
- the internal gear 11 has a base 16 from which the teeth 17 of the internal gear 11 protrudes.
- an aperture 19 arranged for receiving the drive shaft 6.
- the aperture 19 is so large and a has a suitable shape so that the drive shaft 6 may protrude, when arranging the upper end into the aperture from the gear part side of the internal gear 11 without the flange 15 and the protrusions 18 of the drive shaft 6 passing through the aperture 19, i.e. the internal gear 11 is supported by the flange and the protrusions 18 from underneath.
- the internal gear comprises a connection part 20, 31 which is adapted to receive the connection part 33 of the drive shaft 6, i.e. the protrusions 18 of the drive shaft 6.
- the connection part 20, 31 of the internal gear 11 is a protrusion receiving part 31, i.e. to receive the protrusions 18 of said drive shaft 6.
- the protrusion receiving part 31 is exemplified as the space between several protrusions 20, uniformly arranged around the aperture 19 and at the same diameter as the protrusions 18 of the drive shaft 6.
- the number of protrusions 20 and the distance between the protrusions 20 are adapted to the number and width of the protrusions 18 on the drive shaft 6.
- the protrusions 18 of the drive shaft shall match or at least fit into the space created between the protrusions 20 of the internal gear 11.
- the protrusions 20 of the internal gear 11 protrudes in the same direction as the teeth 17 of the internal gear 11, and said space 31 created between the protrusions creates the receiving function.
- the base 16 may be so thick that recesses may be arranged in it in order to make a receiving space for the protrusions 18 of the drive shaft 6.
- the protrusions 20, i.e. the space 31 comprises a first guiding element 27 and a second guiding element 30 which are mutually matching to said first guiding means 29 and said second guiding means 26 of the drive shaft 4.
- the first guiding element 27 and the second guiding element 30 are slanted surfaces.
- the protrusions 18 of the drive shaft 6 fits between the protrusions 20 in a meshing engagement/connection which is established when the drive shaft 6 is arranged in the aperture 19 of the internal gear 11 in such a way that the internal gear 11 is arranged between the protrusions 18 of the drive shaft 6 and the top part 2a of the housing.
- the drive shaft 6 is further in its lower end formed with a central cavity 22 for accommodating a compression spring 23, for example a coil spring which extends downwardly and is seated in a spring holding arrangement 24, which is part of a circular cover 25 which encloses at least partly the set of gears 9 in order to avoid chalk in the set of gears 9.
- a compression spring 23 for example a coil spring which extends downwardly and is seated in a spring holding arrangement 24, which is part of a circular cover 25 which encloses at least partly the set of gears 9 in order to avoid chalk in the set of gears 9.
- the spring holding arrangement 24 is a circular protruding portion wherein the spring 23 is seated. Hence, the spring 23 is sandwiched between the drive shaft 6 and the spring holding arrangement 24. When the drive shaft 6 is connected to the internal gear the compression spring is under pressure in order to hold the connected position.
- the cover 25 is arranged between the set of gears 9 and the spool 4 and it is fixed arranged by screws 32 to the top part 2a of the housing.
- the spring holding arrangement 24 and the cover 25 is not limited to the described design. It may have any suitable design and be attached in any suitable way.
- the drive shaft 6 When the crank 5 is being rotated in order to rewind the chalk line, the drive shaft 6 will rotate, i.e. transmit a force on the internal gear 11 through the connection described above.
- the spur gear 12, which is arranged at a predetermined distance from the centre axis of the internal gear 11 and in meshing contact with the teeth 17 of the internal gear 11 will rotate when the internal gear 11 rotates, i.e. the internal gear 11 transmits the force to the external gear 12, which transmit the force further to the spool, which will rotate due to their connection wherein the chalk lines is rewounded i.e. coiled up.
- Fig. 3a shows the drive shaft 6 in connection with the internal gear 11.
- the compression spring 23 is sandwiched between the drive shaft 6 and the spring holding arrangement 24 (only partly shown) and is under pressure to hold the drive shaft and the internal gear in a connected state.
- the spring is, as described above, arranged in a central cavity (not shown) and attached in a suitable manner. It may however be loosely fitted inside the cavity so that the spring can the move, i.e. rotate.
- Fig. 3b and Fig. 3c show how the drive shaft 6 disconnects from the internal gear 11.
- the rewinding force increases.
- the threshold value of the torque is here determined by the spring, i.e. the spring force and the inclination of and the friction force between the slanted surfaces 29 of the protrusions 18 and the slanted surfaces 27 of the internal gear 11.
