JP4037140B2 - Thermal head - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
[0002]
  The present invention provides a plurality of shortScaleThermal head (hereinafter referred to as “short”ScaleSay “Thermal Head”. ) Are connected to a long thermal head (hereinafter referred to as “long thermal head” or simply “thermal head”).
[Prior art]
[0003]
  As a type of thermal head, there is known a thermal head in which a plurality of ceramic substrates on which a plurality of fine heating elements are formed on a heat sink are further applied by applying a semiconductor circuit forming technique. In recent years, the thermal head has been widely used as a small-sized printing mechanism of a facsimile using thermal recording paper as recording paper.
[0004]
  This type of printing apparatus requires a long thermal head. In a long thermal head in which heating elements are arranged in a row on a single heat generating substrate, a defect is caused if there is a defect in one portion of the long heat generating substrate, resulting in poor yield. In view of this, a plurality of line-type thermal heads are arranged so that the heating elements are arranged substantially in a straight line to form a long thermal head. In this way, when a plurality of line-type thermal heads are joined together to form a long thermal head, a heating element is formed on a long ceramic substrate, and the substrate is cut on the heating element array to make a shortScaleAfter obtaining a line-type thermal head, a plurality of short heads are arranged so that the heating element array is substantially aligned.ScaleLine type thermal heads are spliced together. In the long thermal head combined in this way, the line type thermal head is combined so that the substrate end faces at both ends in the heating element arrangement direction face the adjacent substrate end faces, so the mechanical accuracy of the connecting portion is not good. Then, in the joint portion of the heating element arrangement, the interval between the heating elements becomes wider than the other parts. As a result, when the connected thermal heads are separated from each other, a problem of white stripes occurs. On the contrary, if the overlap between the connected thermal heads is large, there is a problem that the phenomenon of black stripes occurs.
[0005]
  In order to solve these problems, Japanese Patent Laid-Open No. 5-138911 discloses a plurality of short-circuits.ScaleA long thermal head is disclosed in which a mark is attached to a joint portion of a thermal head so that a space between heating elements is a predetermined space.
[0006]
  FIG. 1 is a perspective view of a long thermal head described in JP-A-5-138911. 2-1, 2-2,... Are short line-type thermal heads, and each line-type thermal head 2-1, 2-2,... Has a long side end on the main surface of the heat generating substrate 6. The heating elements are formed in a row in the vicinity of the portion. Reference numeral 8 denotes a heating element arrangement. The heating substrate 6 of each line type thermal head 2-1, 2-2,... Is fixed to each support plate 7 with an adhesive or a double-sided adhesive tape. Reference numeral 10 denotes a protective cover.
[0007]
  The heat generating substrate 6 is formed by using, for example, a ceramic substrate whose surface is covered with a glassy glaze layer, and a heating element and electrodes are arranged on the glaze layer by a thin film method or a thick film method. A protective film is formed on the heating element. Each line type thermal head 2-1, 2-2,... Has a drive circuit semiconductor integrated circuit device mounted in the protective cover 10. Reference numeral 12 denotes a connector connected to an external circuit. The heating substrate 6 of each line type thermal head 2-1 to 2-5 is cut in a direction in which the substrates at both ends of the heating element array 8 are inclined with respect to the main scanning line direction (the direction of the heating element array). Notches are provided. Between adjacent heat generating substrates, a plurality of notches face each other and are arranged in the main scanning line direction.
[0008]
  FIG. 2 shows a part of the heating element and electrodes of the heating substrate 6 of FIG. Reference numerals 14 a and 14 b denote heating elements, which are arranged in a row along the end side 22 on the heating substrate 6. The heating element 14 a is connected to the common electrode 18, the heating element 14 b is connected to the selection electrode 20, and a pair of adjacent heating elements 14 a and 14 b are connected by a connecting electrode 16. A pair of electrodes 14a and 14b connected by the connecting electrode 16 constitute a heating element for one dot. A protective film is formed so as to cover the heating elements 14a and 14b. The common electrode 18 is connected to power supply wiring for supplying printing power, and the selection electrode 20 is connected to the semiconductor integrated circuit device for driving circuit in order to individually select the heating elements. The common electrode 18 and the selection electrode 20 are both disposed on the side opposite to the end side 22 with respect to the heating element arrangement.
[0009]
  The end 26 of the notch is notched so as to be inclined at an angle θ with respect to the main scanning line 24 in which the heating elements are arranged. In order to use the alignment mark in the process of processing the end side 26, in this example, a part of the connecting electrode is deformed as the alignment mark to 16a, and one side 28 of the connecting electrode 16a is at an angle θ with respect to the main scanning line 24. It is formed to have. The end 26 of the notch is parallel to the one side 28 of the alignment mark 16a and is cut at a distance A from the side 28. When assembling, a pair of adjacent end edges 26 are opposed to each other, and the line-type thermal heads are alternately arranged on the paper supply side and the paper discharge side.
