This application claims priority to Taiwanese Invention Patent Application No. 110147222, filed on Dec. 16, 2021.
The disclosure relates to an electric nail gun, and more particularly to an electric nail gun with adjustable nailing force.
Referring to
The lid member 13 is located between the pressure accumulating chamber 11 and the cylinder chamber 12, is rotatable relative to the pressure accumulating chamber 11 and the cylinder chamber 12, and cooperates with the pressure accumulating chamber 11 and the cylinder chamber 12 to define an opening (L0) through which the gas flows from the pressure accumulating chamber 11 into the cylinder chamber 12. The gear unit 14 is operable to urge the lid member 13 to rotate such that the size of the opening (L0) changes as the lid member 13 rotates. The amount of the gas that flows through the opening (L0) depends on the size of the opening (L0). Therefore, the nailing force of the conventional electric nail gun 1 is adjustable by operating the gear unit 14.
However, in order to make the conventional electric nail gun 1 capable of striking nails at a high speed, the pressure accumulating chamber 11 and the cylinder chamber 12 have to spatially and continuously communicate with each other via the opening (L0) (i.e., the diameter of the opening (L0) is maintained to be greater than 0). Consequently, when the conventional electric nail gun 1 experiences a mechanical failure, the nails may accidentally be discharged by the piston unit since the cylinder chamber 12 may keep receiving the gas from the pressure accumulating chamber 11. The conventional electric nail gun 1 may thus become dangerous to use.
In addition, because the gas in the pressure accumulating chamber 11 keeps pressing against the lid member 13, a larger rotational force is required to be exerted on the lid member 13 by the gear unit 14 so that the lid member 13 may be rotated. Thus, operation of the conventional electric nail gun 1 may not be easy for a user.
Therefore, an object of the disclosure is to provide an electric nail gun that can alleviate at least one of the drawbacks of the prior art.
According to the disclosure, the electric nail gun includes a cylinder unit, a nail-striking unit, a valve unit and a muzzle unit. The cylinder unit defines a cylinder space, and a gas space that communicates with the cylinder space and that is adapted for storing gas. The nail-striking unit includes a piston assembly that extends through the cylinder space, that is movable in a first direction, and that is adapted for striking a nail. The gas space is isolated from the external environment when the nail-striking unit strikes the nail. The piston assembly is able to be driven by pneumatic power and electric power. The valve unit includes a valve and an actuating member. The valve is disposed between the cylinder space and the gas space, and is movable among a closed position, in which the valve closes the cylinder space such that the gas in the gas space is refrained from entering the cylinder space, and a plurality of open positions. When the valve is in any one of the open positions, the valve cooperates with the cylinder unit to define an opening that is adapted for the gas to flow from the gas space into the cylinder space. A dimension of the opening in the first direction when the valve is in one of the open positions is different from the dimension of the opening in the first direction when the valve is in another one of the open positions. The actuating member is connected to the valve, extends through the cylinder unit, and is movable relative to the cylinder unit in the first direction. The muzzle unit includes a nail gun seat, a safety assembly and an adjusting assembly. The nail gun seat is connected to the cylinder unit, and is adapted for loading the nail. The safety assembly is mounted to the nail gun seat, is movable relative to the nail gun seat in the first direction, and has a pressing portion and an actuating portion. The pressing portion is adapted to be pressed and moved by an object. The actuating portion cooperates with the actuating member to define a first actuating distance in the first direction therebetween. When the pressing portion is moved by the object, the actuating member is urged to move by the actuating portion such that the valve moves from the closed position to one of the open positions. The adjusting assembly is operable to adjust the first actuating distance.
Other features and advantages of the disclosure will become apparent in the following detailed description of the embodiment(s) with reference to the accompanying drawings. It is noted that various features may not be drawn to scale.
Before the disclosure is described in greater detail, it should be noted that where considered appropriate, reference numerals or terminal portions of reference numerals have been repeated among the figures to indicate corresponding or analogous elements, which may optionally have similar characteristics.
It should be noted herein that for clarity of description, spatially relative terms such as “top,” “bottom,” “upper,” “lower,” “on,” “above,” “over,” “downwardly,” “upwardly” and the like may be used throughout the disclosure while making reference to the features as illustrated in the drawings. The features may be oriented differently (e.g., rotated 90 degrees or at other orientations) and the spatially relative terms used herein may be interpreted accordingly.
