The invention relates to a utility knife.
A utility knife of this kind is known from U.S. Pat. No. 9,370,869. This utility knife comprises a blade support holding a blade and mounted on a housing by two links such that the blade support is movable between a safety position in which the blade is recessed in the housing and a cutting position in which the blade projects from the housing. The housing, the link and the blade support form a four-bar linkage. The links are arranged so as to be mutually parallel as a result of which the utility knife forms a parallelogrammatic four-bar linkage.
The object of the invention was that of providing a utility knife that has advantageous properties with respect to the course of movement of the blade support.
The object is attained by a utility knife comprising a lever and a housing that is mounted so as to be able to perform a relative movement with respect to the lever. By relative movement between the lever and the housing, the blade assembly can be moved for example between the rear end position and the front end position. Alternatively, owing to the relative movement of the lever with respect to the housing, the blade assembly can be moved between the rear end position and a position between the rear end position and the front end position.
The utility knife further comprises a blade assembly. The blade assembly comprises for example a blade support and a blade that is held on the blade support. Alternatively, the blade assembly may also merely comprise a blade.
Furthermore, the utility knife comprises an actuator. The blade can be moved between at least one rear end position and at least one front end position using the actuator. The rear end position is for example a safety position, and the front end position is for example a cutting position. In the safety position, the blade is received in a housing such that the user cannot injure themselves. In the cutting position, the blade projects from the housing such that it is possible to perform a cutting process.
The actuator comprises at least one first link and one second link, wherein each link together with the blade assembly and with the lever or with the housing forms a pivot such that a mechanical linkage is formed. The blade is for example directly or indirectly connected to the links. For example, the blade is firmly held in a blade holder. The links in each case form a pivot, for example together with the blade holder. According to an alternative, each link forms a pivot directly together with the blade.
The blade assembly and the link are guided for example only by the pivots. According to an alternative, the blade assembly and the link are guided only by the pivots on the lever and by one pivot of a brace or support element that connects the link to the housing. The pivots are formed as revolute pivots for example. In this way, the blade assembly is guided with respect to all spatial directions during movement between the rear position and the front position.
The features according to the invention make it possible for the blade support to be moved between the rear end position and the cutting position in an imaginary enveloping tunnel having a small cross-sectional area. As a result, a small housing can be constructed that simultaneously forms a handle.
The above-mentioned features furthermore make it possible to achieve significant movement in relation to the operating movement.
The guidance by the pivots means that there is little friction, as a result of which effortless movement between the rear position and the front position takes place.
The actuator forms for example a four-bar linkage. The lever and the blade assembly are for example part of the four-bar linkage. Two links for example connect the lever and the blade assembly. In addition to the four-bar linkage, the mechanical linkage may also comprise further links. For example, the housing is likewise part of the mechanical linkage. The housing can for example also form a link. The housing is for example directly or indirectly movably connected to the four-bar linkage.
For example, at least one pair of links of the four-bar linkage are mutually parallel. Two links that interconnect the lever and the blade assembly are parallel for example. In this case, for example a parallelogram four-bar linkage can be formed.
According to an alternative, the links of the mechanical linkage are not arranged so as to be parallel. For example, the mechanical linkage may comprise an asymmetrical four-bar linkage. An asymmetrical four-bar linkage makes it possible for movement path of the blade assembly to be changed during movement between the rear position and the front position. These features make it possible for the blade to move between the safety position and the cutting position in a narrow movement tunnel.
According to an embodiment, at least two links of the mechanical linkage are of different lengths. For example, two links that interconnect the lever and the blade are of different lengths. These features too make it possible for movement path and the position of the blade relative to the lever and/or the housing to be changed.
Each link of the actuator for example has just one direction of rotation during movement between the safety position and the cutting position. In other words, each link maintains the direction of rotation thereof and does not change the direction of rotation thereof during movement between the safety position and the cutting position.
According to an embodiment, at least two links of the actuator have the same direction of rotation during movement between the safety position and the cutting position. That is to say that the direction of rotation of one link has the same rotational orientation at least with respect to the direction of rotation of a second link.
