This application is based upon and claims the benefit of priority from the prior Japanese Patent Application No. 2006-141292 filed on May 22, 2006, the entire contents of which are incorporated herein by reference.
1. Technical Field
The present disclosure relates to a walking foot which is attached to a lower end of a presser bar in a sewing machine so as to be located at an upper side of workpiece cloth, thereby feeding the workpiece cloth placed at an upper side of a needle plate in synchronization with a feed dog provided on a sewing bed.
2. Description of the Related Art
In quilting, two pieces of workpiece cloth are sewn so as to be combined together with cotton being stuffed therebetween using a sewing machine. In this case, an operator conventionally attaches a walking foot to a lower end of a presser bar of the sewing machine so that the upper workpiece cloth is fed by the walking foot in synchronization with the lower workpiece cloth, whereupon the upper workpiece cloth can be prevented from sewing slippage relative to the lower workpiece cloth.
For example, JP-A-H03-143475 discloses a cloth feeding device for a sewing machine comprising a holder having side plates covering right and left sides thereof, an operating lever which is mounted on the holder so as to be vertically movable, an upper feed dog mounted on the holder and a presser foot which is mounted on an engagement shaft supported on arm portions of side plates so as to be swingable. In quilting, the operating lever is swung upward in synchronization with rise of the needle bar so that the upper feed dog is lowered thereby to press the workpiece cloth from above. In this state, the upper feed dog is actuated to feed the upper workpiece cloth in synchronization with a lower feed dog, whereupon the upper workpiece cloth can be prevented from sewing slippage relative to the lower workpiece cloth.
It is desired that a plurality of types of presser feet used in the walking foot should be prepared according to sewing manners of quilting and types of workpiece cloth so that sewing can be carried out while the presser foot is changed by the operator to a suitable one according to a sewing manner and a type of workpiece cloth. In the above-described cloth feeding device, however, the side plates have the right and left arm portions supporting the presser bar at both sides of the latter so that the presser bar is swung. Since the side plates are fixed to the holder, there is a problem that the presser foot cannot be changed to another one.
Therefore, an object of the present disclosure is to provide a walking foot for the sewing machine, which has a simple structure and includes a presser foot which can be replaced by another one easily and quickly.
The present disclosure provides a walking foot for a sewing machine including a needlebar movable vertically. The walking foot is detachably attached to a lower end of a presser bar and comprises a presser foot provided with a pair of right and left engagement supported portions, an upper feed dog feeding workpiece cloth in synchronization with vertical movement of the needlebar, a supporting member fixed to the lower end of the presser bar and provided with a pair of right and left engagement supporting portions supporting the presser foot, a swing supporting mechanism which engages the engagement supporting portions of the supporting member with the engagement supported portions of the presser foot from horizontally outside respectively so that the presser foot is supported on the supporting member so as to be swingable, and a disengaging mechanism which moves at least one of the engagement supporting portions horizontally outward from an engagement position where said at least one engagement supporting portion is in engagement with the engagement supported portion of the presser foot, thereby being capable of switching said at least one engagement supporting portion to a disengagement position where said at least one engagement supporting portion is disengaged from the engagement supported portion of the presser foot.
In the above-described construction, the disengaging mechanism is capable of moving at least one engagement supporting portion horizontally outward from an engagement position where the engagement supporting portion is in engagement with the engagement supported portion of the presser foot to the disengagement position where the engagement supporting portion is disengaged from the engagement supported portion of the presser foot. Accordingly, the presser foot can easily be disengaged from the engagement support portion of the supporting member thereby to be detached from the supporting member when at least one engagement supporting portion is just moved horizontally outward from the engagement position to the disengagement position. Furthermore, the direction in which the engagement supporting portion is switched between the engagement position and the disengagement position is horizontal, whereas pressing load is applied vertically to the presser foot. Accordingly, the engagement supporting portion can be prevented from being switched from the engagement position to the disengagement position by the action of the pressing load. More specifically, the engagement supporting portion can reliably be held at the engagement position during sewing.
