1. Field of the Invention
The present invention relates to a stapler and a component of the stapler, and more particularly to a stapler and a multi-inclined anvil structure thereof.
2. Description of Related Art
A conventional stapler has an anvil. The anvil is applied for clinching two legs of a staple, such that sheets of paper can be stapled and assembled, and the clinched staple can be kept from piercing through sheets of paper or injuring a user.
With reference to
However, the width of the recessed top of the conventional anvil body 50 is uniform from a front side to a rear side of the anvil body 50, and the planar portion 52 is horizontal relative to the top of the anvil body 50. Therefore, during stapling, the legs of the staple piercing through the sheets of paper are not positioned easily, and a stapling quality is relatively unstable. When the stapler is applied to staple a few sheets of paper, such as two sheets, a sliding phenomenon occurs at the legs of the staple easily. When the stapler is applied to staple many sheets of paper, such as more than twenty sheets, a piercing width between the legs of the staple piercing through the paper becomes narrowed, such that the legs of the staple cannot be clinched well easily. The legs of the staple that are not clinched well will injure a user easily.
To resolve the aforementioned problems, with reference to
Further with reference to TW patent No. I409146, the anvil body has a horizontal bottom surface and an inclined bottom surface. The horizontal bottom is located at a rear side of the inclined bottom surface, and the inclined bottom surface of the anvil body is formed as a structure that has a high front and a low rear. When the stapler is stapling a few sheets of paper, a piercing working plane of the staple is the horizontal bottom surface, and a piercing direction of the staple is perpendicular to the horizontal bottom surface. When the stapler is stapling many sheets of paper, the legs of the staple approach toward the inclined bottom surface. However, the bottom of the anvil body needs to form the horizontal bottom surface and the inclined bottom surface. As a result, during stapling, the legs of the staple are relatively harder to be positioned. Furthermore, the bottom of the anvil body has a relatively larger size along an extension direction between the front side and the rear side of the anvil body, such that during stapling, the legs of the staple may be askew relative to the anvil body, and a manufacturing cost of the anvil body with the anvil structure is increased.
To resolve problems of staple-sliding, staple being not clinched well, and staple being askew that occur easily when a conventional anvil structure of a conventional stapler is stapling, and to resolve the problem of high manufacturing cost, the main objective of the present invention is to provide a stapler and a multi-inclined anvil structure thereof that can be suitable for stapling both many sheets of paper and a few sheets of paper, can be kept from a situation that two legs of a staple are askew relative to the anvil structure, and have a relatively low manufacturing cost.
The multi-inclined anvil structure is applied for bending an ejected staple, and the multi-inclined anvil structure has a body, a first side, a second side and a top. The body has a horizontal imaginary plane. The second side is opposite to the first side.
The operating portion is formed in the body and located between the first side and the second side. The operating portion is recessed downward in the top of the body to form a recess and has a bottom surface. The operating portion has a projection plane that is parallel with the horizontal imaginary plane, wherein a part of the projection plane adjacent to the first side is narrower than a part of the projection plane adjacent to the second side.
The flattening surface is formed in the bottom surface of the operating portion and has two inclined bottom portions being inclined relative to the horizontal imaginary plane. An inclined state of each inclined bottom portion is that a position of the inclined bottom portion adjacent to the first side is higher than a position of the inclined bottom portion distal from the second side. An inclined bottom angle is formed between an extension direction of the inclined bottom portions and an extension direction of the horizontal imaginary plane.
The stapler has a base, an arm assembly, a magazine assembly and a multi-inclined anvil structure.
The base has a clinching end. The arm assembly is pivotally mounted on the base. The magazine assembly is pivotally mounted on the base, and is located between the arm assembly and the base.
The multi-inclined anvil structure is mounted on the clinching end of the base and has a body, an operating portion and a flattening surface. The body has a horizontal imaginary plane, a first side, a second side opposite to the first side, and a top facing toward the arm assembly. The operating portion is formed in the body and located between the first side and the second side. The operating portion is recessed downward in the top of the body to form a recess and has a bottom surface. The operating portion has a projection plane that is parallel with the horizontal imaginary plane, wherein a part of the projection plane adjacent to the first side is narrower than a part of the projection plane adjacent to the second side. The flattening surface is formed in the bottom surface of the operating portion and has two inclined bottom portions being inclined relative to the horizontal imaginary plane. An inclined state of each inclined bottom portion is that a position of the inclined bottom portion adjacent to the first side is higher than a position of the inclined bottom portion distal from the second side. An inclined bottom angle is formed between an extension direction of the inclined bottom portions and an extension direction of the horizontal imaginary plane.
Other objectives, advantages and novel features of the present invention will become more apparent from the following detailed description when taken in conjunction with the accompanying drawings.