An embodiment is characterized in that the blade assembly performs just a small pivot movement of α<45° or of α<30° or of α<10° or of α<5° during movement between the rear end position and the front end position. This feature ensures that the housing can be designed so as to be slim. Furthermore it is possible for the blade to carry out just a small angular change after emerging from the housing. This means that the risk of injury is low. In the case of knives from the prior art, the blade performs a large rotational movement of for example 50° after emerging from the housing. There was a relatively high risk of injury in the case of these knives.
Alternatively, for example the housing is displaceable relative to the lever.
The lever or the housing forms for example at least one slide that is movable relative to the other part in each case, i.e. relative to the housing or the lever. The slide is movably connected to the blade support. The slide is for example connected to the blade assembly or to at least one link or can be brought into contact with the blade such that the blade is movable between the safety position and the cutting position. For example, a slide for actuating the blade is provided on the opposite face of the utility knife. Alternatively, a slide may be provided on three utility knife faces, for example on the back of a utility knife and on opposite flanks of the utility knife. According to an alternative, the slide may also be molded onto the blade support or integrally connected thereto. The user can move the blade support by the slide.
According to an alternative, the housing is formed by a lever that together with the lever forms a pivot. The lever acts for example on the blade assembly or on at least one link of the actuator. In this way, for example, the lever and the housing can form a pincer-like actuator. The lever and the housing can for example be formed by two hingedly interconnected handle parts that are movable in the manner of pincers.
According to an embodiment, the blade is recessed in the housing in the safety position such that a user cannot come into contact with the cutting edge. It is important here for the housing to prevent injury on the blade. Impairment of the functional parts can also be prevented by the housing. The housing therefore does not have to be completely closed. It just simply fulfil the above-mentioned functions. The function can be fulfilled by a wire framework for example. The housing should for example be designed such that it can function as a handle of the utility knife. For example, the housing should be designed such that the user can firmly hold the handle and optionally grip all around the handle in the process without changing his grip during movement of the blade between the rear end position and the front end position.
In order to achieve this, it is advantageous for the blade to emerge from the housing only in a small region of the housing such that the blade can move out of the housing in this region without impeding the user when this user holds the utility knife by the handle.
In order to move the mechanical linkage, the housing is directly or indirectly movably connected to the mechanical linkage. For example, two links are connected to the lever and to the blade assembly in each case by a pivot. A support element is for example connected to the link of the mechanical linkage and to the housing such that a torque is generated about one of the pivots of the mechanical linkage during a relative movement between the lever and the housing, which torque moves the mechanical linkage. In this manner, the blade is movable for example between the end positions.
According to an embodiment, the lever is pivotable relative to the housing out of a home position in a first direction into an actuated position in order to move the blade support into the cutting position.
Further advantages will become clear from the description of an embodiment that is shown schematically in the drawings. In the drawings:
Two embodiments of the invention are described by way of example in the following description of the figures, again with reference to the schematic drawings. In this case, for the sake of clarity, even in relation to different embodiments, the same or comparable parts or elements or regions are denoted by the same reference signs, sometimes with the addition of small letters.
Features that are described, shown or disclosed only in one embodiment can also be provided within the context of the invention in any other embodiment of the invention. Embodiments amended in this way are also covered by the invention, even if they are not shown in the drawings.
All the features disclosed are essential to the invention in their own right. The entire scope of the content of the disclosure of the cited documents and the described devices of the prior art is hereby also incorporated in the disclosure of the application, also for the purpose of incorporating individual or a plurality of features of the subjects disclosed therein into one or into a plurality of aspects of the present application. Embodiments amended in this way too are also covered by the invention, even if they are not shown in the drawings.
According to
The housing 12 forms a chamber 13. The housing 12 protects the user from injury from a cutting edge 39 of the utility knife 10 when the cutting edge 39 is inside the chamber 13 and from injury on functional parts. Furthermore, the utility knife is protected from impairment of the mechanism such that reliable functioning is ensured.
The housing 12 has a front end 35 and a rear end 36. Furthermore, the utility knife forms an upper edge 37 and a lower edge 38. In this embodiment, the housing 12 is provided with openings 33 and 34. The opening 33 is at the front end 35 and is intended for the emergence of a blade 16. The opening 34 is formed on the lower edge 38 and allows for links 17 and 18 to extend through the edge of the housing 12.
