1. Field of the Invention
The present invention relates to a stamp die assembly for a stamp, and more particularly to a stamp die assembly for a self-inking stamping device.
2. Description of Related Art
There are several types of stamps available for consumers to choose and one of the types is a self-inking type. A self-inking stamping device allows a user to stamp papers or envelopes continuously.
With reference to
The die bracket 40 has a transverse recess 41 and two clips 42. The transverse recess 41 is formed in a front edge of the die bracket 40. The clips 42 are formed respectively on the opposite sides of the transverse recess 41 and each has a keyed recess 421 formed in the clip 42 close to the transverse recess 41.
The replaceable stamp die 50 is mounted detachably on the die bracket 40 and has a median tab 51 and a resilient plug 52.
The median tab 51 is formed on a top surface of the replaceable stamp die 50, is mounted inside the transverse recess 41 of the die bracket 40. The plug 52 is formed on the top end of the median tab 51, and is mounted between the clips 42. The plug 52 has two side strips 521 formed respectively on two sides and engaging respectively inside the keyed recesses 421 of the clips 42.
Therefore, the conventional stamp die assembly is assembled by the engagement between the median tab 51 and the transverse recess 41 and the engagement between the side strips 521 and the keyed recesses 421. However, those components are formed together at the middle part of the conventional stamp die assembly. The user has to concentrate to align the components; otherwise the die bracket 40 and the replaceable stamp die 50 cannot engage with each other. Furthermore, the die bracket 40 and the replaceable stamp die 50 are easily oblique slightly to each other since the engagement only occurred at the middle part. The obliquity causes the conventional stamp die assembly interferes with other structures in the self-inking stamping device.
To overcome the shortcomings, the present invention provides a stamp die assembly for a self-inking stamping device to mitigate or obviate the aforementioned problems.
The main objective of the present invention is to provide a stamp die assembly that is easily assembled. The stamp die assembly for a self-inking stamping device has a die bracket and a replaceable stamp die. The replaceable stamp die is mounted detachably on the die bracket via the engagement between the median tab of the replaceable stamp die and the transverse recess of the die bracket, and via the engagement between the side strips of the replaceable stamp die and the keyed recesses of the die bracket. The die bracket has two elongated keyed protrusions parallel with each other and near two side edges. The replaceable stamp die has two guiding channels engaging with the keyed protrusions. Therefore, the related position of the die bracket and the replaceable stamp die is fixed.
Other objectives, advantages and novel features of the invention will become more apparent from the following detailed description when taken in conjunction with the accompanying drawings.
With reference to
The die bracket 10 has a seat 11, two side transverse tabs 14, a transverse recess 15, two clips 16, a fastener bracket 17 and two keyed protrusions 19. The seat 11 has a thickness, a front edge, a back edge, two side edges, a bottom surface 111 and a top surface 112. The side transverse tabs 14 are formed on the top surface 112 respectively on the side edges of the seat 11. The transverse recess 15 is formed through the seat 11 on the front edge. The clips 16 are formed on the top surface 112 of the seat 11, are formed respectively on opposite sides of the transverse recess 15 and each has a keyed recess 161 formed in the clip 16 close to the transverse recess 15. The keyed recesses 161 face each other. The fastener bracket 17 is formed on the back edge of the seat 11 and has a slot 171 formed through the fastener bracket 17. The keyed protrusions 19 are elongated, are formed separately on the bottom surface 111 of the seat 11, are formed respectively near the side edges of the seat 11 and are parallel with each other.
The replaceable stamp die 20 is made of rubber, is mounted detachably on the die bracket 10 and has a die block 21, a fastener 25, a median tab 23 and a resilient plug 24.
With further reference to
The fastener 25 is formed on the back edge of the die block 21 and extends through the slot 171 of the fastener bracket 17 in the die bracket 10.
The median tab 23 is formed on the top surface 212 of the die block 21, is mounted inside the transverse recess 15 of the die bracket 10 and has a thickness and a top end. The thickness of the median tab 23 is the same as that of the seat 11.
With further reference to
With further reference to
When the die bracket 10 and the replaceable stamp die 20 assembled with each other, the keyed protrusions 19 slide into the guiding channels 213 through the end openings. Since the guiding channels 213 and the keyed protrusions 19 are respectively near two side edges, the related position of the die bracket 10 and the replaceable stamp die 20 is fixed. Therefore, the median tab 23 precisely engages the transverse recess 15 and the side strips 243 precisely engage with the keyed recesses 161 of the clips 16. Thus, the stamp die assembly as described is easily assembled.
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. 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.