DE202015102068U1 - Energy saving nailing machine - Google Patents

Abstract

A power-saving nailing machine comprising a housing (10), an actuating member (20) movably disposed in the housing (10) and including a push rod (21), a gear rod (22) and a connecting rod (23), the push rod (21) pivotally connected to the housing (10) at one end, the gear bar (22) being pivotally connected at one end to the housing (10), the connecting rod (23) being connected to the push rod (21) at both ends Transmission rod (22), wherein the actuating member (20) between a first position (P1) and a second position can be moved, a lifting element (30) which is pivotally connected to the housing (10) and at the first end ( 31) and at the second end (32) has a sliding portion (33) and a latching portion (34), wherein the end of the gear rod (22) can slide along the sliding portion, and a biasing member (40) having a discharge plate (41) and a biasing element ment (42) connected to the ejection plate (41), wherein the ejection plate (41) can be moved between a rest position (P3) and a release position (P4), wherein the biasing member (42) is deformable on the housing (10 ), wherein the latching portion (34) is latched to the ejection plate (41), wherein the latching portion (34) that locks into the ejection plate (41) moves the ejection plate from the rest position (P3) to the release position (P4) when the actuating member (20) is moved from the first position (P1) to the second position (P2), and wherein the latching portion (34) detaches from the ejection plate (41), thus being subject to the restoring force of the resilient disc (43 ) is rapidly moved from the release position (P4) to the rest position when the actuator (20) reaches the second position (P2).

Description

Technical area

The invention relates to a nailing machine, in particular a power-saving nailing machine.

State of the art

Out TW1413578 For example, a nail gun is known which has a pressure element, a housing, a discharge plate and a drive. The housing has a slot through which the ejection plate can be moved. When the pressure element is pressed, the ejection plate is moved by the drive and ejects the nails.

In order to produce a greater compressive force, the pressure element usually has a greater length and a larger angle. This increases the nail gun's volume, increasing the nail gun's footprint. In addition, the handling of the nail gun is difficult.

Therefore, the object of the present invention is to provide a power-saving nailing machine which can solve the above problems.

Object of the invention

The invention has for its object to provide a power-saving nailer that can convert a smaller pressure force into a larger output force or torque by a rod group of the actuator. Since the rod group has at least two axis points, an improved power transmission ratio can be obtained. In addition, the push rod may have a smaller angle, whereby the operation of the nailing machine can be facilitated without changing the volume.

This object is achieved by the force-saving nailing machine according to the invention, which comprises: a housing; an actuator movably disposed in the housing and including a push rod, a gear rod and a connecting rod, the push rod being pivotally connected at one end to the housing, the gear rod being pivotally connected to the housing at one end, the connecting rod engaging the two ends is pivotally connected to the push rod and the gear rod, wherein the actuating member between a first position and a second position can be moved, a lifting element which is pivotally connected to the housing and at the first end and at the second end a sliding portion and a Latching portion, wherein the end of the gear rod can slide along the sliding portion, and a biasing member, which includes an ejection plate and a biasing member, which is connected to the ejection plate, wherein the ejection plate can be moved between a rest position and a release position, wherein the bias ungselement deformably secured to the housing, wherein the latching portion is latched to the ejection plate, wherein, when the actuator is moved from the first position to the second position, the latching portion which engages in the ejection plate moves the ejection plate from the rest position to the release position , And the latching portion of the ejection plate dissolves, so that it is moved by the restoring force of the elastic disk quickly from the release position to the rest position when the actuator reaches the second position.

Brief description of the drawings

1 shows a perspective view of the preferred embodiment of the invention,

2 shows an exploded view of the preferred embodiment of the invention,

3 shows a further exploded view of the preferred embodiment of the invention,

4 shows a first sectional view of the preferred embodiment of the invention,

5 shows a second sectional view of the preferred embodiment of the invention,

6 shows a third sectional view of the preferred embodiment of the invention,

7 shows a fourth sectional view of the preferred embodiment of the invention,

8th shows a representation of a further embodiment of the invention, and

9 shows a representation of another embodiment of the invention.

Ways to carry out the invention

In the following the invention will be described in more detail with reference to the accompanying drawings.

The 1 to 7 show a preferred embodiment of the force-saving nailing machine according to the invention 1 that a housing 10 , an actuator 20 , a lifting element 30 and a bias member 40 includes.