The utility knife 10 is provided with a blade assembly that comprises the blade 16 and a blade support 15. The blade 16 is held firmly on the blade support 15 so as to be immovable relative to the blade support 15. The blade 16 can be released from the blade support 15 and replaced by another blade.
The utility knife 10 furthermore comprises an actuator that can move the blade assembly relative to the lever 11 and to the housing 12 between a rear end position and a front end position. The actuator comprises the links 17 and 18. The link 17 forms together with the lever 11 a lower pivot G2 having a lower axis a2 and together with the blade support 15 an upper pivot G3 having an upper axis a3. The link 18 forms together with the lever 11 a lower pivot G4 having a lower axis a4 and together with the blade support 15 and another upper pivot G7 having an upper axis a5. Alternatively, the links 17 and 18 can also form a pivot directly with the blade 16.
A brace 14 (see
The pivot axes a1 to a7 of the pivot pivots G1 to G7 are oriented so as to be substantially at right angles to a longitudinal axis m1 of the housing 12. The pivot G1 (see
The lower pivot G2 is formed by a trunnion 21 of the lever 11 that engages in an end hole 22 in the link 17, and the upper pivot G3 is formed by a trunnion 23 of the blade support 15 that engages in another end hole 24 in the link 17. Furthermore, the lower pivot G4 is formed by a trunnion 25 of the lever 11 that engages in an end hole 26 in the link 18, and the upper pivot G5 is formed by a trunnion 27 of the blade support 15 that engages in an end hole 28 in the link 18.
The brace 14 has a trunnion 29 that engages in a hole 30 of the link 18 in order to form the pivot G6 and an axle 31 that is fastened at both ends on opposing walls of the housing 12 and that passes through a hole 32 of the brace 14 to form the pivot G7.
It can be seen in
A spring 19 is supported by its one end 40 (see
In this way, the blade assembly comprising the blade support 15 and the blade 16 can be moved relative to the lever 11 between the front end position and the rear end position using the actuator. The lever 11, the blade support 15 and the links 17 and 18 form a mechanical linkage. The blade support 15 can be moved relative to the lever 11 through a coupler curve between a rear end position and a front end position. The blade support 15 is mounted exclusively on the links 17 and 18, i.e. it has no direct contact with the housing 12 during movement between the rear and the front end position.
The front end position is a cutting position in which the blade 16 projects out of the housing 12 such that a cutting process can be performed, and the rear end position is a safety position in which the cutting edge 39 of the blade 16 is protected by the housing 12 so as to be inaccessible to a user. The safety position is shown in
In the case of a movement of the housing 12 relative to the lever 11 in the direction u1 the brace 14 applies a force against the link 18 that pivots the link 18 relative to the housing 12 about the axis a4 in the direction v2. In the process, as a result of the motion coupling of the mechanical linkage, the link 17 is also pivoted relative to the housing 12 about the axis G2 in the direction w2. The two links 17 and 18 also move the blade assembly through the coupler curve.
In the cutting position according to
This action provides the advantage that the housing can be designed so as to be relatively slim. Furthermore, an advantage is achieved with respect the safety of the utility knife because the blade emerges from the lever only through a narrow slot, specifically the utility knife opening 33. After the blade 16 has emerged from the housing-like housing 12, the blade 16 executes just a slight rotational movement.
The functional sequence will be described in the following:
When the utility knife 10 is actuated in the rear end position of the blade support 15, i.e. in the case of relative movement of the lever 11 with respect to the housing 12 in the direction u1, the brace 14 applies a force to the pivot G6 that generates a torque in the link 18 about the axis G4 in the direction v2 and moves the link 18 in the direction v2. In the case of rotation of the link 18 about the pivot G4 in the direction v2, the link 17 that is movably connected by the mechanical linkage moves about the pivot G2 in the angular direction w2. In the process, the blade support 15 is moved counter to the restoring force of the spring 19 into the cutting position in the direction x1 over a movement path (or coupler curve) that is brought about by the four-bar linkage, and the link 17 rotates about the axis a3 in the direction p2 and the link 18 rotates relative to the blade support 15 about the axis a5 in the direction q2.
