Seiko epson corporation (20240109310). Liquid Discharge Apparatus simplified abstract

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Liquid Discharge Apparatus

Organization Name

seiko epson corporation

Inventor(s)

Masahiko Tsuyuki of Chino (JP)

Makoto Takamuku of Matsumoto (JP)

Liquid Discharge Apparatus - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240109310 titled 'Liquid Discharge Apparatus

Simplified Explanation

The liquid discharge apparatus described in the abstract includes a substrate unit with various components such as a piezoelectric element, a reference voltage signal output circuit, an electrolytic capacitor, and a wiring substrate. The reference voltage signal output circuit, electrolytic capacitor, and connectors are positioned on rigid members laminated on different regions of the substrate unit.

  • The liquid discharge apparatus includes a substrate unit with a piezoelectric element, a reference voltage signal output circuit, an electrolytic capacitor, and connectors.
  • The reference voltage signal output circuit is positioned on a rigid member laminated on a region of the substrate unit.
  • The electrolytic capacitor is positioned on another rigid member laminated on a different region of the substrate unit.
  • The connectors are provided on additional rigid members laminated on the substrate unit.
      1. Potential Applications

This technology can be used in inkjet printers, medical devices, and industrial equipment that require precise liquid discharge capabilities.

      1. Problems Solved

This technology solves the problem of accurately controlling liquid discharge in various applications by providing a stable reference voltage signal output circuit and efficient electrolytic capacitor placement.

      1. Benefits

The benefits of this technology include improved accuracy and efficiency in liquid discharge processes, leading to higher quality output in printing, medical procedures, and industrial applications.

      1. Potential Commercial Applications of this Technology

This technology can be commercially applied in the manufacturing of inkjet printers, medical devices, and industrial equipment that require precise liquid discharge mechanisms.

      1. Possible Prior Art

One possible prior art could be the use of piezoelectric elements in inkjet printers for precise liquid droplet ejection.

    1. Unanswered Questions
      1. How does this technology improve the efficiency of liquid discharge processes?

This article does not provide specific details on how the technology enhances the efficiency of liquid discharge processes. Further research or experimentation may be needed to understand this aspect better.

      1. What are the specific industries that can benefit the most from this technology?

The article mentions potential applications in inkjet printers, medical devices, and industrial equipment, but it does not delve into the specific industries within these sectors that could benefit the most from this technology. Further analysis of market needs and demands may be necessary to determine the key industries for implementation.


Original Abstract Submitted

there is provided a liquid discharge apparatus, in which a substrate unit having a first connector and a piezoelectric element, a reference voltage signal output circuit, an electrolytic capacitor, and a wiring substrate having a plurality of rigid members and a flexible member, the reference voltage signal output circuit has a first front surface and is provided on a first rigid member laminated on the first surface of the first region, the electrolytic capacitor has a second front surface and is provided on a second rigid member laminated on the first surface of the second region, the second connector is provided on a third rigid member laminated on the second surface of the second region, and the first rigid member and the second rigid member are positioned such that a normal direction of the first front surface and a normal direction of the second front surface intersect each other.