The housing 10 has two housing parts 11 on, for example, connected by screws. The housing 10 further points a handle 13 for the user. The actuator 20 is movable in the housing 10 arranged and includes a push rod 21 , a transmission rod 22 and a connecting rod 23 (but the invention is not limited thereto). The push rod 21 is hinged at one end to the housing 10 connected. The transmission rod 22 is hinged at one end to the housing 10 connected. The connecting rod 23 is at the two ends with the push rod 21 and the gear rod 22 articulated. The actuator 20 can be between a first position P1 ( 4 ) and a second position ( 6 ) are moved. For example, the actuator 20 between the first position 21 and the second position P2 are moved when the user pushes the push rod 21 suppressed. The length of the push rod 21 is larger than that of the gear rod 22 , If the user is the actuator 20 The force is transmitted through the rod assembly, producing a greater output force (or torque). In the present embodiment, the push rod forms 21 a power input (for the user). The transmission rod 22 forms a force output (eg for the lifting element 30 ). The push rod 21 and the gear rod 22 each have an axis point (joint with the housing). Through the axle points of the push rod 21 and the gear rod 22 For example, the best power transmission ratio can be obtained so that the push rod can have a small angle. Therefore, the operation of the nailing machine 1 be facilitated without changing the volume.

The lifting element 30 is articulated with the housing 10 connected. At the first end 31 and at the second end 32 are a sliding section 33 and a rest section 34 educated. At the sliding section 33 can be the end of the gear rod 22 slide. In the present embodiment, the sliding portion 33 through sliding holes 311 and a bolt 332 educated. The bolt 332 gets through the gear rod 22 guided and can in the sliding holes 331 slide. The transmission rod 22 moved through the sliding section 33 the lifting element 30 , The housing 10 has, for example, an axle rod 14 on, by the lifting element 30 to be led. The sliding section 33 and the rest section 34 of the lifting element 30 are located on both sides of the axle rod 14 , When the sliding section 33 of the lifting element 30 from the gear rod 22 is pressed, the latching section 34 of the lifting element 30 around the axle rod 14 turned. Preferably, the distance between the sliding portion 33 and the axle rod 14 greater than the distance between the latching section 34 and the axle rod 14 , When the sliding section 33 is pressed by a certain force, the latching section 34 generate a larger torque compared to the sliding section (leverage).

The biasing organ 40 includes a discharge plate 41 and a biasing element 42 that with the ejector plate 41 connected is. The biasing element 42 is deformable on the housing 10 attached. The biasing element 42 is for example by at least one elastic disc 43 formed, which is a fastening end 431 and a moving end 432 has. The attachment end 431 is on the case 10 attached. The moving end 432 stands with the ejection plate 41 engaged. The ejection plate 41 can be moved between a rest position P3 and a release position P4. The moving end 432 can be deformed and hit the ejection plate by the restoring force. It is also possible to have a variety of stacked elastic discs 43 to provide (two in the present embodiment). By increasing the number of elastic discs 43 may be the biasing force of the biasing member 40 be increased, causing the ejection plate 41 produces a greater ejection force.

More specifically, the ejection plate 41 detachable with the latching section 34 connected. The resting section 34 includes a locking element 341 , a fixing pin 342 and a movable pen 343 , The fixing pin 342 and the movable pen 343 be through the locking element 341 guided and are located at the second end 32 of the lifting element 30 , The locking element 341 partially protrudes from the second end 32 of the lifting element 30 out and into the ejection plate 41 engage. That is, an end of the locking element 341 can in an opening 411 the ejection plate 41 engage, causing the ejection plate 41 from the resting section 34 can be moved. When the resting section 34 the ejection plate 41 moved to a predetermined position (release position P4), the locking element releases 341 from the opening 411 the ejection plate 41 , The nailing machine 1 further comprises a spring element 50 , The two ends of the spring element 50 are on the case 10 and the resting section 34 of the lifting element 30 supported. The resting section 34 has a rib 344 around the end of the spring element 50 is placed, whereby the spring element 50 is positioned. The spring element 50 pushes the rest section 34 in the direction of the ejection plate 41 ,