- first guiding means 29 starts to slide on the adjacent slanted surfaces 27 i.e. first guiding elements 27 of the protrusions 20 of the internal gear 11, simultaneously as the spring is being compressed (see Fig. 3b ) between the drive shaft 6 and the spring holding arrangement.
- Fig. 3c shows when the protrusions 18 of the drive shaft 6 are totally disconnected from the internal gear 11.
- the drive shaft 6 has been moved from a connected position with the internal gear 11 to a disconnected position. When and if the user continues trying to rewind the chalk line the drive shaft 6 goes back again to the connected position.
- the spring is in this disconnected position in a compressed state.
- Fig. 3d shows this, i.e. what happens when the user of the chalk line device further rotates the crank in Fig. 1 and 2 .
- the protrusions 18 of the drive shaft 6 will connect the internal gear 11 again, however an adjacent lying protrusion receiving part 33 (se fig. 2 ) due to the second slanted surface 26 i.e. second guiding means 26 starts to slide on the adjacent slanted surfaces 30 i.e. second guiding element 30 and due to compressed spring 13 which wants to go back to its relaxed state.
- the connection and disconnection procedure continues until the user stops rotating the crank.
- the spool 4 will stop rewinding the caught chalk line and thereby avoiding breakage of the chalk line. Further the user will hear an indicating sound from the chalk line device 1 when it continues to disconnect and connect again until he stops rotating the crank 5.
- the crank 5 When the chalk line is being drawn out, i.e. when it shall be used, the crank 5 is either in its locked position as shown in Fig. 2 or in a rewinding position (not shown) i.e. pivoted upwards from its locked position.
- the crank 5 When the crank 5 is in its locked position (which is the normal position) and the chalk line is being drawn out, the spool 4 and the spur gear 12 rotates the internal gear 11 and since the crank 5 is locked the drive shaft 6 is also locked.
- the torque exceedes the threshold value, the same happens as explained above.
- Fig. 4 shows a second embodiment of the connection/link between drive shaft 6 and the internal gear 11.
- the drive shaft 6 comprises thin protrusions 118 which are protruding perpendicular to the central axis (not shown) of the drive shaft.
- the internal gear 11 of the set of gears has a receiving part 120, 130, comprising a protruding part 120 with spaces 130 for receiving the thin protrusions 118.
- Each space 130 has a surface 135 which one thin protrusion 118 connects with.
- the thin protrusions 118 bend, due to its design, and they pass the engagement surface 130. Hence, the retracting device and the internal gear 11 disconnects until the thin protrusions 118 reach the next space, where they connects again.
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Description
- The present invention relates to a chalk line device comprising a retracting device which is linked to a spool via a set of gears. A chalk line is attached to said spool and may either be coiled onto said spool or uncoiled from said spool.
- Chalk lines are widely used during building construction for marking lines on floors, walls and the like. For example, it can be used where cuts shall be made or where cabinets, shelves and other built-in furnishings are to be installed. A chalk line is wound on a reel or spool and coated with dry chalk. The free end of the chalk line is held at a predetermined location and the chalk line is stretched to the opposite end of a line to be marked. The ends of the chalk line are placed against the surface to be marked and the length of the chalk line there between is stretched taut. The center of the chalk line is then drawn outwardly from that surface and released. The resiliency of the chalk line causes the line to rebound against the surface to be marked, thereby causing a linear chalk marking to be formed upon a wall or floor.
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US2006/0144985 relates to chalk line device having a helical gear and an improved locking assembly. The locking assembly comprises a first lock member having a lock button. The locking assembly also comprises a second lock member including an opening to lockingly engage the first lock member and having a plurality of teeth at one end disposed adjacent one of the helical gears used in this embodiment. The second lock member engages with the helical gear in response to a movement of the lock button member. - Sometimes when rewinding the chalk line the chalk line get caught and may break. The same may happen if someone trips over the chalk line during use. The chalk line then has to be replaced or fixed. Hence there is a need for a device which prevents the chalk line to break.
- The object of the present invention is to provide a chalk line that overcomes the above issues.
- The invention is based on the insight that by, at least temporarily, disconnecting a force transmission to the chalk line, it is possible to prevent the chalk line from breaking.