[Problems to be solved by the invention]
[0010]
  However, in the invention described in Japanese Patent Laid-Open No. 5-138911, fine shortScaleIn the thermal head, there is a problem that notch machining must be performed with high accuracy so as to be inclined with respect to the main scanning line 24 at an angle θ.
[0011]
  The present invention has been made in view of the above problems, and is a short circuit in which a plurality of heating elements are arranged in a row.ScaleIn a thermal head in which multiple thermal heads are connected, non-uniformity in the printed image can occur without the need for high-precision processing, even if the spacing between the heating elements in the connecting part is different from that between other heating elements. Without affecting the image quality.DoIt is intended to provide.
[Means for Solving the Problems]
[0012]
  In order to solve the above problems, the present invention employs means for solving the problems having the following characteristics.
[0013]
  The invention described in claim 1 is a short circuit in which a plurality of heating elements are arranged in a line.ScaleIn a thermal head in which multiple thermal heads are connected, each short connectedScaleDuplicate printing on the connecting side of the thermal headPossibleOne short to connect with multiple heating elementsScaleThe thermal head has equally spaced heating elements and the other short side to be connected.ScaleThe thermal headScaleOverlapping printing arranged at intervals different from the intervals of the heating elements of the thermal headPossibleIt has a heating element.
[0014]
  According to the invention described in claim 1, each short circuit to be connected is provided.ScaleDuplicate printing on the connecting side of the thermal headPossibleOne short to connect with multiple heating elementsScaleThe thermal head has equally spaced heating elements and the other short side to be connected.ScaleThe thermal headScaleOverlapping printing arranged at intervals different from the intervals of the heating elements of the thermal headPossibleBy having a heating element, even if the spacing between the heating elements in the connecting portion is different from that between other heating elements without performing high-precision processing, non-uniformity in the printed image does not occur, and the image quality It is possible to provide a thermal head that does not reduce the temperature.
[0015]
  According to a second aspect of the present invention, in the thermal head according to the first aspect, the other short-circuit to be connected is provided.ScaleThe thermal headScaleOverlapping printing that is arranged at a narrower interval than the interval between the heating elements of the thermal headPossibleIt has a heating element.
[0016]
  According to the invention described in claim 2, the other short side to be connected.ScaleThe thermal headScaleOverlapping printing that is arranged at a narrower interval than the interval between the heating elements of the thermal headPossibleBy providing the heat generating element, it is possible to disperse the nonuniformity of the printed image such as black streaks due to the overlap of the thermal head whose overlap standard value is larger than 0, and to reduce the influence to the minimum.
[0017]
  According to a third aspect of the present invention, in the thermal head of the first aspect, the other short-circuit to be connectedScaleThe thermal headScaleOverlapping printing is arranged at a wider interval than the heating element of the thermal head.PossibleIt has a heating element.
[0018]
  According to the invention described in claim 3, the other short side to be connected.ScaleThe thermal headScaleOverlapping printing is arranged at a wider interval than the heating element of the thermal head.PossibleBy providing the heat generating element, it is possible to disperse the nonuniformity of the printed image such as white streaks due to the overlap of the thermal head whose overlap standard value is smaller than 0, and to reduce the influence to the minimum.
[0019]
  According to a fourth aspect of the present invention, there is provided the thermal head according to the first aspect, wherein the other short-circuit to be connected is used.ScaleThe thermal headScaleAn interval narrower than the interval between the heating elements of the thermal headScaleOverlapping printing in which the intervals equal to the interval between the heating elements of the thermal head are arranged alternatelyPossibleIt has a heating element.
[0020]
  According to the invention described in claim 4, the other short side to be connected.ScaleThermal head is short on one sideScaleNarrower spacing and shorter one than thermal head heating element spacingScaleOverlapping printing in which the intervals equal to the interval between the heating elements of the thermal head are arranged alternatelyPossibleBy having a heat generating element, it is possible to disperse non-uniformity of the printed image such as black streaks due to the overlap of thermal heads whose overlap standard value is larger than 0, and to reduce the influence to the minimum. By controlling the heating elements adjacent to the matching portions, the nonuniformity of the printed image due to the end heating elements not being affected by the energy of the adjacent heating elements can be eliminated.