When the actuator 20 is pressed and moved from the first position P1 to the second position P2, moves the locking portion 34 in the ejector plate 41 snaps, the ejection plate from the rest position P3 to the release position P4. Ie the actuator 20 moves the lifting element 30 , thus the ejector plate 41 moved. When moving the ejection plate 41 becomes the elastic disc 43 deformed and thus biased. When the actuator 20 reaches the second position P2, reaches the ejection plate 41 at the same time the release position P4. In this case, the latching section dissolves 34 from the ejection plate 41 , thus by the restoring force of the elastic disc 43 is quickly moved from the release position P4 to the rest position so that the nail can be ejected. The biasing organ 40 further includes a damping piece 44 , The damping piece 44 is on the housing part 10 attached and located under the elastic disc 43 and close to the movable end 432 , When the ejection plate 41 is moved from the release position P4 to the rest position P3, are the damping piece 44 and the elastic disc 43 on each other, whereby a damping effect is achieved. The biasing organ 40 can continue an adjustment knob 45 include, which is rotatable on the housing 10 is attached. The adjustment knob 45 is formed on one side with a projection and can be positioned in a printing position. When the adjustment knob 45 is positioned in the printing position, press the projection 451 one side of the elastic disc 43 , causing the deformation of the elastic disc 43 is enlarged so that the ejection plate 41 can produce a larger ejection force. Therefore, the ejection force can be adjusted. The nailing machine 1 further includes a nail magazine 60 at the bottom of the case 10 is arranged. The nail magazine 60 has a slot at one end 61 and takes inside a variety of nails arranged 60 up in the direction of the slot 61 be pressed. The ejection plate 41 becomes linear through the slot 61 moved and can thus eject the nails.

8th shows a further embodiment of the invention, wherein the sliding portion 33a through a sliding surface 331 and a bike 334 is trained. The wheel 334 is with the gear rod 22 connected and can be attached to the sliding surface 333 roll along. The actuator 20 also pushes through the sliding section 33a against the lifting element 30a , causing the ejection plate 41 as described above, can generate an ejection force.

9 shows yet another embodiment of the invention, wherein the locking portion 34a with the second end 32a of the lifting element 30b is formed in one piece. The lifting element 30b includes a sliding hole 35 , At the housing 10 is an axle rod 14a attached, which can be guided through the sliding hole and slide in this. When the actuator 20 is pressed and moved from the first position P1 to the second position P2, engages the latching portion 34a in the ejection plate 41 and moves the ejection plate 41 from the rest position P3 to the release position P4. When the actuator 20 reaches the second position P2, the locking portion is released 34a from the ejection plate 41 , thus by the restoring force of the elastic disc 43 is moved quickly from the release position P4 to the rest position P3, so that the nail can be ejected.

In summary, the invention relates to a power-saving nailing machine comprising: a housing 10 , an actuator 20 Moving in the housing 10 is arranged and a push rod 21 , a transmission rod 22 and a connecting rod 23 includes, wherein the connecting rod 23 at the two ends with the push rod 21 and the gear rod 22 is hingedly connected, wherein the actuator 20 can be moved between a first position P1 and a second position, a lifting element 30 , which at the two ends a sliding section 33 and a resting section 34 and a biasing member 40 that is an ejection plate 41 and a biasing element 42 includes, with the ejection plate 41 between a rest position P3 and a release position P4 can be moved, wherein, when the actuator 20 is moved from the first position P1 to the second position P2, the latching portion 34 in the ejector plate 41 snaps, the ejection plate moves from the rest position P3 to the release position P4, and the latching portion 34 from the ejection plate 41 triggers, thus the restoring force of the elastic disc 43 is quickly moved from the release position P4 to the rest position when the actuator 20 reaches the second position P2.

In summary, it can be seen that the invention can convert a smaller compressive force into a greater output force or torque by the rod group of the actuator. Since the rod group has at least two axis points, an improved power transmission ratio can be obtained. In addition, the push rod may have a smaller angle, whereby the operation of the nailing machine can be facilitated without changing the volume.

LIST OF REFERENCE NUMBERS

1

nailer

10

casing

11

housing part

12

screw

13

handle

14

axle rod

14a

axle rod

20

actuator

21

pushrod

22

transmission rod

23

connecting rod

30

lifting member

30a

lifting member

30b

lifting member

31

first end

32

second end

32a

second end

33

sliding

33a

sliding

331

sliding hole

332

bolt

333

sliding surface

334

wheel

34

detent portion

34a

detent portion

341

locking element

342

fastening pin

343

moving pen

344

rib

35

sliding hole

40

Vorspannungsorgan

41

ejector plate

411

opening

42

biasing

43

elastic disc

431

attachment end

432

moving end

44

damping pieces

45

Adjustment

451

head Start

50

spring element

60

nail magazine

61

slot

P1

first position

P2

second position

P3

rest position

P4

release position

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• TW 1413578 [0002]

Claims (10)