- The invention relates to a chalk line device comprising a retracting device which is linked to a spool via a set of gears, a chalk line which is attached to said spool and which may either be coiled onto said spool or uncoiled from said spool. The retracting device is a rotatable crank. Said set of gears and said spool being rotatably disposed inside a housing to rewind the uncoiled chalk line when said retracting device transmits a force onto said spool via said set of gears. When said spool is exposed to a torque which exceeds a threshold value at least one force transmitting link between said retracting device and said spool disconnects and reconnects, and the disconnection and reconnection continues until a user stops rotating the crank. An arrangement like this prevents that the chalk line breaks when the torque gets to high, for example if the chalk line get stuck somewhere when rewinding the chalk line onto the spool, or if someone trips over the chalk line during use. Instead of the chalk line breaking, the chalk line device reacts when the torque reaches a threshold value by disconnecting at least one force transmitting link between two parts in the chain between the retraction device and the spool. A force transmitting link may be a connection or an engagement between two parts where a force is transmitted during rewinding the chalk line. For example, such a connection/engagement can be between the retracting device and the set of gears, between two gears in the set of gears, between the set of gears and the spool or anywhere were it is possible to disconnect two parts in order to disconnect the links between the retraction device and the spool. This can be done in several ways. For example, the set of gears may be designed in such a way that at least two connected meshing gears separate from each other when the torque exceeds the threshold value. If the link to be disconnected is between the retracting device and the set of gears, the connection can be a mutually matching engagement accomplished by mutually matching teeth where the teeth are so design that when the torque exceeds its threshold value the mutually matching teeth connection separates from each other and/or separates and connects by turns. Another alternative is that the retracting device or the set of gears may have thin wings/protrusions/flat springs which are in a force transmitting engagement/connection with the other part, i.e. the set of gears or retracting device. The thin protrusion may then be so designed that it snaps over the contact area of the other part when the torque exceeds the threshold value. For example, if the thin protrusion is arranged on the retracting device and the set of gears has at least one surface which connects with the thin protrusion. When said retracting device is rotated in order to rewind the chalk line onto the spool, the thin protrusion pushes the set of gears in a rotational movement. When the torque exceeds the threshold value, the thin protrusion bends, due to its design, and it pass the engagement surface, i.e. the retracting device and the set of gears disconnects. However, this could also be the done the other way around, i.e. the thin protrusion could be on the set of gears.
- According to at least one exemplary embodiment said retracting device comprises a drive shaft which comprises at least a first connection part, which connects said retracting device to said set of gears, said set of gears comprises a mutually matching second connection part adapted to connect with said first connection part of said drive shaft, wherein said force transmitting link, which is disconnectable, is between said drive shaft and said set of gears. By having the disconnectable force transmitting link between the drive shaft and the set of gears, which is arranged in the housing, said force transmitting link may also be arranged inside the housing and may therefore be protected from the outside environment i.e. dirt and handling of the chalk line device during use, storing and transportation.
- According to at least one exemplary embodiment said first connection part of said drive shaft comprises at least one protrusion which protrudes perpendicular to a centre axis of said drive shaft and said mutually matching second connection part of said set of gears comprises at least one protrusion receiving part into which said protrusion of said drive shaft at least partly fits or matches. This is an easy way, i.e. easy connection, to transmit the force from the retracting device to the set of gears. It is also easy to manufacture and to assemble. One part may be fitted into the other, i.e. the protrusion into the mutually matching protrusion receiving part which may be a free space, in the area of connection, in the set of gears. As an alternative the protrusion may protrude in an angle which is not perpendicular to the centre axis, i.e. an angle which is larger or smaller than 90° or they may protrude in the direction of the centre axis of the drive shaft.
- According to at least one exemplary embodiment said protrusion of said first connection part of said drive shaft comprises a first guiding means, and said second connection part comprises mutually matching first guiding elements to said first guiding means, and when said torque exceeds said threshold value said first guiding means and said first guiding element guides said drive shaft and said set of gears to move from their connected position to a disconnected position. By letting the drive shaft and the receiving part have guiding means and elements which are mutually matching, extra parts may not be needed to accomplish the disconnection.
- According to at least one exemplary embodiment said protrusion of said first connection part of said drive shaft comprises a second guiding means, and said second connection part of said set of gears, comprises a mutual matching second guiding element to said second guiding means, wherein said second guiding means and said second guiding elements guides said drive shaft and said set of gears back from their disconnected position to a connected position. By letting the drive shaft and the receiving part have guiding means and elements which are mutually matching, extra parts may not be needed to accomplish a connection again between the drive shaft and the set of gears.
- According to at least one exemplary embodiment said first guiding means and first guiding element each comprise an inclined surface on said protrusion and on said protrusion receiving part. Inclined surfaces are easy to manufacture and easy to control. The threshold value of the torque may be determined by the friction between the two inclined surfaces and the inclination of the inclined surfaces.
- According to at least one exemplary embodiment said second guiding means and second guiding elements each comprise an inclined surface on said protrusion and on said protrusion receiving part.