The disclosure also provides a walking foot for a sewing machine including a needlebar movable vertically. The walking foot is detachably attached to a lower end of a presser bar and comprises a presser foot provided with a pair of engagement supported portions, an upper feed dog feeding workpiece cloth in synchronization with a vertical movement of the needlebar, a supporting member fixed to the lower end of the presser bar and provided with a pair of engagement supporting portions supporting the presser foot, a swing supporting mechanism which engages the engagement supporting portions of the supporting member with the engagement supported portions of the presser foot from horizontally outside respectively so that the presser foot is supported on the supporting member so as to be swingable, and a disengaging mechanism capable of switching at least one of the engagement supporting portions from an engagement position where said at least one engagement supporting portion is in engagement with the engagement supported portion of the presser foot to a disengagement position where said at least one engagement supporting portion is disengaged from the engagement supported portion of the presser foot.
In the above-described construction, the presser foot can be disengaged from the engagement support portion of the support when at least one engagement support portion is just switched from the engagement position where the engagement supporting portion is in engagement with the engagement supported portion to the disengagement position where the engagement supporting portion is disengaged from the engagement supported portion. Consequently, the presser foot can easily be detached from the supporting member.
Other objects, features and advantages of the present disclosure will become clear upon reviewing the following description of the illustrative example with reference to the accompanying drawings, in which:
A first illustrative example of the present disclosure will be described with reference to
A sewing machine walking foot 1A is detachably attached by a screw (not shown) to the lower end of the presser bar 38 from which the cloth presser 39 has been detached. The walking foot 1A includes a presser foot 3 which will be described later. Quilting cloth made by sandwiching cotton between two pieces of workpiece cloth is adapted to be fed by an upper feed dog 22 in cooperation with a (lower) feed dog (not shown) provided on the bed 31 without slippage of the workpiece cloth pieces while being pressed against an upper side of the needle plate 35 by the presser foot 3 of the walking foot 1A. Thus, the walking foot 1A is used particularly in quilting in which two pieces of workpiece cloth are sewn together with cotton being sandwiched therebetween. Accordingly, a plurality of types of presser feet 3 used in the walking foot 1A are prepared according to modes of the quilting. The operator then carries out sewing while replacing the presser foot by one suitable for a quilting mode.
The plural types of presser feet 3 includes, for example, a presser foot 3A for zigzag sewing as shown in
The walking foot 1A is basically constructed in the same manner as conventional walking feet and includes a supporting member 2A which is a body thereof, the presser foot 3, a swing lever 5 having a distal end including a forked part 5a, a cloth feeding mechanism 6, a swing supporting mechanism 7A, a disengaging mechanism 8A. The supporting member 2A includes a holder 10, a pair of right and left side plates 11A and 12A and a lever 13. The left side plate 11A is sized so as to cover substantially an entire left side of the holder 10 and detachably fixed by a first fixing screw 27 to the left side of the holder 10 as shown in
A washer 19 is fixed to the left end of the support shaft 18 by a second fixing screw 28. The support shaft 18 includes a part protruding leftward from the lever 13. A coil spring 20 is provided about the protruding part of the support shaft 18 so as to be located between the washer 19 and the fulcrum 13c. Accordingly, the fulcrum 13c is usually pressed against the left side plate 11A by the coil spring 20. The operating portion 13d of the lever 13 is formed with a horizontal bent portion a part of which is fitted in a front-rear directed slit lid formed in the left side plate 11A. Since the lever 13 is held so as to be impossible to rotate about the support shaft 18 as the result of engagement of the horizontal bent portion with the left-side plate 11A, the left engagement pin 13b is held stably at the engagement position.
