JPH01225565A - Printing head - Google Patents

Abstract

PURPOSE:To well perform printing, by providing a large number of recording electrode leads to one surface of a flexible sheet so as to allow the same to protrude from one side part of said sheet in such a state that the end parts of said leads are made uniform. CONSTITUTION:An elongated rectangular opening 4a is formed to the lower part of a flexible sheet 4 and a metal foil is bonded to the entire surface of said flexible sheet 4 and etched to form an electrode lead pattern. When the recording electrode leads 5 formed by etching said metal foil are cut in the opening 4a, said leads are formed so as to protrude from the lower end of the flexible sheet 4 in such a state that the leading end parts 5a... of said leads 5... are made uniform. A support 6 is fixed to the flexible sheet 4 by an adhesive in a state made flush with the leading end parts 5a... of the recording electrode leads 5.... Since the support 6 is arranged so as to be inclined in the relative moving direction (shown by an arrow X) with respect to the transfer sheet 2 of a printing head 1, only the leading end parts 5a... of the recording electrode leads 5... can be brought into contact with a thermal transfer sheet 2.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a print head for printing information such as characters and figures on a recording medium such as plain paper.

[Prior Art] Conventionally, an ink tape such as a transfer sheet has been used to transfer image information such as a single character or figure by an electric signal.
! 2. Description of the Related Art Electric transfer printers that print on a recording medium such as a sheet of paper are known.

This transfer type printer includes a discharge type that destroys the semiconductive layer of the ink tape with one energization, and a thermal transfer type that generates module heat in the resistance heating layer of the ink tape when energized.

[Problem to be solved by the invention] However, in the above-mentioned electric transfer printer,
In either case, the print head is equipped with a large number of recording electrode needles, and each of these recording electrode needles is arranged on the print head, so the structure is complicated and manufacturing is troublesome. .

An object of the present invention is to provide a printing head that has a cylindrical structure and can be easily manufactured.

[Means for Solving the Problems] In order to achieve the above-mentioned problems, the present invention provides a large number of recording electrode leads protruding from one side of a flexible sheet with their ends aligned. At the same time, a support for holding the sheet is fixed to the sheet.

[Function] According to the printing head of the present invention, by providing the sheet with a large number of recording electrode leads that protrude from one side of the flexible sheet with their ends aligned, the structure is simple; It is easy to manufacture, and by fixing a supporting body to the sheet, the flexible sheet can be reliably supported and printing can be performed satisfactorily.

[First embodiment] Hereinafter, with reference to FIGS. 1 and 2, the first embodiment of the present invention will be described.
An example will be explained.

FIG. 1 shows a state in which the printing head of the present invention performs printing. This printing head 1 prints image information such as characters and figures on a recording medium 3 such as paper using a thermal transfer sheet 2. , a flexible sheet 4, and this flexible sheet 4.
A large number of recording electrode leads 5 are patterned at predetermined intervals (for example, intervals of several tens of microns) on one surface.
・This flexible sheet 4 is fixed to the flexible sheet 4.
, and a return electrode 7 that moves integrally with the support 6, and a switching element 8 selectively applies an energizing voltage V to the recording electrode leads 5. ing.

The hTIA sheet 4 is a flexible and insulating thin sheet made of, for example, polyester resin, polyimide resin, or the like. Recording electrode lead 5 is made of gold (Au)
, copper (CU), =-/Kel (Xi), aluminum (A1), etc., and are formed with narrowing intervals from the upper side to the lower side, as shown in Figure 2. , the respective tip portions 5a protrude from the lower end of the flexible sheet 4 in a uniform state, and the protruding tip portions 5a... and the lower end of the flexible sheet 4 are bonded with an insulating adhesive 9. are fixed to each other. When forming such recording electrode leads 5..., an elongated rectangular opening 4a is formed in advance on the lower side of the flexible sheet 4, and a metal foil is coated on the entire surface of the flexible sheet 4. This metal foil is patterned into the above-mentioned shape by etching. That is, the spacing becomes narrower from the upper side of the flexible sheet 4 toward the openings 4a, and the openings 4a are bridged in parallel at narrower intervals. And in Figure 2, 2
When the patterned recording electrode leads 5 are cut within the openings 4a, as shown by the dashed dotted lines, the tips 5a are aligned and protrude from the lower end of the flexible sheet 4. . In addition, the recording electrode lead 5... is closed.
When a metal other than gold (Au) is used, gold plating or solder plating is applied to the surface to prevent oxidation.