- According to at least one exemplary embodiment said chalk line device further comprises a spring, which is arranged in connection with said drive shaft in such a way that said spring keeps said drive shaft in connection with said set of gears when said torque is below said threshold value. Depending on the design of the chalk line device and the design of the disconnectable link between the drive shaft and set of gears it might be desirable to, in some kind of way, hold the two parts in a connected state. Using a spring is an easy and effective way, since a spring is flexible and can be compressed or stretched when the two parts disconnects. The threshold value of the torque may also be determined by the spring force of the spring. It should be understood that a spring may also be used for embodiments in which said disconnectable force transmitted link is located elsewhere.
- According to at least one exemplary embodiment said spring is compressed when said drive shaft and said set of gears are disconnected and said spring forces said drive shaft and said set off gears back to a connected position together with said second guiding means and second guiding elements. The spring will use its spring force to push the drive shaft and the set of gears back to a connected position. Instead of using a complicated mechanism this may be done automatically by using the spring force.
- According to at least one exemplary embodiment said spring is a coil spring. The coil spring may be a simple coil spring off the shelf which is very cost effective or it may be a specially adapted spring. As an alternative a folded flat spring may be used.
- According to at least one exemplary embodiment said set of gears comprises an internal gear, to which said retracting device is linked, and an external gear, encircled by and in meshed contact with said internal gear, said external gear being linked to said spool. If the retraction device is connected to an internal gear which encircles an external gear, which obvious is smaller than the internal gear, the external gear will rotate faster than the internal gear, i.e. the spool will rotate faster than the retraction device when rewinding the chalk line onto the spool. That is, the set of gears of this kind accomplishes that the rewinding of the chalk line onto the spool is faster than it would be without this kind of set of gears.
- According to at least one exemplary embodiment said threshold value of said torque is defined by the friction and/or the inclination between said inclined surfaces of the first guiding means and first guiding element.
- According to at least one exemplary embodiment said threshold value of said torque is further defined by the spring force of said spring.
- According to at least one exemplary embodiment when said torque exceeds said threshold value, said protrusion of said first connection part disconnects from said protrusion receiving part and due to further exposure of said torque, said protrusion connects with said protrusion receiving part again or another adjacent protrusion receiving part. Due to rotational movement of the drive shaft or the set of gears the parts will disconnects and connects again. The protrusion of the first connection part of the drive shaft disconnects from the protrusion receiving part of the second connection part. Due to the design and due to rotation of the two parts, i.e. the drive shaft and set of gears, the protrusion either connects the same protrusion receiving part again or an adjacent arranged protrusion receiving part. If the drive shaft has only one protrusion, the set of gears may have either one or several protrusion receiving parts. If it only has one protrusion receiving part, the protrusion will connect the same protrusion receiving part. If the set of gears has several protrusion receiving parts, the protrusion will connect the adjacent, in the rotation direction, arranged protrusion receiving part. If the drive shaft has several protrusions and the set of gears has the same number of protrusion receiving parts, the protrusions will jump/slip over to the next adjacent protrusion receiving part which is arranged in the rotation direction.
- Generally, all terms used in the claims are to be interpreted according to their ordinary meaning in the technical field, unless explicitly defined otherwise herein. All references to "a/an/the [element, device, component, means, step, etc]" are to be interpreted openly as referring to at least one instance of said element, device, component, means, step, etc., unless explicitly stated otherwise.
- Other objectives, features and advantages of the present invention will appear from the following detailed disclosure, as well as from the drawings.
- The above, as well as additional objects, features and advantages of the present invention, will be better understood through the following illustrative and non-limiting detailed description of exemplary embodiments of the present invention, with reference to the appended drawings, where the same reference numerals will be used for similar elements, wherein:
-
Fig. 1 shows a chalk line device according to an embodiment of the invention in an exploded perspective view. -
Fig. 2 shows the chalk line device inFig. 1 in a cross-sectional view in perspective. -
Fig. 3a - Fig. 3d shows the connection between the drive shaft and the set of gears in the chalk line device inFig. 1 according to the invention in more detail. However, with more connection parts and receiving parts in order to illustrate the principle more clearly. -
Fig. 4 shows a second embodiment in a perspective view of the connection between the drive shaft and the set of gears in the chalk line device inFig. 1 . - An embodiment of the invention will be described in more detail in the following with reference to the accompanying drawings.