Furthermore, a thin plate-shaped leaf spring 21 is disposed between the operating portion 13d of the lever 13 and the left side plate 11A as shown in
A right side plate 12A comprises a single plate member and includes a rear end as shown in
The presser foot 3 is constructed substantially in the same manner as cloth pressers of general sewing machines. More specifically, the presser foot 3 includes a pair of right and left engaged portions 3a and 3b standing thereon, three notches 3c to 3e in which the upper feed dog 22 of the cloth feed mechanism 6 is capable of being fitted and an arc needle hole 3f, as shown in
The swing lever 5 has a proximal end at which the swing lever is supported on a shaft (not shown) provided in the holder 10 so as to be swingable vertically. The forked portion 5a of the swing lever 5 is adapted to be connected to a shaft of a needlebar connecting stud (not shown) fixed to the needlebar 36. The cloth feed mechanism 6 includes a transmission lever (not shown) which is supported on the holder so as to be swingable and an upper feed dog 22 which is provided on the holder 10 so as to be pressed downward by a distal end of the transmission lever. The transmission lever is adapted to be operated in conjunction with the swing lever 5. The upper feed dog 22 is adapted to be urged upward by a spring (not shown).
The operation of the cloth feeding mechanism 6 will now be described in brief. When the needlebar 36 is raised and the swing lever 5 is swung upward, the transmission lever is caused to pivot downward in conjunction with the swing lever 5 so that the distal end of the transmission lever presses the upper feed dog 22 downward from the notches 3c to 3e of the presser foot 3 such that the workpiece cloth is sandwiched by the upper feed dog 22 and the (lower) feed dog protruding upward (not shown) from the needle plate 35. Subsequently, the upper feed dog 22 is moved horizontally rearward together with the (lower) feed dog (cloth feed). Upon completion of the cloth feed, the needlebar 36 is lowered and the swing lever 5 is caused to pivot downward. The transmission lever is caused to pivot upward in conjunction with the downward pivot of the swing lever 5. As a result, since the upper feed dog 22 is released from a pressing force of the transmission lever, the upper feed dog 22 is raised by the urging force of the spring member and then moved frontward thereby to be returned to the reference position. In this case, the overall walking foot 1A is lowered by the presser bar 38 such that the presser foot 3 presses the workpiece cloth, whereby the workpiece cloth is sandwiched between the presser foot 3 and the needle plate 35. In this state, one stitch is carried out by the sewing needle 37.
The following describes the operation of the walking foot 1A constructed as described above. When replacing the presser foot 3 by another in quilting, the operator firstly presses the operating portion 13d of the lever 13 on the left side plate 11A side (clockwise as viewed in
As obvious from the foregoing, the walking foot 1A includes the supporting member 2A provided with the paired engagement pins 13b and 12b fixed to the lower end of the presser bar 38 and supporting the presser foot 3, the swing supporting mechanism 7A engaging the engagement pins 13b and 12b with the paired engagement holes 3g and 3h of the presser foot 3 from horizontally outward thereby to support the presser foot 3 on the supporting member 2A so that the presser foot 3 is swingable and the disengaging mechanism 8A moving the left engagement pin 13b horizontally outward from the engagement position where the engagement pin 13b is in engagement with the left engagement hole 3g and capable of switching the left engagement pin 13b to the disengagement position where the left engagement pin 13b is out of engagement with the left engagement hole 3g. The supporting member 2A includes the lever 13 having the left engagement pin 13b provided on the distal end thereof, the fulcrum 13c provided in the lengthwise middle and the operating portion provided on the proximal end thereof and the left side plate 11A. The disengaging mechanism 8A is constructed so as to switch the left engagement pin 13b from the engagement position to the disengagement position via the fulcrum 13c when the operating portion 13d is pressed to the left side plate 11A side. Consequently, the operator can detach the presser foot 3 easily and quickly from the supporting member 2A via the disengaging mechanism 8A when only pressing the operating portion 13d of the lever 13 to the left side plate 11A side.