[0021]
  According to a fifth aspect of the present invention, in the thermal head of the first aspect, the other short-circuit to be connected is provided.ScaleThe thermal headScaleAn interval wider than the interval between the heating elements of the thermal head and the short sideScaleOverlapping printing in which the intervals equal to the interval between the heating elements of the thermal head are arranged alternatelyPossibleIt has a heating element.
[0022]
  According to the invention described in claim 5, the other short side to be connected is used.ScaleThe thermal headScaleAn interval wider than the interval between the heating elements of the thermal head and the short sideScaleOverlapping printing in which the intervals equal to the interval between the heating elements of the thermal head are arranged alternatelyPossibleWith heating elementsRukoThe dispersion of non-uniformity in the printed image such as white streaks due to the overlap of the thermal head with the overlap standard value smaller than 0 can be dispersed and the influence can be reduced to the minimum, and the overlapping portion By controlling the heat generating elements adjacent to each other, it is possible to eliminate non-uniformity in the printed image due to the end heat generating elements not being affected by the energy of the adjacent heat generating elements.
[0023]
  According to a sixth aspect of the present invention, there is provided the thermal head according to the first aspect, wherein the other short-circuit to be connected is used.ScaleDuplicate printing on thermal headPossibleMultiple heating elementsIntervalIsOne of the short thermal heads to be connectedFrom the side,From the one that is narrower than the distance between the heat generating elements of the one short thermal head to the width that is wider than the distance between the heat generating elements of the one short thermal head.It arrange | positions so that it may become.
[0024]
  According to the invention described in claim 6,Intervals between the plurality of heating elements capable of overlapping printing in the other short thermal head to be connectedIsOne of the short thermal heads to be connectedFrom the side,From the one that is narrower than the distance between the heat generating elements of the one short thermal head to the width that is wider than the distance between the heat generating elements of the one short thermal head.By arranging in such a way, even if the overlap standard value is around 0, it is possible to disperse non-uniformity of the printed image such as white stripes and black stripes due to overlap, and to reduce the influence to the minimum. it can.
[0025]
  According to a seventh aspect of the present invention, in the thermal head of the first aspect, the other short-circuit to be connected is provided.ScaleDuplicate printing on thermal headPossibleMultiple heating elementsIntervalIsOne of the short thermal heads to be connectedFrom the side,From the one that is narrower in sequence toward the opposite side of the one short thermal head to be connected and wider than the interval between the heating elements of the one short thermal head, and that that is narrower than the interval between the heating elements of the one short thermal headIt arrange | positions so that it may become.
[0026]
  According to the invention described in claim 7,The interval between the plurality of heat generating elements capable of overlapping printing in the other short thermal head to be connected narrows sequentially from the side of the one short thermal head to be connected to the opposite side of the one short thermal head to be connected. From one wider than the spacing between the heating elements of the one short thermal head, to one narrower than the spacing between the heating elements of the one short thermal headBy arranging in such a way, even if the overlap standard value is around 0, it is possible to disperse non-uniformity of the printed image such as white stripes and black stripes due to overlap, and to reduce the influence to the minimum. it can.
[0027]
  The invention described in claim 8 is a short circuit in which a plurality of heating elements are arranged in a line.ScaleIn a thermal head in which multiple thermal heads are connected, each short connectedScaleDuplicate printing on the connecting side of the thermal headPossibleOne short to connect with multiple heating elementsScaleOverprinting of the thermal headPossibleThe distance between multiple heating elements and the other shortScaleOverprinting of the thermal headPossibleIt is characterized by being arranged so that intervals between the plurality of heating elements are different.
[0028]
  According to the invention described in claim 8, one of the short sides to be connectedScaleOverprinting of the thermal headPossibleThe distance between multiple heating elements and the other shortScaleOverprinting of the thermal headPossibleBy disposing the intervals between the plurality of heating elements to be different, it is possible to disperse the nonuniformity of the printed image due to the overlap and reduce the influence to the minimum.
[0029]
  The invention described in claim 9 is a short circuit in which a plurality of heating elements are arranged in a line.ScaleIn a thermal head in which multiple thermal heads are connected, each short connectedScaleDuplicate printing on the connecting side of the thermal headPossibleOne short to connect with multiple heating elementsScaleDuplicate printing on thermal headPossibleThe distance between the heating elements excluding the specified heating element and the other shortScaleOverprinting of the thermal headPossibleThe spacing between the heating elements excluding a given heating element is equal, and one of the short connectionsScaleOverprinting of the thermal headPossibleThe distance between the predetermined heating elements is the other shortScaleOverprinting of the thermal headPossibleIt is characterized by being arranged narrower or wider than the interval between predetermined heating elements.