-
Fig. 1 andFig. 2 will be described together for a better understanding. The same numbers are used for the same features.Fig. 1 andFig. 2 show a chalk line device 1 comprising ahousing top part 2a and abottom part 2b. The two parts are connected to each other by fastening means, here in shape ofscrews 3. A retractingdevice 5 is linked to aspool 4 via a set of gears 9. Thespool 4 is mounted inside thehousing spool 4 in a conventional manner. The other end of the chalk line emanates from thehousing chalk line aperture 10. The chalk line may either be coiled onto thespool 4 or uncoiled from thespool 4. Thehousing - A retracting
device 5, here exemplified as a crank 5 for rewinding said chalk line onto to thespool 4, is arranged onto the chalk line device 1 via adrive shaft 6 protruding through thetop part 2a of thehousing housing drive shaft 6 is releasably connected to the set of gears 9, which is arranged inside the housing. The set of gears 9 connects thecrank 5 to thespool 4 in such a way that when thecrank 5 is rotated, thespool 4 is also rotated, however it rotates faster than the crank 5 due to the design of the set of gears 9. The set of gears 9 comprises aninternal gear 11 and anexternal gear 12. Theinternal gear 11 is connected to thecrank 5. Theinternal gear 11 encircles theexternal gear 12, here exemplified as aspur gear 12. The external teeth of thespur gear 12 reside in meshed engagement with theinternal teeth 17 of theinternal gear 11. At its axial centre thespool 4 is formed with an axial aperture of square cross section 28 (SeeFig. 2 ) with acylindrical opening 8 adapted to receive a central,square portion 13 of thespur gear 12. Hence, when thecrank 5 is rotated, i.e. it transmits a force, it rotates theinternal gear 11 with the same speed. Theinternal gear 11 rotates thespur gear 12, which due to the construction, i.e. that theinternal gear 11 has more teeth than thespur gear 12, thespur gear 12 rotates faster that theinternal gear 11 and thespur gear 12 will then rotate thespool 4. - The
drive shaft 6 is, as said above, releasably connected to the set of gears 9 by being in releasable connection with theinternal gear 11. The connection is established by mutually mating portions on thedrive shaft 6 and on theinternal gear 11 which will now be closer described (seefig. 1 ). Thedrive shaft 6 is here exemplified as a cylindrical shaft which on its upper end (not shown infig. 1 ) is connected to the crank 5 by a pivot shaft 7. Thedrive shaft 6 is not limited to be cylindrical, it may have any suitable shape. The drive shaft comprises aconnection part 33 at its lower end. Theconnection part 33 comprises aflange 15, which is protruding from the end portion of thelower part 14 of thedrive shaft 6 andseveral protrusions 18 protruding perpendicular to the centre axis (not shown) of thedrive shaft 6 and from theflange 15 towards the upper end of the shaft and they are uniformly circumferentially arranged around the cylindrical shaft. Eachprotrusion 18 comprises a first guiding means 29 and a second guiding means 26 here exemplified as slanted surfaces. - The
internal gear 11 has a base 16 from which theteeth 17 of theinternal gear 11 protrudes. In the centre point of theinternal gear 11 is anaperture 19 arranged for receiving thedrive shaft 6. Theaperture 19 is so large and a has a suitable shape so that thedrive shaft 6 may protrude, when arranging the upper end into the aperture from the gear part side of theinternal gear 11 without theflange 15 and theprotrusions 18 of thedrive shaft 6 passing through theaperture 19, i.e. theinternal gear 11 is supported by the flange and theprotrusions 18 from underneath. The internal gear comprises aconnection part connection part 33 of thedrive shaft 6, i.e. theprotrusions 18 of thedrive shaft 6. Theconnection part internal gear 11 is aprotrusion receiving part 31, i.e. to receive theprotrusions 18 of saiddrive shaft 6. Theprotrusion receiving part 31 is exemplified as the space betweenseveral protrusions 20, uniformly arranged around theaperture 19 and at the same diameter as theprotrusions 18 of thedrive shaft 6. The number ofprotrusions 20 and the distance between theprotrusions 20 are adapted to the number and width of theprotrusions 18 on thedrive shaft 6. Theprotrusions 18 of the drive shaft shall match or at least fit into the space created between theprotrusions 20 of theinternal gear 11. Theprotrusions 20 of theinternal gear 11 protrudes in the same direction as theteeth 17 of theinternal gear 11, and saidspace 31 created between the protrusions creates the receiving function. However, this is not a limited design. For example, thebase 16 may be so thick that recesses may be arranged in it in order to make a receiving space for theprotrusions 18 of thedrive shaft 6. Theprotrusions 20, i.e. thespace 31 comprises afirst guiding element 27 and asecond guiding element 30 which are mutually matching to said first guiding means 29 and said second guiding means 26 of thedrive shaft 4. Thefirst guiding element 27 and thesecond guiding element 30 are slanted surfaces. - Due to this design the