Energy-saving nailing machine with a housing ( 10 ), an actuator ( 20 ), which is movable in the housing ( 10 ) is arranged and a push rod ( 21 ), a gear rod ( 22 ) and a connecting rod ( 23 ), wherein the push rod ( 21 ) hinged at one end to the housing ( 10 ), the gear rod ( 22 ) hinged at one end to the housing ( 10 ), wherein the connecting rod ( 23 ) at the two ends with the push rod ( 21 ) and the gear rod ( 22 ) is hingedly connected, wherein the actuating member ( 20 ) between a first position (P1) and a second position, a lifting element ( 30 ) hinged to the housing ( 10 ) and at the first end ( 31 ) and at the second end ( 32 ) a sliding section ( 33 ) and a latching section ( 34 ), wherein the end of the gear rod ( 22 ) can slide along the sliding portion, and a biasing member ( 40 ), which has an ejection plate ( 41 ) and a biasing element ( 42 ), which with the ejection plate ( 41 ), wherein the ejection plate ( 41 ) between a rest position (P3) and a release position (P4) can be moved, wherein the biasing element ( 42 ) deformable on the housing ( 10 ), wherein the latching portion ( 34 ) with the ejection plate ( 41 ) is latched, wherein the latching portion ( 34 ) inserted in the ejection plate ( 41 ), the ejection plate moves from the rest position (P3) to the release position (P4) when the actuator ( 20 ) is moved from the first position (P1) in the second position (P2), and wherein the latching portion ( 34 ) from the ejection plate ( 41 ), which thus depends on the restoring force of the elastic disc ( 43 ) is moved quickly from the release position (P4) to the rest position when the actuator ( 20 ) reaches the second position (P2). Power-saving nailing machine according to claim 1, characterized in that the biasing element ( 42 ) by an elastic disc ( 43 ) is formed, which is a fastening end ( 431 ) and a movable end ( 432 ), the attachment end ( 431 ) on the housing ( 10 ), the movable end ( 432 ) with the ejection plate ( 41 ) is locked, and wherein the movable end ( 432 ) deformed and can push the ejection plate by the restoring force. Energy-saving nailing machine according to claim 2, characterized in that the biasing member ( 40 ) a damping piece ( 44 ), wherein the damping piece ( 44 ) on the housing part ( 10 ) and under the elastic disc ( 43 ) and close to the movable end ( 432 ) is located. Energy-saving nailing machine according to claim 2, characterized in that the biasing member ( 40 ) continue an adjustment button ( 45 ) rotatably mounted on the housing ( 10 ), wherein the adjusting knob ( 45 ) is formed on one side with a projection and can be positioned in a printing position, wherein the projection ( 451 ) against one side of the elastic disc ( 43 ), when the adjustment knob ( 45 ) is positioned in the printing position. Power-saving nailing machine according to claim 1, characterized in that the sliding section ( 33 ) through sliding holes ( 311 ) and a bolt ( 332 ) is formed, wherein the bolt ( 332 ) through the gear rod ( 22 ) and in the sliding holes ( 331 ) can slide. Power-saving nailing machine according to claim 1, characterized in that the sliding section ( 33a ) by a sliding surface ( 331 ) and a wheel ( 334 ) is formed, wherein the wheel ( 334 ) with the gear rod ( 22 ) and on the sliding surface ( 333 ) can roll. Power-saving nailing machine according to claim 1, characterized in that the latching portion ( 34 ) a latching element ( 341 ), a fixing pin ( 342 ) and a movable pen ( 343 ), wherein the fixing pin ( 342 ) and the movable pen ( 343 ) by the locking element ( 341 ) and at the second end ( 32 ) of the lifting element ( 30 ), and wherein the locking element ( 341 ) partly from the second end ( 32 ) of the lifting element ( 30 protrudes) and into the ejection plate ( 41 ) can engage. Power-saving nailing machine according to claim 1, characterized in that the latching portion ( 34a ) with the second end ( 32a ) of the lifting element ( 30b ) is formed in one piece, wherein the lifting element ( 30b ) a sliding hole ( 35 ), and wherein on the housing ( 10 ) an axle rod ( 14a ) is fixed, which can be guided by the sliding hole and slide in this. Power-saving nailing machine according to claim 1, characterized in that a spring element ( 50 ) is provided, wherein the two ends of the spring element ( 50 ) on the housing ( 10 ) and the latching section ( 34 ) of the lifting element ( 30 ) are supported, wherein the latching portion ( 34 ) a rib ( 344 ), around which the end of the spring element ( 50 ), whereby the spring element ( 50 ) is positioned, and wherein the spring element ( 50 ) the latching section ( 34 ) in the direction of the ejection plate ( 41 ) presses. Energy-saving nailing machine according to claim 1, characterized in that a nail magazine ( 60 ) provided at the bottom of the housing ( 10 ), wherein the nail magazine ( 60 ) at one end a slot ( 61 ) and inside a plurality of aligned nails ( 60 ), which in the direction of the slot ( 61 ), the ejection plate ( 41 ) linearly through the slot ( 61 ) and thus can eject the nails.

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