When the lever 11 and the housing 12 are unloaded, the spring 19 relaxes such that the link 18 pivots about the axis a4 in the direction v1 and the link 17 pivots about the axis a2 in the direction w1. The link 17 pivots relative to the blade support about the axis a3 in direction p1 and the link 18 pivots relative to the blade support 15 about the axis a5 in direction q1. The brace 14 moves the housing 12 relative to the lever 11 in the direction u1. In the process, the blade support 15 moves back into the safety position in the direction x2.
A second embodiment of the utility knife according to the invention is shown in
The utility knife 110 comprises a housing 111 that forms the lever within the meaning of the invention, and an actuator comprising actuation attachments 112a and 112b. The actuator forms the housing within the meaning of the invention. The housing 111 forms a chamber 113 holding a movable blade support 115 carrying a blade 116. The housing 111 comprises a front end 135 and a rear end 136. Furthermore, the utility knife forms an upper edge 137 and a lower edge 138.
The blade support 115 is movable between a rear end position (see
The actuation attachments 112a and 112b are actuated via arcuate thoroughgoing guide slots 147a and 147b in the housing 111. The fact that the user moves the blade support 115 forward in a direction x1 via the actuation attachments 112a or 112b causes the blade assembly comprising the blade support 115 and the blade 116 to be displaced out of the safety position shown in
The blade assembly can be moved between the rear end position and the front end position using an actuator. The actuator comprises links 117 and 118. The link 117 forms together with the housing 112 the lower pivot G2 having the axis a2 and together with the blade assembly, or in this embodiment the blade support 115, the upper pivot G3 having the axis a3. The link 118 forms together with the housing 112 the lower pivot G4 having the axis a4 and together with the blade assembly the upper pivot G5 having the axis a5. According to an alternative, the blade support 115 could also be omitted and the links 117 and 118 would in this case pivot directly on the blade 116.
The lower pivot G2 is formed by a trunnion 121 of the housing 112 that engages in a hole 122 in the link 117, and the upper pivot G3 is formed by a trunnion 123 of the blade support 115 that engages in a hole 124 in the link 117. Furthermore, the lower pivot G4 is formed by a trunnion 125 of the lever 111 that engages in a hole 126 in the link 118, and the upper pivot G5 is formed by a trunnion 127 of the blade support 115 that engages in a hole 128 in the link 118. The spacing between the pivots G3 and G5 is smaller than between the pivots G2 and G4.
The utility knife 110 thus forms a mechanical linkage (see
The blade support 115 is guided through a coupler curve by the mechanical linkage so that the blade support assumes a defined position at each point of the coupler curve. During movement between the rear end position and the front end position, the blade support does not need to be guided on the lever 111. In the present embodiment, the blade support 115 is guided exclusively by the links 117 and 118. Only in the case of elastic deformation of the links 117 and 118 owing to high loading of the blade 116, is it possible that the blade support 115 may be supported on the inside wall of th housing formed by the lever 111.
The coupler curve is designed such that a straight line m2 through the pivots G3 and G5 pivots by no more than 45° during movement between the rear end position and the front end position. This feature ensures that the housing 112 is designed so as to be relatively slim such that the housing 112 can be easily held by one hand and that the blade 116 performs just a small pivot movement after emerging from the opening 133 as a result of which increased safety is achieved.
A spring 119 is supported on the housing 111 by one spring end 140 and on the link 118 by another spring end 141. The link 118 is urged by the spring 119 in the direction v2 and the entire mechanical linkage including that of the blade support 115 is urged into the rear end position.
The mode of operation of the utility knife 110 will be described in the following:
Actuation of the blade support via one of the actuation attachments 112a or 112b moves the blade assembly between the rear end position and the front end position with the link 117 pivoting relative to the housing 111 about the axis a2 in the direction w2 and the link 118 pivoting relative to this housing about the axis a4 in the direction v2. The blade support 115 pivots relative to the link 117 about the axis a3 and relative to the link 118 about the axis a5. In the process, the blade support 115 and the blade 116 fastened therein are moved along the coupler curve and into the cutting position counter to the restoring force of the spring 119.
