HANDHELD PUNCH TOOL
A handheld punch tool includes a housing defining a first axis, a motor contained within the housing, the motor having a motor shaft defining a second axis, and a head coupled to the housing. The head including a drive member reciprocable along a third axis in response to rotation of the motor shaft about the second axis, and a punch coupled to the drive member and reciprocable in response to reciprocation of the drive member along the third axis. The handheld punch tool further includes a debris collection container removably coupled to the head. The debris collection container is configured to receive chips generated during operation of the handheld punch tool.
The present application is a division of co-pending U.S. patent application Ser. No. 16/054,343, filed on Aug. 3, 2018, issued as U.S. Pat. No. 11,292,067, which claims priority to U.S. Provisional Patent Application No. 62/541,165, filed on Aug. 4, 2017, the entire content of each of which is incorporated herein by reference.
FIELD OF THE INVENTIONThe present invention relates to power tools, and more specifically to handheld punch tools.
BACKGROUND OF THE INVENTIONHandheld reciprocating punch tools, also known as nibblers, operate by rapidly reciprocating a punch to cut through sheet metal, such as ductwork. Although nibblers are generally efficient and accurate tools for cutting through sheet metal, typical nibblers eject numerous small fragments during a cutting operation. These fragments can be sharp and difficult to clean up. In addition, typical nibblers are powered by an AC power source or compressed air, requiring a power cord or air hose that limits access and maneuverability. Finally, typical nibblers can only begin a cut on an edge. In other words, typical nibblers are not able to begin a cut in the middle of a sheet or on a closed duct, for example.
SUMMARY OF THE INVENTIONThe present invention provides, in one aspect, a handheld punch tool including a housing defining a first axis, a motor contained within the housing, the motor having a motor shaft defining a second axis, and a head coupled to the housing. The head including a drive member reciprocable along a third axis in response to rotation of the motor shaft about the second axis, and a punch coupled to the drive member and reciprocable in response to reciprocation of the drive member along the third axis. The handheld punch tool further includes a debris collection container removably coupled to the head. The debris collection container configured to receive chips generated during operation of the handheld punch tool.
The present invention provides, in another aspect, a handheld punch tool including a housing defining a first axis, a motor contained within the housing, the motor having a motor shaft defining a second axis, and a head coupled to the housing. The head including a drive member reciprocable along a third axis in response to rotation of the motor shaft about the second axis, and a punch coupled to the drive member and reciprocable in response to reciprocation of the drive member along the third axis. The handheld punch tool further includes a debris collection configured to be removably coupled to the head in a first position and a second position, the debris collection container configured to receive chips generated during operation of the handheld punch tool in each of the first position and the second position.
The present invention provides, in yet another aspect, a handheld punch tool including a housing defining a first axis, a motor contained within the housing, the motor having a motor shaft defining a second axis, and a head coupled to the housing. The head including a drive member reciprocable along a third axis in response to rotation of the motor about the second axis, and a punch coupled to the drive member and reciprocable in response to reciprocation of the drive member along the third axis. The handheld punch tool further includes a debris collection container configured to receive chips generated during operation of the handheld punch tool. The head is rotatable relative to the housing about the third axis, and the debris collection container is rotatable with the head about the third axis.
Other features and aspects of the invention will become apparent by consideration of the following detailed description and accompanying drawings.
Before any embodiments of the invention are explained in detail, it is to be understood that the invention is not limited in its application to the details of construction and the arrangement of components set forth in the following description or illustrated in the following drawings. The invention is capable of other embodiments and of being practiced or of being carried out in various ways. Also, it is to be understood that the phraseology and terminology used herein is for the purpose of description and should not be regarded as limiting.
DETAILED DESCRIPTIONWith continued reference to
The illustrated housing 14 includes first and second cooperating clamshell halves 38a, 38b that define a handle portion 42 (i.e. a portion of the housing 14 configured to be grasped by an operator during operation of the nibbler 10) having a generally cylindrical shape. The housing axis 26 extends centrally through the handle portion 42. However, the housing 14 may have a variety of other constructions such that the housing axis 26 may not extend through the handle portion 42. For example, the housing 14 may be generally 1′ or ‘T’ shaped with the handle portion 42 formed as a pistol grip. In such embodiments, the housing axis 26 may not extend through the handle portion 42 but rather may extend through another portion of the housing 14 containing the motor 16.