[0030]
  According to the invention described in claim 9, one of the short parts to be connectedScaleDuplicate printing on thermal headPossibleThe distance between the heating elements excluding the specified heating element and the other shortScaleOverprinting of the thermal headPossibleThe spacing between the heating elements excluding a given heating element is equal, and one of the short connectionsScaleOverprinting of the thermal headPossibleThe distance between the predetermined heating elements is the other shortScaleOverprinting of the thermal headPossibleBy being arranged narrower or wider than the interval between the predetermined heating elements, the influence can be reduced to the minimum regardless of whether the overlap standard value is wide or narrow.
DETAILED DESCRIPTION OF THE INVENTION
[0031]
  Embodiments of the present invention will be described below with reference to the drawings.
[0032]
  The present invention relates to a thermal head in which a plurality of unit heating elements are arranged in a row or a staggered pattern on each of a plurality of ceramic substrates provided on a heat dissipation plate. A thermal head characterized in that it has a plurality of overlapping heating elements, and each heating element can individually control the heat generation state and the heat generation amount.Inis there.
Example 1
  FIG. 3 is a short view in which a plurality of unit heating elements are arranged in one row of the present invention.ScaleFIG. 3 is a layout diagram of heat generating elements (FIG. 3A) and black solid images (FIGS. 3B and 3C) at a portion where a thermal head (hereinafter abbreviated as head) A and head B are connected.
[0033]
  Head A is a heating element 31.₁~ 31₈. . . And the spacing between the heating elements is the same distance L₁It is. On the other hand, the head B has a heating element 32.₁~ 32₈. . . The heating element 32₁~ 32₅The distance between them is the same distance L₂(L₂<L₁) And the heating element 32₆~ 32₈. . . The distance between them is the same distance L₁It is. Further, the heating element 31 of the head A₁~ 31₅And the heating element 32 of the head B₁~ 32₅Is duplicated printingPossibleIt is a heating element.
[0034]
  In the arrangement of the heating elements in FIG.PossibleHeating element 32₁~ 32₅Is the distance L₂The distance between the other heating elements of the head A and the head B is the distance L₁It is.
[0035]
  Also, in FIG.PossibleHeating element 32₁~ 32₅If there is not, the heating elements of the head A and the head B have a distance L₃(L₃<L₁) Are connected at intervals. Duplicate printing of head B in Fig. 3 (A)PossibleHeating element 32₁~ 32₅If there is only a heating element on the right side of the dotted line 40, the spacing between the heating elements at the ends of both heads of the connecting portion is the spacing L between the heating elements.₁Since it is narrower, the image printed by all the heat generating elements is an image in which the overlap of dots in the X portion is large as shown in FIG. If the overlap of dots is large, that portion appears as a larger dot in the upper and lower images than the others, and as a result, an output image having black stripes in the upper and lower sides is obtained.
[0036]
  By the way, in the case of FIG. 3A, since the interval between the heating elements of the head B is slightly narrower in the overlapping print portion, the heating elements of the head A and the head B coincide with somewhere (in this case, , Including the case of substantially matching, the same applies hereinafter) (the heating element at position 30 in FIG. 3A). Therefore, the pixel that generates heat is replaced with 31 of head A.₄~ 31₈. . . And the heating element 32 of the head B₂~ 32₈. . . If printing is performed, the distance L between the heating elements of head A and head B₃Can be eliminated. At this time, 31 from the left of the head A₄And the heating element 32 of the head B.₂3B, which is a normal image, can be obtained by printing with the right side heating element.
[0037]
  Note that the distance between the head A and the head B is the distance L between the heating elements.₁As described above, the distance between the head A and the head B is equal to the distance L between the heating elements.₁The same applies to a wider case.
(Example 2)
  FIG. 4 shows a layout of the heating elements (FIG. 4A) and a black solid image (FIGS. 4B and 4C) at the portion where head A and head C are connected.
[0038]
  Head A is a heating element 31.₁~ 31₈. . . And the spacing between the heating elements is the same distance L₁It is. On the other hand, the head C has a heating element 33.₁~ 33₈. . . The heating element 33₁~ 33₅The distance between them is the same distance L₃(L₃> L₁) And the heating element 33₆~ 33₈. . . The distance between them is the same distance L₁It is. Further, the heating element 31 of the head A₁~ 31₅And heating element 33 of head B₁~ 33₅Is duplicated printingPossibleIt is a heating element.
[0039]
  In the arrangement of the heating elements in FIG.PossibleHeating element 33₁~ 33₅Is the distance L₃The distance between the other heating elements of the head A and the head B is the distance L₁It is.