protrusions 18 of thedrive shaft 6 fits between theprotrusions 20 in a meshing engagement/connection which is established when thedrive shaft 6 is arranged in theaperture 19 of theinternal gear 11 in such a way that theinternal gear 11 is arranged between theprotrusions 18 of thedrive shaft 6 and thetop part 2a of the housing. - The
drive shaft 6 is further in its lower end formed with acentral cavity 22 for accommodating acompression spring 23, for example a coil spring which extends downwardly and is seated in aspring holding arrangement 24, which is part of acircular cover 25 which encloses at least partly the set of gears 9 in order to avoid chalk in the set of gears 9. - The
spring holding arrangement 24 is a circular protruding portion wherein thespring 23 is seated. Hence, thespring 23 is sandwiched between thedrive shaft 6 and thespring holding arrangement 24. When thedrive shaft 6 is connected to the internal gear the compression spring is under pressure in order to hold the connected position. Thecover 25 is arranged between the set of gears 9 and thespool 4 and it is fixed arranged byscrews 32 to thetop part 2a of the housing. Thespring holding arrangement 24 and thecover 25 is not limited to the described design. It may have any suitable design and be attached in any suitable way. - When the
crank 5 is being rotated in order to rewind the chalk line, thedrive shaft 6 will rotate, i.e. transmit a force on theinternal gear 11 through the connection described above. Thespur gear 12, which is arranged at a predetermined distance from the centre axis of theinternal gear 11 and in meshing contact with theteeth 17 of theinternal gear 11 will rotate when theinternal gear 11 rotates, i.e. theinternal gear 11 transmits the force to theexternal gear 12, which transmit the force further to the spool, which will rotate due to their connection wherein the chalk lines is rewounded i.e. coiled up. - If the chalk line gets caught when rewinding the chalk line the
drive shaft 6 disconnects from theinternal gear 11. This will be further explained in connection toFig. 3a - Fig. 3d . -
Fig. 3a shows thedrive shaft 6 in connection with theinternal gear 11. Thecompression spring 23 is sandwiched between thedrive shaft 6 and the spring holding arrangement 24 (only partly shown) and is under pressure to hold the drive shaft and the internal gear in a connected state. The spring is, as described above, arranged in a central cavity (not shown) and attached in a suitable manner. It may however be loosely fitted inside the cavity so that the spring can the move, i.e. rotate. -
Fig. 3b and Fig. 3c show how thedrive shaft 6 disconnects from theinternal gear 11. When the chalk line is being rewinded by the crank and if the chalk line gets caught during rewinding, the rewinding force increases. When the spool is exposed to a torque which exceeds a threshold value the force transmitting link between thedrive shaft 6 and theinternal gear 11 disconnects. The threshold value of the torque is here determined by the spring, i.e. the spring force and the inclination of and the friction force between theslanted surfaces 29 of theprotrusions 18 and theslanted surfaces 27 of theinternal gear 11. Theprotrusions 18 with theirslanted surfaces 29, i.e. first guiding means 29 starts to slide on the adjacentslanted surfaces 27 i.e. first guidingelements 27 of theprotrusions 20 of theinternal gear 11, simultaneously as the spring is being compressed (seeFig. 3b ) between thedrive shaft 6 and the spring holding arrangement.Fig. 3c shows when theprotrusions 18 of thedrive shaft 6 are totally disconnected from theinternal gear 11. Thedrive shaft 6 has been moved from a connected position with theinternal gear 11 to a disconnected position. When and if the user continues trying to rewind the chalk line thedrive shaft 6 goes back again to the connected position. The spring is in this disconnected position in a compressed state. -
Fig. 3d shows this, i.e. what happens when the user of the chalk line device further rotates the crank inFig. 1 and2 . Theprotrusions 18 of thedrive shaft 6 will connect theinternal gear 11 again, however an adjacent lying protrusion receiving part 33 (sefig. 2 ) due to the second slantedsurface 26 i.e. second guiding means 26 starts to slide on the adjacentslanted surfaces 30 i.e. second guidingelement 30 and due to compressedspring 13 which wants to go back to its relaxed state. The connection and disconnection procedure continues until the user stops rotating the crank. - Due to this disconnecting/connecting procedure the
spool 4 will stop rewinding the caught chalk line and thereby avoiding breakage of the chalk line. Further the user will hear an indicating sound from the chalk line device 1 when it continues to disconnect and connect again until he stops rotating thecrank 5. - The corresponding when the chalk line is in use, i.e. drawn out and someone stumble over the chalk line. The