Modified forms of the illustrative example will be described. The right side plate 12A may also be provided with a lever, which may be provided with the right engagement pin in the same manner as the left side plate 11A. In this case, the operator simultaneously presses the paired levers in replacement of the pressure foot 3. The left lever 13 may be eliminated and thus, only the right lever may be provided. The leaf-spring 21 may be fixed to the lever 13 by a screw. Furthermore, welding or adhesive may be used for fixing the leaf spring 21 instead of the screw. The lever 13 may be provided with a vertically extending support shaft on the fulcrum 13c and supported by the support shaft so as to be swingable horizontally.
A second illustrative example of the disclosure will be described with reference to
The supporting member 2B comprises the holder 10 and a pair of right and left side plates 11B and 12B mounted on right and left sides of the holder 10, respectively. The left side plate 11B comprises a single plate-shaped member and fixed at the rear end and the middle in the front-rear direction to the left side of the holder 10 by first and second fixing screws 27 and 28 respectively. The left engagement arm 11a is formed integrally with the front end of the left side plate 11B. A screw hole 11c (see
The right side plate 12B comprises a single plate-shaped member and fixed at the rear end thereof and the middle thereof in the front-rear direction to the right side of the holder 10 by first and second fixing screws 27 and 28 respectively. The right engagement pin 12b is provided on the front end of the right side plate 12B. The right engagement pin 12b is fitted in the right engagement arm 12a and the right engagement hole 3h of the right engaged portion 3b. The screw 4 constitutes an engagement pin serving as the engagement support as shown in
Thus, the screw 4 and the right engagement pin 12b are usually engaged with the right and left holes 3g and 3h formed in the presser foot 3, thereby assuming the engagement positions. The swing supporting mechanism 7B comprises the right and left side plates 11B and 12B, the screw 4 and the right engagement pin 12b. Furthermore, the disengaging mechanism 8B is composed of the screw 4 and the like.
The operation of the walking foot will now be described. When replacing the presser foot 3 by another in quilting, the operator loosens the screw 4 using a suitable screwdriver until the pin-shaped thread portion 4b departs from the left engagement hole 3g of the presser foot 3. As a result, the screw 4 is moved horizontally outward (leftward) thereby to be switched to the disengagement position. In this case, the presser foot 3 can be detached when the screw 4 has departed from the left engagement hole 3g. The operator then prepares another presser foot 3 to be used and fits the right engagement pin 12b into the right engagement hole 3h of the presser foot 3. The operator tightens the screw 4 with the screwdriver when the left engagement hole 3g of the presser foot 3 has been positioned so as to correspond to the screw 4. Consequently, the screw 4 is fitted in the left engagement hole 3g, whereby replacement of the presser foot 3 is completed.
In the second illustrative example, the walking foot 1B comprises the supporting member 2B provided with the engagement pin 12b and the screw 4 fixed to the lower end of the presser bar 38 and supporting the presser foot 3, the swing supporting mechanism 7B engaging the screw 4 and the right engagement pin 12b with the paired engagement holes 3g and 3h provided in the presser foot 3 so that the presser hoot 3 is supported by the supporting member 2B so as to be swingable, and the disengaging mechanism 8B capable of moving the screw 4 horizontally outward from the engagement position where the screw 4 is in engagement with the left engagement hole 3g and switching the screw 4 to the disengagement position where the screw 4 is disengaged from the left engagement hole 3g. The swing supporting mechanism 7B has at least one screw 4 composing the engagement pin. The disengaging mechanism 8B is constructed so as to be capable of disengaging the screw 4 from the left engagement hole 3g when the operator loosens the screw 4 with the screwdriver externally. Consequently, the operator can detach the presser foot 3 easily and quickly from the supporting member 2B when only loosening the screw 4.
In the second illustrative example, the right side plate 12B may also be formed with a screw hole in the front end (distal end) of the right engagement arm 12a of the right side plate 12B. A screw composing the engagement pin may be screwed with the screwdriver in the same manner as the left side plate 11B.