As shown in FIG. 1, the flexible sheet 4 on which the recording electrode leads 5 are formed in this way has a " The support 6 is fixed to the bent lower side with the recording electrode leads 5 . . . That is, the support 6 is a plate-shaped member that holds the flexible sheet 4 so that it does not deform, and is made of a rigid material such as glass ceramic, polyimide resin, glass fiber-containing epoxy resin, or bismaleimide triazine resin. A recording electrode lead 5 whose lower end protrudes from the lower end of the flexible sheet 4.
It is fixed to the flexible sheet 4 with an adhesive so that it is flush with the tip al15a of.... Thereby, the support body 6 holds the recording electrode leads 5 so as not to be deformed. Further, this support 6 is arranged to be inclined in the direction of movement of the printing pad 1 relative to the transfer sheet 2 (direction of arrow X), so that the recording electrode leads 5 . . . It is inclined so that one side is low and the opposite side is high, and only the tip portions 5a of the recording electrode leads 5 are brought into contact with the thermal transfer sheet 2. Note that the support 6 is fixed to the carriage of the printing head l, the printer case, etc., but when it is fixed to the carriage, it runs and moves with the carriage, and when it is fixed to the printer case, it does not move. The thermal transfer sheet 2 and the recording medium 3 move.

On the other hand, the return electrode 7 is composed of a rotatable conductive roller body supported in parallel at a predetermined interval on the opposite side to the running direction of the support body 6, and is provided integrally with the support IY body 6. When the support 6 moves in the direction of the arrow X, the heat-sensitive transfer sheet 21 also moves in the same direction while rotating.

In addition, the thermal transfer sheet 2 has carbon, 11 from the top,
A resistance heating layer 2a made of polycarbonate or the like and gold (A
u) A sheet-shaped conductive layer 2b made of a metal with good conductivity and thermal conductivity such as copper (Cu), =-/Kel (Ni), aluminum (A1), etc., and a thermal transfer ink layer 2C are laminated. The structure is as follows. In addition, the recording medium 3 is plain paper,
Plastic sheets, leather sheets, etc.

Next, a case will be described in which printing is performed on the recording medium 3 using the printing pad 1 configured as described above.

Tip part 5a of recording electrode lead 5 of printing spatula l
...and with the return electrode 7 in contact with the upper surface of the thermal transfer sheet 2 of the recording medium 31, the printing head l moves in the direction of the arrow X relative to the recording medium 3, and When the energizing voltage V is selectively applied to the recording electrode leads 5 by the switching element 8, the tip portions 5a of the selected recording electrode leads 5 contact the thermal transfer sheet 2. Only the resistance heating layer 2a generates heat and generates Joule heat. This Joule heat is transmitted to the thermal transfer ink layer 2c via the conductive layer 2b, and the portion of the thermal transfer ink layer 2C corresponding to the heated portion of the resistance heating layer 2a is melted by this Joule heat, and this melted thermal transfer ink layer 2C
is transferred onto the recording medium 3.

Thereby, image information such as characters and figures can be printed satisfactorily. Note that the tip portion 5a of the recording electrode lead 5...
The current applied to the resistive heating layer 2a to generate heat passes through the intermediate conductive layer 2b, and is applied to the return electrode 7 through the resistive heating layer 2a again.

However, according to such a printing head l, the tips 5a of the recording electrode leads 5 are attached to the flexible sheet 4.
Since the pattern was formed so that the recording leads 5 were aligned and protruded from the lower end of the flexible sheet 4, a large number of recording leads 5 .
The support body 6 can be easily manufactured with high precision, and the support body 6 can be made so that the tips 5a of the recording electrode leads 5 and the lower end surface of the support body 6 are flush with each other. Since they are fixed to the flexible sheet 4, the tips 5a of the recording electrode leads 5 can be securely and firmly fixed and held. Therefore, when printing, simply by tilting the support 6 in the running direction (arrow X direction), the polar lead 5...
Only the leading end 5a... is placed against the thermal transfer sheet 2,
It is possible to make contact in a uniform and stable state, and it is possible to stably perform high-quality printing without variations in density.