crank 5 is then usually kept in a locked position (seefig. 2 ), i.e. it cannot rotate. Consequently, the drive shaft is also locked and it is in a connected position with theinternal gear 11. If someone pull the chalk line and if the torque exceeds the threshold value, the spring starts to get compressed, theprotrusions 20 with its slanted surfaces starts to slide on the adjacent slanted surfaces of theprotrusions 18 of thedrive shaft 6, simultaneously as the spring is being compressed (seeFig. 3b and Fig. 3c ) as described above. Theinternal gear 11 moves from a connected position with thedrive shaft 6 to a disconnected position. When and if the pulling continues theprotrusions 20 of theinternal gear 11 will connect thedrive shaft 6 again due to that the slanted surface starts to slide on the adjacent slanted surfaces and due to the compressed spring which wants to go back to its first connected state as described above. The connection and disconnection procedure continues until the pulling stops. - When the chalk line is being drawn out, i.e. when it shall be used, the
crank 5 is either in its locked position as shown inFig. 2 or in a rewinding position (not shown) i.e. pivoted upwards from its locked position. When thecrank 5 is in its locked position (which is the normal position) and the chalk line is being drawn out, thespool 4 and thespur gear 12 rotates theinternal gear 11 and since thecrank 5 is locked thedrive shaft 6 is also locked. When the torque exceedes the threshold value, the same happens as explained above. - However, mostly the user presses the drive shaft downwards, i.e. against the spring so that the drive shaft is in a disconnected position while the chalk line is being pulled out. When the user release the drive shaft the drive shaft connects the set of gears again and the disconnection mechanism as described above can be used.
-
Fig. 4 shows a second embodiment of the connection/link betweendrive shaft 6 and theinternal gear 11. Thedrive shaft 6 comprisesthin protrusions 118 which are protruding perpendicular to the central axis (not shown) of the drive shaft. Theinternal gear 11 of the set of gears has a receivingpart protruding part 120 withspaces 130 for receiving thethin protrusions 118. Eachspace 130 has asurface 135 which onethin protrusion 118 connects with. When the retracting device is rotated, in order to rewind the chalk line onto the spool, thethin protrusions 118 push theinternal gear 11 due to the connection between theprotrusions 118 and thesurface 135 in a rotational movement. When the torque exceeds the threshold value, thethin protrusions 118 bend, due to its design, and they pass theengagement surface 130. Hence, the retracting device and theinternal gear 11 disconnects until thethin protrusions 118 reach the next space, where they connects again. - The invention has mainly been described above with reference to a few embodiments. However, as is readily appreciated by a person skilled in the art, other embodiments than the ones disclosed above are equally possible within the scope of the invention, as defined by the appended patent claims.
Claims (14)
- A chalk line device (1) comprising a spool (4), a set of gears (9),
a retracting device (5) which is linked to said spool (4) via said set of gears (9), wherein said retracting device is a rotatable crank,
a chalk line which is attached to said spool (4) and which may either be coiled onto said spool (4) or uncoiled from said spool (4),
said set of gears (9) and said spool (4) being rotatably disposed inside a housing (2a, 2b) to rewind the uncoiled chalk line when said retracting device (5) transmits a force onto said spool (4) via said set of gears (9)
characterized in that
when said spool (4) is exposed to a torque which exceeds a threshold value at least one force transmitting link between said retracting device (5) and said spool (4) disconnects and reconnects, and the disconnection and reconnection procedure continues until a user stops rotating said crank. - A chalk line device (1) according to claim 1, wherein
said retracting device (5) comprises a drive shaft (6) which comprises at least a first connection part (33), which connects said retracting device (5) to said set of gears (9),
said set of gears (9) comprises a mutually matching second connection part (20, 31) adapted to connect with said connection part (33) of said drive shaft (6), wherein said force transmitting link, which is disconnectable, is between said drive shaft and said set of gears. - A chalk line device (1) according to claim 2, wherein said first connection part (33) of said drive shaft (6) comprises at least one protrusion (18) which protrudes perpendicular to a centre axis of said drive shaft (6) and said mutually matching second connection part (20, 31) of said set of gears comprises at least one protrusion receiving part (31) into which said protrusion (18) of said drive shaft (6) at least partly fits or matches.