When the actuation attachment 112a or 112b is released, the spring 119 moves the link 118 in the direction v1 and the link 117 moves in the direction w1. In the process, the blade support is moved along coupler curve in the direction x2 and back into the rear end position.
Number | Date | Country | Kind |
---|---|---|---|
102018117203.6 | Jul 2018 | DE | national |
Number | Name | Date | Kind |
---|---|---|---|
3641667 | Leopoldi | Feb 1972 | A |
4683656 | Peyrot | Aug 1987 | A |
4713885 | Keklak | Dec 1987 | A |
4757612 | Peyrot | Jul 1988 | A |
5303474 | Keklak | Apr 1994 | A |
6148520 | Berns | Nov 2000 | A |
6487778 | Gringer et al. | Dec 2002 | B1 |
6643936 | Carlson | Nov 2003 | B2 |
6813833 | Saunders | Nov 2004 | B2 |
6898858 | Spell | May 2005 | B1 |
8056241 | Davis | Nov 2011 | B2 |
8122605 | Votolato | Feb 2012 | B2 |
8220160 | Davis | Jul 2012 | B2 |
8250764 | Davis | Aug 2012 | B2 |
8307556 | Davis | Nov 2012 | B2 |
8347509 | Votolato | Jan 2013 | B2 |
8353109 | Rohrbach | Jan 2013 | B2 |
8707566 | Rohrbach | Apr 2014 | B2 |
8732957 | Rohrbach | May 2014 | B2 |
8752297 | Rohrbach | Jun 2014 | B2 |
8776380 | Quimby | Jul 2014 | B1 |
8931180 | Davis | Jan 2015 | B2 |
9003668 | Landwehr | Apr 2015 | B2 |
D743235 | Rohrbach | Nov 2015 | S |
9174347 | Hongquan et al. | Nov 2015 | B2 |
9370869 | Hongquan et al. | Jun 2016 | B2 |
9808941 | Jacobs | Nov 2017 | B2 |
9908247 | Herlitz | Mar 2018 | B2 |
10245736 | Huang | Apr 2019 | B2 |
10583572 | Herlitz | Mar 2020 | B2 |
10800053 | Liu | Oct 2020 | B1 |
10994429 | Wang | May 2021 | B2 |
10994434 | Rohrbach | May 2021 | B2 |
11084178 | Huang | Aug 2021 | B2 |
11097434 | Hooper | Aug 2021 | B2 |
11254020 | Liu | Feb 2022 | B2 |
11376751 | Rohrbach | Jul 2022 | B2 |
11446834 | Liu | Sep 2022 | B2 |
20020124418 | Votolato | Sep 2002 | A1 |
20030154606 | Saunders et al. | Aug 2003 | A1 |
20040237312 | Hernandez et al. | Dec 2004 | A1 |
20080163493 | Votolato | Jul 2008 | A1 |
20080282547 | Leger | Nov 2008 | A1 |
20100088900 | Davis et al. | Apr 2010 | A1 |
20100319200 | Davis et al. | Dec 2010 | A1 |
20110035947 | Rohrbach | Feb 2011 | A1 |
20130185943 | Landwehr | Jul 2013 | A1 |
20130239415 | Wagner | Sep 2013 | A1 |
20160279811 | Huang et al. | Sep 2016 | A1 |
20160325442 | Herlitz | Nov 2016 | A1 |
20170203448 | Jacobs et al. | Jul 2017 | A1 |
20180311839 | Huang | Nov 2018 | A1 |
20200338767 | Rohrbach | Oct 2020 | A1 |
Number | Date | Country |
---|---|---|
20210670 | Sep 2002 | DE |
20210670 | Oct 2002 | DE |
202015102604 | Jul 2015 | DE |
1946897 | Jul 2008 | EP |
2 314 430 | May 2017 | EP |
Entry |
---|
European Search Report for European Publication EP 3597379, dated Oct. 18, 2019. |
European Search Opinion for European Publication EP 3597379, dated Oct. 18, 2019. |
English translation of European Search Report for European Publication EP 3597379, dated Oct. 18, 2019 (machine translation using Google Translation), 3 documents corresponding to 3 pages of translation. |
Number | Date | Country | |
---|---|---|---|
20200023528 A1 | Jan 2020 | US |