A third illustrative example of the disclosure will be described with reference to
The left side plate 11C comprises a single plate-shaped member and fixed at the rear end thereof and the middle thereof in the front-rear direction to the right side of the holder 10 by first and second fixing screws 27 and 28 respectively. The left side plate 11C has a left engagement arm 11a formed integrally in the front end thereof. The left engagement arm 11a has a supporting hole 11c formed in a front end (distal end) thereof. The lever 14 is made of a leaf spring and formed substantially into the shape of a crank as viewed on a plane as shown in
A right side plate 12C comprises a single plate member and includes a rear end as shown in
The following describes the operation of the walking foot 1C constructed as described above. As shown in
As obvious from the foregoing, the supporting member 2C includes the lever 14 having the fulcrum 14c formed at the lengthwise middle thereof and the operating portion 14d provided on the proximal end thereof and the left side plate 11C supporting the fulcrum 14c and having the support hole 11e with and into which the left engagement pin 14b is engageable and insertable. The disengaging mechanism 8C is constructed so that when the operating portion 14d is pressed to the left side plate 11C side, the left engagement pin 14b is switched via the fulcrum 14c from the engagement position to the disengagement position. Consequently, the operator can detach the presser foot 3 easily and quickly from the supporting member 2C with interposition of the disengaging mechanism 8C when only pressing the operating portion 14d of the lever 14 to the left side plate 11C side.
Modified forms of the third illustrative example will now be described. In the third illustrative example, the right side plate 12C may also be formed with a lever having a right engagement pin in the same manner as the left side plate 11C. In this case, the operator simultaneously presses the right and left levers when the presser foot 3 is to be replaced by another. Furthermore, the left lever 14 may be eliminated and thus, only the right lever may be provided.
A fourth illustrative example of the disclosure will now be described with reference to
The supporting member 2D comprises the holder 10, a pair of right and left side plates 11D and 12D mounted on right and left sides of the holder 10 respectively and a left pivoting member. The left side plate 11D is sized so as to cover almost an entire left side of the holder 10 and is detachably fixed to the left side of the holder 10 by the first fixing screw 27.
A left pivoting member 15 is formed substantially into the shape of a crank as viewed on a plane as shown in
Furthermore, the left side plate 11D has a front end from which a left locking portion 11f protrudes. The left pivoting member 15 has an upper end formed with a left abutment 15c. More specifically, as shown in
The right side plate 12B comprises a single plate-shaped member and detachably fixed at the rear end and the middle in the front-rear direction to the right side of the holder 10 by first and second fixing screws 27 and 28 respectively as shown in
The following describes the operation of the walking foot 1D constructed as described above. As shown in
As obvious from the foregoing, the supporting member 2D includes the left pivoting member 15 having the left engagement pin 15b on the distal end and the left side plate 11D on which the left pivoting member 15 is pivotally mounted. The disengaging mechanism 8D is constructed so that the left pivoting member 15 is caused to pivot so that the left engagement pin 15b is switched from the engagement position to the disengagement position. Consequently, the operator can detach the presser foot 3 easily and quickly from the supporting member 2D with interposition of the disengaging mechanism 8D when only causing the left pivoting member 15 to pivot.