In the illustrated embodiment, an on/off switch 46 is located on the handle portion 42 for selectively electrically connecting the motor 16 and the battery pack 22 to provide DC power to the motor 16. In some embodiments, the on/off switch 46 may be a variable speed switch. The motor 16 has a motor shaft 50 that is rotatable about a second axis or motor axis 54. The motor 16 is preferably oriented such that the motor axis 54 is coaxial with the housing axis 26. As such, relationships described herein with reference to the motor axis 54 are equally applicable to the housing axis 26, and vice versa. However, it is contemplated that in other embodiments, the motor axis 54 and the housing axis 26 may not be coaxial.
Referring to
The input shaft 62 may be coupled to the motor shaft 50 via a transmission (e.g., a single or multi-stage planetary transmission; not shown) or gear reduction, or the input shaft 62 may be directly driven by the motor shaft 50. Alternatively, the input shaft 62 and the motor shaft 50 may be integrally formed together as a single component. The input shaft 62 includes an input pinion 74 meshed with an intermediate ring gear 78 that is supported on the intermediate shaft 66. The output shaft 70 includes an output pinion 82 meshed with the intermediate ring gear 78. The intermediate ring gear 78 is thus disposed between the input pinion 74 and the output pinion 82 to transmit torque from the input pinion 74 to the output pinion 82.
With continued reference to
With reference to
Referring to
With continued reference to
In some embodiments, the entirety of the clamp assembly 110 may not reciprocate with the drive rod 98. For example, the clamp assembly 110 may include a motion transfer mechanism that reciprocates the punch 130 in response to reciprocation of the drive rod 98. The motion transfer mechanism may include, for example, a first rack gear coupled to the drive rod 98, a second rack gear coupled to the punch 130, and a pinion meshed with the first rack gear and the second rack gear. In such embodiments, reciprocation of the first rack gear rotates the pinion, which in turn reciprocates the second rack gear (and the punch 130). In other embodiments, the drive rod 98 may not reciprocate but rather provide a rotational input to the cutting head 18. In such embodiments, the drive rod 98 may be driven by the output shaft 70 for rotation about the axis 102, and a reciprocation mechanism (e.g., a wobble-plate mechanism) may provided between the drive rod 98 and the punch 130.
With reference to
The nibbler 10 includes a debris collection container 162 that can be coupled to the cutting head 18 in a first position in which the debris collection container 162 receives chips ejected through the first opening 154 (
With reference to
The auxiliary cutting mechanism 170 includes an integral or replaceable bit 178 (e.g., a stepped drill bit) having a nominal diameter larger than that of the punch 130 to create a pilot hole for the punch 130, which can then be used to create an elongated cut in the sheet metal or other workpiece. In some embodiments, a clutch mechanism (not shown) may be provided between the intermediate ring gear 78 and the intermediate shaft 66 to selectively couple the intermediate shaft 66 for co-rotation with the intermediate ring gear 78. The clutch mechanism can thus be actuated to enable or disable rotation of the auxiliary cutting mechanism 170.
In operation of the nibbler 10 in a first mode, an operator depresses the switch 46 to activate the motor 16, which continuously supplies torque to the drive assembly 58 via the motor shaft 50 and the input shaft 62 (
As the output shaft 70 rotates, the drive rod 98 of the cutting head 18 reciprocates along the third axis 102 due to the motion of the eccentric 86. The drive rod 98 reciprocates the clamp assembly 110, which in turn reciprocates the punch 130 along the punch axis 150. The operator may then guide the cutting head 18 onto a piece of sheet metal or another workpiece to be cut. As the workpiece enters a space 180 in the die 138, the reciprocating punch 130 repeatedly and incrementally shears small pieces of the workpiece against the die 138 to create an elongated cut. This generates debris or chips, which are discharged through the first opening 154 and into the debris collection container 162. By containing the chips within the collection container 162, the nibbler 10 can advantageously make cuts with less cleanup required compared to typical nibblers. If desired, the operator can rotate the cutting head 18 about the swivel axis 102 to reorient the cutting head 18. This enhances the usability of the nibbler 10 in confined spaces.
The nibbler 10 is also operable in a second mode in which the motor 16 drives the auxiliary cutting mechanism 170. In the second mode, the operator depresses the switch 46 to activate the motor 16, which continuously supplies torque to the drive assembly 58 via the motor shaft 50 and the input shaft 62 (
Various features of the invention are set forth in the following claims.
Claims
1. A handheld punch tool comprising:
- a housing defining a first axis;
- a motor contained within the housing, the motor having a motor shaft defining a second axis;
- a head coupled to the housing, the head including a drive member reciprocable along a third axis in response to rotation of the motor shaft about the second axis, and a punch coupled to the drive member and reciprocable in response to reciprocation of the drive member along the third axis; and
- a debris collection container removably coupled to the head, the debris collection container configured to receive chips generated during operation of the handheld punch tool.
