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 hollow body (30) has a front opening, a back, two sidewalls, two side slots (302), two semi-circular notches (301) and an ink pad (33). The side slots (302) are defined through the sidewalls and each has a top edge. The semi-circular notches (301) are defined respectively on the top edges of the side slots (302). The ink pad (33) is mounted inside the hollow body (30).
The stamp push (50) is mounted slidably on the hollow body (30) and has a front, a back, two side edges, a handle (52), two side tabs (51) and a slide rod (53). The front of the stamp push (50) faces the back of the hollow body (30). The handle (52) is formed on the back of the stamp push (50). The side tabs (51) extend from the front respectively on the side edges of the stamp push (50), correspond to and are mounted respectively and slidably on the sidewalls of the hollow body (30). The slide rod (53) is mounted slidably inside the side slots (302) through the side tabs (51) of the stamp push (50).
The springs (60) are mounted between the back of the hollow body (30) and the front of the stamp push (50).
The stamp die assembly (40) is mounted rotatably inside the hollow body (30) and has a die bracket (41) and a replaceable stamp die (42).
With further reference to
The replaceable stamp die (42) is mounted detachably on the back of the die bracket (41) against the ink pad (33) and has a front surface, a patterned surface, two side edges, a plug (422) and two mounting tabs (421). The patterned surface is opposite to the front surface of the replaceable stamp die (42) and abuts against the ink pad (33). The plug (422) is formed on the front surface, is mounted between the clips (413) and has two side strips (423). The side strips (423) are formed respectively on opposite sides of the plug (422), and correspond to and engage respectively with the clips (413). The mounting tabs (421) are formed respectively on the side edges of the replaceable stamp die (42), and are mounted respectively inside the clearance between the corresponding one of the positioning tabs (413) and the back of the die bracket (41). When the replaceable stamp die (42) becomes worn, it can be replaced with a new one to maintain the stamping quality of the self-inking stamp.
To stamp a paper with the self-inking stamp, the stamp push (50) is pressed with a force toward the stamp die assembly (40) so the slide rod (53) pushes the die bracket (41) and causes the stamp die assembly (40) to rotate to 180 degrees. The patterned surface rotates to face the paper and stamps characters or images on the paper. When the urging force on the stamp push (50) is relaxed, the springs (60) press against the stamp push (50) with a resilient force and cause the stamp push (50) to go back to the original position. The stamp die assembly (40) rotates to 180 degrees and the patterned surface of the replaceable stamp die (42) is located against the ink pad (33) again.
However, each of the mounting tabs (421) of the replaceable stamp die (42) has a width about 3-5 millimeter (mm) and causes the size of the replaceable stamp die (42) to be excessively large. The die bracket (41), hollow body (30) and stamp push (50) have to be sized large enough to correspond to the replaceable stamp die (42) so as the self-inking stamping device is bulky and has a high cost.
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 invention is to provide a stamp die assembly for a self-inking stamping device that lowers the cost of the self-inking stamp.
A stamp die assembly for a self-inking stamping device in accordance with the present invention comprises a die bracket and a replaceable stamp die.
The replaceable stamp die is detachably mounted on the bracket and has a fastener and a plug.
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 bracket block (11), two side transverse tabs (14), a transverse recess (15), a spine (18), two clips (16) and fastener bracket (17).
The bracket block (11) has a thickness, a front edge, a back edge, two side edges, a bottom surface (111), a top surface (112), two bottom side lips (113) and a bottom opening (114). The bottom side lips (113) are formed on the bottom surface, respectively on the side edges of the bracket block (11). The bottom opening (114) is defined on the bottom surface between the bottom side lips (113).
The side transverse tabs (14) are formed on the top surface (112) respectively on the side edges of the bracket block (11) and each has an outside and an overturning tab (142) formed on the outside.
The transverse recess (15) is defined through the bracket block (11) on the front edge. The spine (18) is formed on the top surface (112) of the bracket block (11) and between the side transverse tabs (14) behind the transverse recess (15). The clips (16) are defined on the top surface (112) of the bracket block (11), respectively on the opposite sides of the transverse recess (15) and each has a recess (161) defined on the clip (16) close to the transverse recess (15). The recesses (161) face each other.
The fastener bracket (17) is defined on the back edge of the bracket block (11) and has a slot defined through the fastener bracket (17).
With reference to
The die block (21) is mounted inside the bottom opening (114) of the bracket block (11) between the bottom side lips (113) and has a top surface (212), a patterned surface (211), a front edge and a back edge. The top surface (212) of the die block (21) faces against the bottom surface (111) of the bracket block (11). The patterned surface (21) is opposite to the die block (21) and has carved patterns or characters.
With reference to
The median tab (23) is defined on the top surface (212) of the die block (21), is mounted inside the transverse recess (15) and has a thickness and a top end. The thickness of the median tab (23) is the same as that of the bracket block (11).
With reference to
The stamp die assembly for a self-inking stamping device in accordance with the present invention is mounted rotatably inside a hollow body and is driven by a stamp push of the self-inking stamping device to stamp papers or envelopes. As the operation of the self-inking stamping device is conventional and not the focus of the invention, it is described only briefly.
When carved patterns or characters on the replaceable stamp die (20) are worn, the replaceable stamp die (20) is taken off from the die bracket (10) by pressing the optional releasing tabs (244) toward each other to cause the side strips (243) to disengage respectively from the recesses (161) of the clips (16). Then a new replaceable stamp die (20) is mounted to the die bracket (10) whereafter stamping processes can be begun. The replaceable stamp die (20) is mounted to the die bracket (10) with the plug (24) and the fastener (25) without mounting tabs formed respectively on sides of the die block (21). A width of the replaceable stamp die (20) is reduced by about 6-10 millimeters (mm) relative to a conventional replaceable stamp die (20). Components of the self-inking stamping device are sized small to correspond to the stamp die assembly in accordance with the present invention and the cost of the self-inking stamping device is lowered. In addition, the optional releasing tabs (244) allow a user to easily take the replaceable stamp die (20) off from the die bracket (10) without strenuous effort.
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.