Referring to
The cylinder unit 2 includes a striking cylinder 21, a storage cylinder 22 and a cylinder lid 23. The striking cylinder 21 has a striking cylinder body 211 that defines a cylinder space 210. The storage cylinder 22 is adapted for storing gas. The cylinder lid 23 cooperates with the striking cylinder 21 and the storage cylinder 22 to define a gas space 20 that communicates with the cylinder space 210 and the storage cylinder 22, and that is adapted for storing the gas under a predetermined air pressure.
The nail-striking unit 3 includes a lifting gear 31 and a piston assembly 32. The lifting gear 31 is rotatably mounted between the cylinder unit 2 and the muzzle unit 5, and is able to be driven by electric power (e.g., an electric motor). The piston assembly 32 extends through the cylinder space 210, is movable in a first direction (X), is adapted for striking a nail, is able to be driven by pneumatic power and electric power, and includes a piston 321, a lifting rod 322 and a firing pin 323. The piston 321 abuts against an inner surface of the striking cylinder 21 airtightly. Each of the lifting rod 322 and the firing pin 323 is connected to the piston 321.
Referring further to
The valve 41 is movable relative to the cylinder space 210 among a closed position (see
It is noted that, by virtue of the gas space 20 storing the gas under the predetermined air pressure, the valve 41 is adapted to be constantly pushed away from the gas space 20 toward the closed position by the gas stored in the gas space 20 such that the actuating member 42 is constantly urged to move away from the gas space 20 by the valve 41.
The muzzle unit 5 includes a nail gun seat 51, a safety assembly 52 (see
The nail gun seat 51 is connected to the cylinder unit 2, and is adapted for loading the nail (not shown). The lifting gear 31 is operable to convert between a first state, in which the lifting gear 31 meshes with the lifting rod 322 of the piston assembly 32 and is drivable by electric power to urge the piston assembly 32 to move away from the nail gun seat 51, and a second state, in which the lifting gear 31 is separated from the lifting rod 322 of the piston assembly 32.
The safety assembly 52 substantially extends in the first direction (X), is mounted to the nail gun seat 51, is movable relative to the nail gun seat 51 in the first direction (X), and includes a first safety member 521, a second safety member 522, and a third safety member 523 that interconnects the first and second safety members 521, 522. The first safety member 521 extends through the nail gun seat 51 and has a pressing portion 524 that surrounds an end of the nail gun seat 51, and that is adapted to be pressed and moved by an object (not shown). The second safety member 522 is adjacent to the actuating member 42, and has an actuating portion 525 and a safety body 526. The actuating portion 525 cooperates with the actuating member 42 to define a first actuating distance (d1) in the first direction (X) therebetween. The second safety member 522 and the third safety member 523 overlap each other. The third safety member 523 has a plurality of positioning portions 527 that are arranged in the first direction (X). In this embodiment, each of the positioning portions 527 is configured to be a hole.
When the pressing portion 524 of the safety assembly 52 is pressed and moved by the object, the pressing portion 524 is moved through a maximum distance (D), and the actuating member 42 is urged by the actuating portion 525 of the safety assembly 52 to move through a second actuating distance (d2) such that the valve 41 moves from the closed position to one of the open positions. The valve 41 cooperates with an imaginary plane that is normal to the first direction (X) to define an angle (θ). The longer the second actuating distance (d2), the larger the angle (θ). The larger the angle (θ), the larger the dimension (L1, L2) of the opening defined by the valve 41 and the cylinder unit 2.
It is noted that, the maximum distance (D) equals the sum of the first actuating distance (d1) and the second actuating distance (d2), and is a predetermined constant that does not change. The first actuating distance (d1) is greater than or equal to zero.
The adjusting assembly 53 is mounted to the safety body 526, removably engages one of the positioning portions 527, is operable to be separated from the one of the positioning portions 527 to engage another one of the positioning portions 527, is operable to adjust the first actuating distance (d1), and includes a fastener member 531 and an adjusting resilient member 532. Specifically, the fastener member 531 extends through the safety body 526 toward the one of the positioning portions 527. The adjusting resilient member 532 is disposed between the fastener member 531 and the safety body 526, and resiliently biases the fastening member 531 such that the fastening member 531 engages the one of the positioning portions 527.
The muzzle resilient member 54 is mounted between the safety assembly 52 and the nail gun seat 51, and resiliently biases the safety assembly 52 in the first direction (X).
The magazine unit 6 is removably connected to the nail gun seat 51, and is adapted for containing a plurality of nails (not shown) that are arranged in a row, and for pushing the nails into the nail gun seat 51 one by one.
