JPH01288462A - Recording head - Google Patents

Abstract

PURPOSE:To facilitate fabrication and to produce sufficient magnetic attraction force, in a printer for transferring thermoplastic magnetic ink, by employing such substrate as an insulation layer having specific thickness is formed through sputtering onto the surface of a metallic substrate burried with a magnetic member. CONSTITUTION:A metallic substrate 1 has a groove in which a magnetic member 2 is pressure adhered. Aluminum is employed for the substrate 1 while permendur is employed for the member 2. The substrate 1 and the member 2 are polished integrally and SiO2 having thickness thinner than 50mum is formed, as an insulation layer 4, through sputtering. Then a glass glaze layer 3 is formed through thick film printing and sintered. It is employed as a substrate, then a heater layer 5 and an electrode layer 6 are sputtered thereon, heater elements and power supply electrodes are formed through lithography and a protective layer 7 is sputtered thereon. Since only an insulation layer thinner than 50mum exists between the heater element and the magnetic member, sufficiently high magnetic attraction force can be produced.

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Application Field] The present invention relates to a non-impact printing device, and more specifically, to a non-impact printing device, which transfers thermoplastic magnetic ink to a transfer medium by the action of heat and magnetism, It relates to a printing device that obtains characters and images.

[Conventional technology]

Many small-sized, low-cost, non-impact printing methods using magnetic ink have been proposed.

For example, magnetic ink is used as the ink for the fused thermal transfer method,
A magnetic means provided separately from the heat supply means applies a magnetic attraction force to the ink corresponding to the thermal image to cause the ink to be transferred. Furthermore, as shown in FIG. 2, it has been considered to bond a magnetic member to the back surface of the thermal head, which is the heat supply means, to further increase the magnetic attraction force.

[Problem to be solved by the invention]

However, in such a conventional configuration, it is difficult to precisely adhere the magnetic member to the position of the heating element of the thermal head, and since the ceramic substrate is interposed between the heating element and the magnetic member, the heat generation If there is a distance between the cord and the magnetic member and a sufficient magnetic attraction force cannot be generated, a ρ problem may occur.

On the other hand, as shown in Figure 3, it is possible to improve the magnetic attraction force by making the entire ceramic substrate thinner or by making the part where the magnetic member is bonded less than 4゜. It is difficult to thin the ceramic substrate uniformly and accurately, and there are also problems in terms of strength.

The present research solves these conventional problems, is easy to manufacture, and can generate sufficient magnetic attraction force3.
I am trying to provide a self-recording head ().

[Failure to solve the problem]

The recording head of the present invention has a means for applying thermal energy to a film coated with a thermoplastic magnetic ink, and a means for generating a magnetic attraction force to the MpA plastic ink, by controlling the application of thermal energy to the thermoplastic magnetic ink. In printing 'AM', which transfers the molten part of the ink to a transfer medium located apart from the film by magnetic attraction force, a metal plate embedded with a magnetic member that is part of the magnetic attraction force generating means is used. It is characterized by a structure in which an insulating layer with a thickness of 50 μm or less is formed by sputtering or the like on the surface of a scrap substrate, and a δ heat layer, a heating element layer, an electrode layer, and a protective layer are formed on the substrate. shall be.

〔Example〕

One embodiment of the recording head of the present invention will be described with reference to FIG. FIG. 1 is a sectional view of the recording head of the present invention.

A metal substrate 1 has a groove into which a magnetic member 2 is inserted, and a magnetic member 3 is press-fitted into the groove. The metal scrap substrate 1 is made of aluminum, and the magnetic member 2 is made of permendur. metal! [1 and the magnetic member 2 are finished by polishing so that they are integrated, and a Si
Ox is formed by spackling. A glass glaze layer 3 is thickly printed and fired on top of the glass glaze layer 3, and this is used as a substrate to form a thermal head.TaxN is used as a heating element B5, an electrode layer 6 is formed, and AU is spackled and photolithography is performed. A heating element and a supply/distribution fi pole are formed by this. In addition, the "knee protective layer 7" S 10
s, T at Os are formed by spuckling.

In the configuration of this embodiment, the #! % Since the magnetic member 2 is placed directly under the element, and the scrap metal substrate 1 is used instead of the ceramic substrate 8, heat dissipation is good, and it is easy to connect the properly arranged electrodes and the weight of the metal substrate. Therefore, it is also possible to obtain sufficient current capacity on the common electrode side.

(Effects of the Invention) According to the present invention, the gold layer substrate 1 serving as a heat dissipation plate of a recording head
and the magnetic member 2 are integrally formed, and the heating element etc. are formed on top of it, so it has sufficient mechanical strength.In addition, the heating element can be referenced to the position of the magnetic member using photorin etc. It can be formed with high precision, and furthermore, since what is present between the heating element and the magnetic member is an insulating layer glue having a thickness of 50 μm or less, a sufficient magnetic attraction force can be generated.

[Brief explanation of the drawing]

FIG. 1 is a sectional view of a recording head of the present invention, and FIGS. 2 and 3 are sectional views of a conventional recording head. DESCRIPTION OF SYMBOLS 1... Metal, W[ 2... Magnetic member 3... Glass glaze layer 4... Insulating layer 5... Heat generating layer 6... Electrode layer 7... Protective layer 8... Ceramic substrates and above People who are currently on the market Seiko Epson Co., Ltd. agent Patent attorney Picture book Kisanbe and 1 other person

Claims (1)

[Claims] It has a means for applying thermal energy to a film coated with a thermoplastic magnetic ink, and a means for generating a magnetic attraction force to the thermoplastic ink, and by controlling the application of thermal energy, the melted part of the thermoplastic ink is attracted by the magnetic attraction force. In a printing device that transfers images to a transfer medium located apart from the film, a metal substrate having a thickness of 50 μm or less is placed on the surface of a metal substrate in which a magnetic member, which is a part of the magnetic attraction force generating means, is embedded. A recording head characterized in that it has a structure in which a substrate is an insulating layer formed using a sputter cylinder or the like, and a heat storage layer, a heat generating layer, an electrode layer, and a protective layer are formed on the substrate.