2. The handheld punch tool of claim 1,
- wherein the head includes a die having a passageway within which the punch is reciprocable,
- wherein the die includes a first opening in communication with the passageway and a second opening in communication with the passageway, and
- wherein the debris collection container is removably coupled to the head in one of a first position in which the debris collection container is configured to receive chips through the first opening, or a second position in which the debris collection container is configured to receive chips through the second opening.
3. The handheld punch tool of claim 2, wherein the first opening and the second opening are disposed on opposite sides of the die.
4. The handheld punch tool of claim 2, further comprising a plug removably coupled to the first opening when the debris collection container is in the second position and to the second opening when the debris collection container is in the first position.
5. The handheld punch tool of claim 1, wherein the head is rotatable relative to the housing about the third axis with the debris collection container coupled to the head.
6. The handheld punch tool of claim 1, wherein the housing includes a battery receptacle,
- wherein the handheld punch tool further comprises a battery pack at least partially insertable into the battery receptacle along the first axis to couple the battery pack to the battery receptacle, and
- wherein the battery pack is configured to supply power to the motor.
7. The handheld punch tool of claim 1, further comprising a drive assembly coupling the motor shaft to the drive member, wherein the drive assembly is disposed axially between the motor and the head along the second axis.
8. The handheld punch tool of claim 1, wherein the debris collection container includes one or more magnets configured to attract chips into the container.
9. A handheld punch tool comprising:
- a housing defining a first axis;
- a motor contained within the housing, the motor having a motor shaft defining a second axis;
- a head coupled to the housing, the head including a drive member reciprocable along a third axis in response to rotation of the motor shaft about the second axis, and a punch coupled to the drive member and reciprocable in response to reciprocation of the drive member along the third axis; and
- a debris collection container configured to be removably coupled to the head in a first position and a second position, the debris collection container configured to receive chips generated during operation of the handheld punch tool in each of the first position and the second position.
10. The handheld punch tool of claim 9,
- wherein the head includes a die having a passageway within which the punch is reciprocable,
- wherein the die includes a first opening in communication with the passageway and a second opening in communication with the passageway, and
- wherein the debris collection container is configured to receive chips through the first opening in the first position and through the second opening in the second position.
11. The handheld punch tool of claim 10, wherein the first opening and the second opening are disposed on opposite sides of the die.
12. The handheld punch tool of claim 9, wherein the housing includes a battery receptacle,
- wherein the handheld punch tool further comprises a battery pack at least partially insertable into the battery receptacle along the first axis to couple the battery pack to the battery receptacle, and
- wherein the battery pack is configured to supply power to the motor.
13. The handheld punch tool of claim 9, further comprising a drive assembly coupling the motor shaft to the drive member, wherein the drive assembly is disposed axially between the motor and the head along the second axis.
14. The handheld punch tool of claim 9, wherein the debris collection container includes one or more magnets configured to attract chips into the container.
15. A handheld punch tool comprising:
- a housing defining a first axis;
- a motor contained within the housing, the motor having a motor shaft defining a second axis;
- a head coupled to the housing, the head including a drive member reciprocable along a third axis in response to rotation of the motor shaft about the second axis, and a punch coupled to the drive member and reciprocable in response to reciprocation of the drive member along the third axis; and
- a debris collection container configured to receive chips generated during operation of the handheld punch tool,
- wherein the head is rotatable relative to the housing about the third axis, and
- wherein the debris collection container is rotatable with the head about the third axis.
16. The handheld punch tool of claim 15, wherein the debris collection container is removably coupled to the head.
17. The handheld punch tool of claim 16, wherein the head includes a die having a passageway within which the punch is reciprocable,
- wherein the die includes a first opening in communication with the passageway and a second opening in communication with the passageway, and
- wherein the debris collection container is removably coupled to the head each of a first position in which the debris collection container is configured to receive chips through the first opening, and a second position in which the debris collection container is configured to receive chips through the second opening.
18. The handheld punch tool of claim 17, wherein the first opening and the second opening are disposed on opposite sides of the die.
19. The handheld punch tool of claim 15, wherein the debris collection container includes one or more magnets configured to attract chips into the container.
20. The handheld punch tool of claim 15, wherein the housing includes a battery receptacle,
- wherein the handheld punch tool further comprises a battery pack at least partially insertable into the battery receptacle along the first axis to couple the battery pack to the battery receptacle, and
- wherein the battery pack is configured to supply power to the motor.
Type: Application
Filed: Apr 4, 2022
Publication Date: Jul 14, 2022
Inventors: William E. Street (Richfield, WI), James Wekwert (Wauwatosa, WI)
Application Number: 17/712,868