For the sake of convenience, a direction opposite to the first direction (X) is defined as an up direction (i.e., the first direction (X) equals a down direction), and the lifting gear 31 and the adjusting assembly 53 are defined to be respectively located at left and right sides of the cylinder unit 2 (see
Referring to
Referring to
At this time, when the lifting gear 31 is driven by the electric power to rotate counterclockwise, the lifting gear 31 is separated from the lifting rod 322 (i.e., the lifting gear 31 is converted into the second state). Because the lifting rod 322 is not limited by the electric power when separated from the lifting rod 322, the piston 321 is pushed downwardly by the gas that enters the cylinder space 210. When the piston 321 is pushed downwardly, the piston 321 urges the firing pin 323 to slide relative to the nail gun seat 51 in the first direction (X), thereby striking the nail.
It is noted that, in
On the other hand, referring further to
It is noted that, the gas space 20 is isolated from the external environment when the nail-striking unit 3 strikes the nail. Specifically, the gas space 20 does not spatially communicate with the external environment during nail-striking (i.e., from the moment that the lifting gear 31 is converted from the first state into the second state by electric power to the moment that the nail is struck). In fact, the gas space 20 may only spatially communicate with the external environment, or be connected to a gas-filling device, when the air pressure in the gas space 20 is smaller than the predetermined air pressure so that the gas space 20 may be refilled with the gas to increase the air pressure therein.
The user may adjust the first actuating distance (d1) between the actuating portion 525 and the actuating member 42 when the user needs to adjust the nailing force of the electric nail gun. Specifically, the user may pull the fastener member 531 to the right to disengage the fastener member 531 from the one of the positioning portions 527 of the third safety member 523, and then move the second safety member 522 relative to the third safety member 523 to adjust a total length of the second and third safety members 522, 523 in the first direction (X). Afterwards, the user may release the fastener member 531 in another one of the positioning portions 527 such that the fastening member 531 engages the another one of the positioning portions 527 via the adjusting resilient member 532. The first actuating distance (d1) is thus adjusted.
After the nail is struck, when the pressing portion 524 is not pressed upwardly by the object, the muzzle resilient member 54 resiliently biases the safety assembly 52 in the first direction (X) such that the safety assembly 52 is moved back to the initial position, and the valve 41 is not pushed upwardly by the actuating member 42 such that the valve 41 is pushed back to the closed position by the gas stored in the gas space 20. At this time, the lifting gear 31 is driven by the electric power to keep rotating counterclockwise such that the lifting gear 31 meshes with the lifting rod 322 again (i.e., the lifting gear 31 is converted into the first state). When the lifting gear 31 is in the first state, the electric power drives the lifting gear 31 to urge the lifting rod 322 to move upwardly and away from the nail gun seat 51 such that the piston 321 and the firing pin 323 connected to the piston 321 are pushed upwardly by the lifting rod 322 (see
Referring to
In the second embodiment, the muzzle unit 5 further includes a quick-disconnect assembly 55. The safety assembly 52 further includes a fourth safety member 56, and the first safety member 521 is omitted.
The nail gun seat 51 defines a safety passage 510 and includes a seat body 511. The seat body 511 has a seat groove 512 that extends in the first direction (X).
The quick-disconnect assembly 55 includes a quick-disconnect fastener 551 that extends through the seat body 511 and that is movable relative to the seat body 511, and a quick-disconnect resilient member 552 that is disposed between the seat body 511 and the quick-disconnect fastener 551, and that resiliently biases the quick-disconnect fastener 551 such that the quick-disconnect fastener 551 extends through the seat body 511 into the safety passage 510.
The fourth safety member 56 is removably disposed in the safety passage 510, and is movable relative to the safety passage 510. The fourth safety member 56 defines a nail passage 561 that is adapted for the nail (not shown) to travel through during nail-striking, and has a pressing portion 560, a nail-entering opening 562, a push block 563, a protruding rib 564 and a slide block 565. The pressing portion 560 has the same functions as the pressing portion 524 of the first safety member 521 of the first embodiment. The nail-entering opening 562 is adapted for the nail in the magazine unit 6 to enter the nail passage 561. The push block 563 protrudes from an outer surface of the fourth safety member 56, and has a blocking surface 566 that is adjacent to the pressing portion 560, and a guiding surface 567 that is located at one side of the blocking surface 566 opposite to the pressing portion 560. The protruding rib 564 protrudes from the outer surface of the fourth safety member 56 and is spaced apart from the push block 563. The slide block 565 extends through the seat groove 512 and abuts against the third safety member 523 when the fourth safety member 56 is disposed in the safety passage 510.