- A chalk line device (1) according to claim 3, wherein
said protrusion (18) of said first connection part (33) of said drive shaft (4) comprises a first guiding means (29), and
said receiving part (20, 31) comprises mutually matching first guiding elements (27) to said first guiding means (29), and
when said torque exceeds said threshold value said first guiding means (29) and said first guiding element (27) guides said drive shaft (6) and said set of gears (9) to move from their connected position to a disconnected position. - A chalk line device (1) according to claim 4, wherein
said protrusion (18) of said first connection part (33) of said drive shaft (6) comprises a second guiding means (26), and
said second connection part (20, 31) of said set of gears (9), comprises a mutual matching second guiding element (30) to said second guiding means (26), wherein said second guiding means (26) and said second guiding elements (27) guides said drive shaft (6) and said set of gears (9) back from their disconnected position to a connected position. - A chalk line device (1) according to claim 4, wherein said first guiding means (29) and first guiding element (27) each comprise an inclined surface on said protrusion and on said protrusion receiving part.
- A chalk line device (1) according to claim 5, wherein said second guiding means (26) and second guiding elements (30) each comprise an inclined surface on said protrusion and on said protrusion receiving part.
- A chalk line device (1) according any one of claims 2-7, wherein
said chalk line device (1) further comprises a spring (23), which is arranged in connection with said drive shaft (6) in such a way that said spring (23) keeps said drive shaft (6) in connection with said set of gears (9) when said torque is below said threshold value. - A chalk line device (1) according to claim 8 in combination with claim 5 or 7, wherein said spring (23) is compressed when said drive shaft (6) and said set of gears (9) are disconnected and said spring (23) forces said drive shaft and said set off gears (9) back to a connected position together with said second guiding means (26) and second guiding elements (30).
- A chalk line device (1) according to claim 8 or 9, wherein said spring (23) is a coil spring.
- A chalk line device (1) according to any one of preceding claims, wherein
said set of gears (9) comprises
an internal gear (11), to which said retracting device (5) is linked, and
an external gear (12), encircled by and in meshed contact with said internal gear (11), said external gear being linked to said spool (4). - A chalk line device (1) according any one of the claims 8-11 in combination with claim 6, wherein said threshold value of said torque is defined by the friction and/or the inclination between said inclined surfaces (29, 27) of the first guiding means (29) and first guiding element (27).
- A chalk line device (1) according to claim 8 or any of the claims 9-12 in combination with claim 8, wherein said threshold value of said torque is defined by the spring force of said spring (13).
- A chalk line device (1) according to any one of claims 3-13, wherein, when said torque exceeds said threshold value, said protrusion (18) of said first connection part (33) disconnects from said protrusion receiving part (31) and due to further exposure of said torque, said protrusion (18) connects with said protrusion receiving part (31) again or another adjacent protrusion receiving part (31).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
EP20100173271 EP2420388B1 (en) | 2010-08-18 | 2010-08-18 | A chalk line device with means for preventing chalk line breakage |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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EP20100173271 EP2420388B1 (en) | 2010-08-18 | 2010-08-18 | A chalk line device with means for preventing chalk line breakage |
Publications (2)
Publication Number | Publication Date |
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EP2420388A1 EP2420388A1 (en) | 2012-02-22 |
EP2420388B1 true EP2420388B1 (en) | 2013-07-17 |
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EP20100173271 Active EP2420388B1 (en) | 2010-08-18 | 2010-08-18 | A chalk line device with means for preventing chalk line breakage |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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US10245881B2 (en) | 2014-10-02 | 2019-04-02 | Milwaukee Electric Tool Corporation | Chalk line device |
Families Citing this family (2)
Publication number | Priority date | Publication date | Assignee | Title |
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CN111936319B (en) | 2018-02-12 | 2023-06-27 | 米沃奇电动工具公司 | Chalk reel |
USD902757S1 (en) | 2018-08-20 | 2020-11-24 | Milwaukee Electric Tool Corporation | Chalk reel |
Family Cites Families (4)
Publication number | Priority date | Publication date | Assignee | Title |
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DE2826000A1 (en) * | 1977-06-16 | 1979-01-04 | Stanley Mabo | TAPE MEASURE WITH AUTOMATIC REEL |
US5470029A (en) * | 1994-08-10 | 1995-11-28 | Johnson Level & Tool Mfg. Co., Inc. | Quick rewind chalk line reel |
US7311283B2 (en) * | 2004-12-31 | 2007-12-25 | Irwin Industrial Tool Company | Chalk line device |
US8033029B2 (en) * | 2007-12-19 | 2011-10-11 | Design To Manufacturing, Inc. | Multi-reel marking apparatus |
-
2010
- 2010-08-18 EP EP20100173271 patent/EP2420388B1/en active Active
Cited By (1)
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US10245881B2 (en) | 2014-10-02 | 2019-04-02 | Milwaukee Electric Tool Corporation | Chalk line device |
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