[Second Embodiment] Next, a second embodiment of the present invention will be described with reference to FIG. 3 and 4V4. In this case, the same parts as in the first embodiment described above are denoted by the same reference numerals, and the explanation thereof will be omitted. 5... Attach the print driver chip 11 to T A B (Tape Automated Bon
ding) method. That is,
As shown in FIG. 3, the flexible sheet 4 has an approximately square storage opening 4b for storing the print driver chip 11, and one side of the flexible sheet 4 (the left side in the figure). Recording electrode electrodes 5 . . . are patterned in the same manner as described above. In this case, recording electrode lead 5...
. . . connect portions 5b extend within the storage opening 4b formed in the flexible sheet 4. Print driver chip 1
1 is for driving the recording electrode leads 5 by applying a current voltage .
The pads 11a... provided on the negative side (left side in the figure) of the recording electrode leads 5 extend into the storage opening I4b. ... is joined by solder to the recording electrode lead 5.
- Sealed with potting resin 12 from the side. Further, the support 6 fixed to the flexible sheet 4 via the recording electrode leads 5 is provided with a recess 6a corresponding to the storage opening 4b formed in the flexible sheet 4. Ori,
A potting resin 12 that seals the joint portion of the print driver chip l'l is housed in the four parts 6a. Further, the portion of the print driver chip 11 exposed from the flexible sheet 4 side is JJ IL coated with a mold resin 13.

Figure 4 shows the printing driver chip 11 placed on the flexible sheet 4.
First, as shown in FIG. 4(A), a carrier tape 1 made of the same material as the flexible sheet 4 is
4, an elongated rectangular opening 4a and a square storage opening 4b are formed by punching. In this case, a large number of holes 14a are arranged on the lower side -L of the carrier tape 14, into which the pawls of a sprocket (not shown) for positioning and conveyance are inserted. In this way, the carrier tape 14 with the openings 4a and 4b formed therein is sent to the first step, and as shown in FIG. metal foil 15
... is glued except for the top and bottom sides. And Figure 4 (
As shown in C), a 7-photoresist is provided on the metal foil 15, and the upper part thereof is exposed to light through a remask, developed, and then the unnecessary portions of the foil 15 are removed by an etching process. do. As a result, recording 1y in a predetermined shape,
Polar leads 5... are patterned. That is, in the elongated rectangular opening 4a on the right side, there are recording electrode leads 5...
. . are bridged, and connection portions 5 b . . . of the recording electrode leads 5 . . . are extended within the square housing opening 4 b.

After this, as shown in FIG. 4(D), the carrier tape 1
The print driver chip 11 is housed in the square storage opening 4b from the lower side of the recording electrode lead 5, and each of the recording electrode leads 5... has the bumps lla... of the print driver chip 11 extended inside thereof. Connection part 5. b... by soldering. Then, the bump lla of the print driver chip 11 and the connection portion 5b of the recording electrode lead 5...
After cutting out the joint part with potteng resin 12,
Cut along a cutting line 14b indicated by a two-dot chain line. As a result, the carrier tape 14 becomes the flexible sheet 4 having a predetermined shape, and the tip portions 5a of the recording electrode leads 5 are aligned and protrude from one end of the flexible sheet 4. Ru. Flexible sheet 4 formed in this way
is fixed to the support 6. After that, the exposed portion of the print driver chip 11 is molded with mold resin 13.
A printing head as shown in FIG. 3 is obtained.

Of course, such a printing head also has the same effects as the first embodiment described above.

In each of the embodiments described above, the tip portions 5a of the recording electrode leads 5 protruding from one side end of the flexible sheet 4.
is fixed to a support 6 fixed to a flexible sheet 4,
Although the tips 5a are held so as not to be deformed, if the recording electrode leads 5 are made of extremely rigid metal 1 such as stainless steel, the support 6 does not necessarily prevent the recording electrode leads 5 from being deformed. There is no need to hold the protruding tip portions 5a.

[Effects of the Invention] As described above in detail, according to the printing head of the present invention, a large number of recording electrode leads protrude from one side of the flexible sheet with their ends aligned. Since the sheet is provided with a support for holding it and is fixed to the sheet, the structure is simple, it can be easily manufactured, and uniform, stable, and high-quality printing can be performed.

[Brief explanation of the drawing]

1 and 2 show a first embodiment of the present invention, in which FIG. 1 is a cross-sectional view of the printing head in a state where printing is performed, and FIG.
The figure shows the process of forming recording electrode leads on a flexible sheet, Figures 3 and 4 show the second embodiment, and the third
The figure is a sectional view of the main part of the printing head, Figures 4 (A) to (D)
FIG. 2 is a diagram showing a manufacturing process for mounting a print driver chip on a flexible sheet. 1... Printing head, 4... Flexible sheet, 5... Recording electrode lead, 5a...
・Tip part, 6...Support body. Figure 1 Figure 2 Figure 3

Claims (1)

[Claims] A large number of recording electrode leads are provided on one side of the flexible sheet with their ends aligned, and a support for holding the sheet is fixed to the sheet. printing head.