A fifth illustrative example of the disclosure will now be described with reference to
The supporting member 2E comprises the holder 10, a pair of right and left side plates 11E and 12E provided on right and left sides of the holder 10, a pair of right and left pivoting members 15 and 16 and a cam mechanism 17. The left side plate 11E is sized so as to cover almost an entire left side of the holder 10 and is detachably fixed to the holder 10 by the first fixing screw 27 as shown in
The left pivoting member 15 has a front end with which a left engagement arm 15a is integrally formed in the same manner as described above. The left engagement arm 15a further has a front or distal end provided with a left engagement pin 15b. When the left pivoting member 15 is in the engagement position as shown in
The left side plate 11E has a front end from which a left locking portion 11f protrudes. The left pivoting member 15 has an upper end formed with a left abutment 15c. More specifically, as shown in
The right side plate 12E is sized so as to cover almost an overall right side of the holder 10 and detachably fixed to the right side of the holder 10 by the first fixing screw 27. The right pivoting member 16 is formed substantially into the shape of a crank as viewed on a plane as shown in
The right side plate 12E has a front end from which a right locking portion 12f protrudes. The right pivoting member 16 has an upper end formed with a right abutment 16c. More specifically, as shown in
A cam mechanism 17 has a single support cam (cam portion) 25 and two or first and second switching cams (cam portions) 23 and 24 which are formed on the left side near to the front end of the holder 10 so as to protrude leftward, as shown in
The support cam 25 is formed on the front end and a corner of the lower end of the holder 10 and generally has the shape of block. As shown in
As obvious from the foregoing, the paired engagement pins 15b and 16b are usually in the engagement positions where the engagement pins 15b and 16b are in engagement with the paired engagement holes 3g and 3h respectively. The swing supporting mechanism 7E comprises the pivoting members 15 and 16 and engagement pins 15b and 16b. Furthermore, the disengaging mechanism 8E comprises the pivoting members 15 and 16.
The following describes the operation of the walking foot 1E constructed as described above. As shown in
As obvious from the foregoing, the supporting member 2E includes the left and right pivoting members 15 and 16 having the left and right engagement pins 15b and 16b on the distal ends and the left and right side plates 11E and 12E on which the left and right pivoting members 15 and 16 are pivotally mounted, respectively. The disengaging mechanism 8E includes the cam mechanism 17 which renders the left engagement pin 15b movable horizontally outward when the left and right pivoting members 15 and 16 are caused to pivot downward. The disengaging mechanism 8E is constructed so that the left engagement pin 15b is switched from the engagement position to the disengagement position by the cam mechanism 17. Consequently, the operator can detach the presser foot 3 easily and quickly from the supporting member 2E with interposition of the disengaging mechanism 8E and the cam mechanism 17 when only causing the left and right pivoting members 15 and 16 to pivot downward.
Furthermore, the cam mechanism 17 includes the cams 23 to 25 which hold the left engagement pin 15b so that the left engagement pin 15b is disallowed to be moved horizontally outward from the left engagement hole 3g. Accordingly, when the operator causes the pivoting members 15 and 16 to pivot upward such that the left engagement pin 15b is switched to the engagement position, the left engagement pin 15b is engaged with and held by the left engagement hole 3g and the presser foot 3 can reliably be held by the supporting member 2E.
Additionally, the supporting member 2E is provided with the locking portions 11f and 12f locking the engagement pins 15b and 16b of the pivoting members 15 and 16 so that the engagement pins 15b and 16b are prevented from upward movement from the engagement positions, respectively. Consequently, both engagement pins 15b and 16b can reliably be held at the engagement positions even during the sewing operation and accordingly, the presser foot 3 can perform its cloth pressing function sufficiently, thereby resulting in no trouble in the sewing operation.
Another cam mechanism 17 may also be provided at the right side so that the right engagement arm 16a is horizontally opened. Furthermore, only the right cam mechanism 17 may be provided with the left cam mechanism 17 being eliminated. Furthermore, the rear end of the left pivoting member 15 may be urged by a spring so as to be brought to the interior of the holder 10 so that the left engagement pin 15b of the left pivoting member 15 is opened outward when the left pivoting member 15 is caused to pivot into the disengagement position.
The foregoing description and drawings are merely illustrative of the principles of the present disclosure and are not to be construed in a limiting sense. Various changes and modifications will become apparent to those of ordinary skill in the art. All such changes and modifications are seen to fall within the scope of the disclosure as defined by the appended claims.
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2006-141292 | May 2006 | JP | national |
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Number | Date | Country |
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A-03-143475 | Jun 1991 | JP |
A-10-108988 | Apr 1998 | JP |
Number | Date | Country | |
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20070266920 A1 | Nov 2007 | US |