Referring further to
When the fourth safety member 56 needs to be assembled to the nail gun seat 51, an end of the fourth safety member 56 opposite to the pressing portion 560 is urged to move in the up direction toward the safety passage 510, and the slide block 565 is aligned with the seat groove 512 in the up direction such that the fourth safety member 56 is inserted into the safety passage 510. When the fourth safety member 56 moves in the up direction in the safety passage 510, the slide block 565 moves along the seat groove 512, and the guiding surface 567 of the push block 563 pushes the quick-disconnect fastener 551 away from the safety passage 510. Then, when the push block 563 moves past the quick-disconnect fastener 551, the quick-disconnect fastener 551 is resiliently biased by the quick-disconnect resilient member 552 such that the quick-disconnect fastener 551 enters the safety passage 510 again. At this time, the quick-disconnect fastener 551 blocks the blocking surface 566 of the push block 563 such that when the magazine unit 6 is either connected to or removed from the nail gun seat 51, the fourth safety member 56 is movable along the safety passage 510 but is refrained from leaving the safety passage 510 in the first direction (X) by the quick-disconnect fastener 551. When the magazine unit 6 is connected to the nail gun seat 51, the protruding rib 564 moves along the guiding groove 62 while the fourth safety member 56 moves along the safety passage 510.
When the fourth safety member 56 needs to be disassembled from the nail gun seat 51, the user may pull the quick-disconnect fastener 551 away from the safety passage 510 such that the push block 563 is not blocked by the quick-disconnect fastener 551. Then, the user may pull the fourth safety member 56 in the first direction (X) until the fourth safety member 56 is removed from the nail gun seat 51. Afterwards, the user may store the fourth safety member 56 that is removed from the nail gun seat 51 by using the clamp member 63 (i.e., the fourth safety member 56 may be clamped by the clam member 63) so that the fourth safety member 56 is not lost.
It is noted that, in one embodiment, the magazine unit 6 may have a different configuration that is exclusively for one of several types of nails, and the fourth safety member 56 may have a different configuration that is exclusively for the magazine unit 6 of the one embodiment. For example, referring to
It is noted that, referring to
In summary, the embodiments of the electric nail gun offer several benefits as follows.
When the electric nail gun is in the initial state, the valve 41 is in the closed position and spatially separates the gas space 20 from the cylinder space 210 so that the piston assembly 32 is not driven by the pneumatic power provided by the predetermined air pressure in the gas space 20. Therefore, even when the lifting gear 31 experiences malfunctions such that the lifting gear 31 is separated from the lifting rod 322, the amount of the gas in the cylinder space 210 may not generate a pressure that is large enough to push the piston assembly 32 downwardly. A user's safety when operating the electric nail gun is thus guaranteed.
The valve 41 is urged to move by the safety assembly 52 instead of additional electric power, and the configurations of the valve 41 and the safety assembly 52 are relatively simple. Therefore, the electric nail gun is energy-saving and the service life thereof may be prolonged.
By virtue of the first actuating distance (d1) being adjustable, the electric nail gun is provided with an adjustable nailing force that meets various customer demands.
Furthermore, when the user needs to adjust the nailing force of the electric nail gun, the user may simply pull the fastener member 531 so that the fastener member 531 is disengaged from one of the positioning portions 527 of the third safety member 523. Thus, the electric nail gun is user-friendly.
In the description above, for the purposes of explanation, numerous specific details have been set forth in order to provide a thorough understanding of the embodiment(s). It will be apparent, however, to one skilled in the art, that one or more other embodiments may be practiced without some of these specific details. It should also be appreciated that reference throughout this specification to “one embodiment,” “an embodiment,” an embodiment with an indication of an ordinal number and so forth means that a particular feature, structure, or characteristic may be included in the practice of the disclosure. It should be further appreciated that in the description, various features are sometimes grouped together in a single embodiment, figure, or description thereof for the purpose of streamlining the disclosure and aiding in the understanding of various inventive aspects; such does not mean that every one of these features needs to be practiced with the presence of all the other features. In other words, in any described embodiment, when implementation of one or more features or specific details does not affect implementation of another one or more features or specific details, said one or more features may be singled out and practiced alone without said another one or more features or specific details. It should be further noted that one or more features or specific details from one embodiment may be practiced together with one or more features or specific details from another embodiment, where appropriate, in the practice of the disclosure.
While the disclosure has been described in connection with what is(are) considered the exemplary embodiment(s), it is understood that this disclosure is not limited to the disclosed embodiment(s) but is intended to cover various arrangements included within the spirit and scope of the broadest interpretation so as to encompass all such modifications and equivalent arrangements.
Number | Date | Country | Kind |
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110147222 | Dec 2021 | TW | national |