With reference to
With reference to
The flattening surface 24, the high-sheet-capacity operating surface 25 and the low-sheet-capacity operating surface 26 are formed in the operating portion 23. The flattening surface 24 is formed on the bottom surface of the operating portion 23. The flattening surface 24 has two inclined bottom portions 241, a connecting portion 242 and two first contact portions 243. The connecting portion 242 is connected between the two inclined bottom portions 241. The first contact portions 243 are respectively connected with ends of the two inclined bottom portions 241 at positions opposite to the connecting portion 242, such that the flattening surface 24 is formed as a structure that is left-right symmetrical relative to the connecting portion 242. The inclined bottom portions 241 are inclined relative to the horizontal imaginary plane P, and an inclined state of each inclined bottom portion 241 is that a part of the inclined bottom portion 241 adjacent to the first side 21 is higher than a part of the inclined bottom portion 241 distal from the first side 21. Therefore, the inclined state of each inclined bottom portion 241 has a high front and a low rear. An inclined bottom angle Al is formed between an extending direction of the inclined bottom portions 241 and an extension direction of the horizontal imaginary plane P. A range of the inclined bottom angle A1 is 2.5 degrees to 3 degrees. Preferably, the inclined bottom angle A1 is 3 degrees. Each inclined bottom portion 241 has a first end and a second end. The first end of the inclined bottom portion 241 is defined as an end of the inclined bottom portion 241 adjacent to the first side 21. The second end of the inclined bottom portion 241 is defined as an end of the inclined bottom portion 241 adjacent to the second side 22. A depth D is formed between the second end of the inclined bottom portion 241 and the top 201 of the body 27. The depth D is 0.5 millimeters. Each inclined bottom portion 241 has an inclined bottom width W3 defined as being parallel with the horizontal imaginary plane P, such that the inclined bottom width W3 is a horizontal distance between the first end and the second end of the inclined bottom portion 241. The inclined bottom width W3 is 0.8 millimeters. The connecting portion 242 is formed as a structure that has a protrusion formed at a middle of the connecting portion 242. The first contact portions 243 extend from the inclined bottom portions 241 toward the top 201 of the body 27. When the stapler 10 is applied for stapling paper, the two first contact portions 243 are as first contact positions between two legs of a staple and the multi-inclined anvil structure 20. The legs of the staple are bent on the two first contact portions 243.
The high-sheet-capacity operating surface 25 is connected with a front end of the flattening surface 24 and is inclined. A high-sheet-capacity operating angle A2 is formed between the high-sheet-capacity operating surface 25 and the first side 21. The low-sheet-capacity operating surface 26 is connected with a rear end of the flattening surface 24 and is inclined. A low-sheet-capacity operating angle A3 is formed between the low-sheet-capacity operating surface 26 and the second side 22. The high-sheet-capacity operating angle A2 is larger than the low-sheet-capacity operating angle A3. A range of the high-sheet-capacity operating angle A2 is 55 degrees to 65 degrees. Preferably, the high-sheet-capacity operating angle A2 is 60 degrees. When the stapler 10 is applied to stapling many sheets of paper, such as more than twenty sheets, the high-sheet-capacity operating surface 25 is a forcible positioning point for the legs of the staple. A range of the low-sheet-capacity operating angle A3 is 35 degrees to 45 degrees. Preferably, the low-sheet-capacity operating angle A3 is 40 degrees. When the stapler 10 is applied for stapling a few sheets of paper, such as two sheets, the inclined bottom portions 241 can position the legs of the staple, and the low-sheet-capacity operating surface 26 can abut the legs of the staple to eliminate a problem that the legs of the staple are askew while stapling.
With reference to
With reference to
With reference to
Further with reference to
Therefore, the multi-inclined anvil structure 20 of the stapler 10 of the present invention can have an improved stapling quality when stapling many or a few sheets of paper. When stapling a few sheets of paper, the legs 31 of the staple 30 can be positioned at the connection position between the inclined bottom portions 241 and the low-sheet-capacity operating surface 26, and abut the inclined bottom portions 241, such that the legs 31 after being positioned cannot slide and can have an improved flattening effect. When stapling many sheets of paper, the legs 31 of the staple 30 can be positioned at the connection position between the inclined bottom portions 241 and the high-sheet-capacity operating surface 25, and abut the high-sheet-capacity operating surface 25. Then, the part of the projection plane 231 of the operating portion 23 adjacent to the first side 21 can provide the narrower width W1, such that the legs 31 having the narrowed piercing width W4 can be clinched smoothly to have an improved clinching effect. In addition, the flattening surface 24 of the multi-inclined anvil structure 20 is inclined relative to the horizontal imaginary plane P, and is not a combination of horizontal surfaces and inclined surfaces. Therefore, the multi-inclined anvil structure 20 of the present invention can be manufactured easily and has a lower manufacturing cost compared to a bottom surface that is combined by horizontal portions and inclined portions of a conventional anvil structure.
From the above description, it is noted that the present invention has the following advantages: the part of the projection plane 231 adjacent to the first side 21 is narrower than the part of the projection plane 231 adjacent to the second side 22, such that when the stapler 10 having the multi-inclined anvil structure 20 is applied to staple many sheets of paper, the legs 31 of the staple 30 can be positioned at the part of the operating portion 23 adjacent to the first side 21 responsive to a situation in which the piercing width W4 becomes narrowed. Therefore, the stapler 10 has the well-clinched quality for the staple 30. The inclined bottom portions 241 have the high front and the low rear, such that when the stapler 10 having the multi-inclined anvil structure 20 is applied to staple a few sheets of paper, the legs 31 of the staple 30 can be positioned smoothly and the staple-sliding problem can be resolved effectively. Furthermore, the flattening surface 24 of the multi-inclined anvil structure 20 is not composed by horizontal surfaces and inclined surfaces, such that the manufacture of the multi-inclined anvil structure 20 is relatively easy and the multi-inclined anvil structure 20 has the relatively low manufacturing cost.
Even though numerous characteristics and advantages of the present invention have been set forth in the foregoing description, together with details of the structure and function of the invention, the disclosure is illustrative only, and changes may be made in detail, especially in matters of shape, size, and arrangement of parts within the principles of the invention to the full extent indicated by the broad general meaning of the terms in which the appended claims are expressed.
Number | Date | Country | Kind |
---|---|---|---|
103138601 | Nov 2014 | TW | national |