1. Field of the Invention
The present invention generally relates to screen printing devices, and particularly to a screen printing device with an adjusting element for controlling the flow of ink.
2. Discussion of the Related Art
Generally, a screen printing device includes a printing screen and a blade on the printing screen. The printing screen includes a first portion where a plurality of predetermined patterns are defined, and a second portion where no patterns are defined. In printing, the printing screen is positioned on an article for printing, and ink is placed on the printing screen. The blade moves along the printing screen from one end to the other end, such that the ink is driven through the first portions of the printing screen by the blade and applied on the article. Thus, a plurality of images is formed on the article corresponding to the predetermined patterns of the printing screen.
Typically, to ensure that the ink covers the first portion of the printing screen completely, the ink should also be placed the second portion of the printing screen. As a result, the ink on the second portion of the printing screen is liable to be wasted. In addition, unused ink on the second portion of the printing screen is not easily cleaned out.
What is needed, therefore, is a new screen printing device that can overcome the above-mentioned shortcomings.
A screen printing device includes a blade, a rotatable connecting element, a lower baffle, and an adjusting element. The rotatable connecting element is fixed to the blade. The lower baffle rotatably connects with the rotatable connecting element. The lower baffle and the blade cooperatively define a chamber for receiving ink therebetween. The adjusting element is connected to the rotatable connecting element. The adjusting element is capable of making the lower baffle rotate thereby opening a bottom of the chamber.
Other novel features and advantages will become more apparent from the following detailed description, when taken in conjunction with the accompanying drawings.
The components in the drawings are not necessarily drawn to scale, the emphasis instead being placed upon clearly illustrating the principles of the present screen printing device. Moreover, in the drawings, like reference numerals designate corresponding parts throughout several views, and all the views are schematic.
Reference will now be made to the drawings to describe various exemplary embodiments of the present screen printing device in detail.
Referring to
The printing screen 19 defines a plurality of predetermined patterns according to a desired image to be printed on an article. The lower baffle 12 is substantially rectangular, and has a lower end 121 and an upper end 123. Each rotatable connecting element 13 is substantially a shaft in shape. One end of each rotatable connecting element 13 is fixed to the blade 11, and the other end of each rotatable connecting element 13 is rotatably connected to the lower baffle 12. Each adjusting element 14 is substantially a shaft in shape. Each adjusting element 14 is fixed to the upper end 123 of the lower baffle 12. The elastic elements 15 connect and resist between the lower baffle 12 and the rotatable connecting elements 13. A lower end 121 of the lower baffle 12 is in contact with the blade 11 by forces produced by the elastic elements 15, thus driving the lower baffle 12 close to the rotatable connecting elements 13. In this embodiment, each elastic element 15 is a spring. In an alternative embodiment, each elastic element 15 is an elastic band.
In addition, the two sliding elements 16 are configured on ends of the adjusting elements 14 correspondingly. The sliding elements 16 are used to contact with the printing screen 19. In this embodiment, each sliding element 16 is a pellet. The pellet may be made of durable material, such a marble. In an alternative embodiment, each sliding element 16 is a bearing. The reinforcing elements 17 are configured for enhancing a connection strength between the lower baffle 12 and the adjusting elements 14. Each reinforcing element 17 connects the lower baffle 12 with one of the adjusting elements 14. Each side baffle 18 is substantially triangular. The side baffles 18 are spaced apart between the blade 11 and the lower baffle 12. The side baffles 18 may be fixed in latching grooves (not shown) configured in the blade 11. The blade 11, the lower baffle 12 and the side baffles 18 cooperatively define a chamber 120 for receiving ink 101.
Referring also to
In the screen printing device 10, the ink 101 is not directly applied on the printing screen 19 before printing; but instead is received in the chamber 120 and discharged on the printing screen 19 while printing, on an as-needed basis. Therefore, the use of the ink 101 can be easily regulated. For example, when the blade 11 moves to a portion of the printing screen 19 where no patterns are formed, the external force applied on the blade 11 can be released to stop the ink 101 from flowing out from the bottom of the chamber 120. Thus, using the screen printing device 10 can conserve the amount of the ink 101 used in printing, compared to using a conventional screen printing device. Furthermore, the screen printing device 10 avoids unused ink 101 being left on the printing screen 19 and then being wasted.
It should be understood that the side baffles 18 may be fixed between the blade 11 and the lower baffle 12 by a plurality of latching grooves configured on the blade 11 or the lower baffle 12. Furthermore, the size of the chamber 120 can be easily adjusted by positioning the two side baffles 18 in two selected latching grooves among the different latching grooves.
Referring to
It should be noted that the scope of the present screen printing device is not limited to the embodiments described above. For example, in the screen printing device 10, the blade 11 may be made of aluminum and silica gel. More particularly, an upper portion of the blade 11 can be made of aluminum, and a lower portion of the blade 11 can be made of silica gel. The sliding elements 16 and the reinforcing elements 17 may be omitted. When the lower baffle 12 defines a recess therein facing the blade 11, the side baffles 18 may also be omitted.
It is believed that the present embodiments and their advantages will be understood from the foregoing description, and it will be apparent that various changes may be made thereto without departing from the spirit and scope of the invention or sacrificing all of its material advantages, the examples hereinbefore described merely being preferred or exemplary embodiments of the invention.
Number | Date | Country | Kind |
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200810300414.0 | Feb 2008 | CN | national |