[0040]
  In FIG. 4A, the overlapping printing of the head C is performed.PossibleHeating element 33₁~ 33₅If there is not, the heating elements of the head A and the head C are separated by the distance L₅(L₅> L₁) Are connected at intervals. In FIG. 4 (A), the head C is duplicated.PossibleHeating element 33₁~ 33₅If there is only a heating element on the right side of the dotted line 40, the spacing between the heating elements at the ends of both heads of the connecting portion is the spacing L between the heating elements.₁Since it is wider, the image printed by all the heat generating elements is an image in which the overlap of dots in the Y portion is small as shown in FIG. If the overlap of dots is small, that portion appears as a smaller dot in the upper and lower images, and as a result, an output image having white stripes in the upper and lower sides is obtained.
[0041]
  By the way, in the case of FIG. 4 (A), since the space | interval of the heat generating element of the head C is a little wide in the duplication printing part, the location where the heat generating element of the head A and the head B corresponds somewhere. In FIG. 4A, the heating element at position 30). Therefore, the pixel that generates heat is replaced with 31 of head A.₄~ 31₈. . . And heating element 33 of head C₂~ 33₈. . . If printing is performed, the distance L between the heating elements of head A and head C₅Can be eliminated. At this time, 31 from the left of the head A₄And the heating element 33 of the head C.₂4B, which is a normal image, can be obtained by printing with the right side heating element.
[0042]
  Note that the distance between the head A and the head B is the distance L between the heating elements.₁As described above, the distance between the head A and the head B is equal to the distance L between the heating elements.₁The same applies to narrower cases.
(Example 3)
  FIG. 5 shows a layout of the heating elements (FIG. 5A) and a black solid image (FIGS. 5B and 5C) at the portion where head A and head D are connected.
[0043]
  Head A is a heating element 31.₁~ 31₁₀. . . And the spacing between the heating elements is the same distance L₁It is. On the other hand, the head D has a heating element 34.₁~ 34₁₀. . . And the heating element 34₁~ 34₇The interval between the heating elements 34₁~ 34₂Distance between L₁, Heating element 34₂~ 34₃Distance between L₆(L₆<L₁), Heating element 34₃~ 34₄Distance between L₁The distance L₁And distance L₆And are arranged alternately. The heating element 34₈~ 34₁₀. . . The distance between them is the same distance L₁It is. Further, the heating element 31 of the head A₁~ 31₇And heating element 34 of head D₁~ 34₇Is duplicated printingPossibleIt is a heating element.
[0044]
  In the arrangement of the heating elements in FIG.PossibleHeating element 34₁~ 34₇Heating element 34 in₂~ 34₃During the heating element 34₄~ 34₅And heating element 34₆~ 34₇The distance between is the distance L₆The distance between the other heating elements of the head A and the head D is the distance L₁It is.
[0045]
  Further, in FIG. 5A, overlapping printing of the head D is performed.PossibleHeating element 34₁~ 34₇If there is not, the heating elements of the head A and the head D are separated by a distance L₇(L₇<L₁) Are connected at intervals. In Fig. 5 (A), duplicate print of head DPossibleHeating element 34₁~ 34₇If there is only a heating element on the right side of the dotted line 40, the spacing between the heating elements at the ends of both heads of the connecting portion is the spacing L between the heating elements.₁Since it is narrower, the image printed by all the heat generating elements is an image in which the overlap of dots in the X portion is large as shown in FIG. If the overlap of dots is large, that portion appears as a larger dot in the upper and lower images than the others, and as a result, an output image having black stripes in the upper and lower sides is obtained.
[0046]
  By the way, in the case of FIG. 5A, since the heat generating elements of the head D have overlapping print portions and every other narrow space is arranged, the heat generating elements of the head A and the head D somewhere. (FIG. 5A shows a heating element at position 30). Therefore, the pixel that generates heat is replaced with 31 of head A.₆~ 31₁₀. . . And heating element 34 of head D₂~ 34₁₀. . . If printing is performed, the distance L between the heating elements of head A and head D₇Can be eliminated. At this time, 31 from the left of the head A₆And the heating element 34 of the head D.₂5B, which is a normal image, can be obtained by printing with the right side heating element.
[0047]
  Note that the distance between the head A and the head D is the distance L between the heating elements.₁As described above, the distance between the head A and the head D is smaller than the distance L between the heating elements.₁The same applies to a wider case.
Example 4
  FIG. 6 is a layout diagram of the heating elements (FIG. 6A) and black solid images (FIGS. 6B and 6C) at the portion where head A and head E are connected.
[0048]
  Head A is a heating element 31.₁~ 31₁₀. . . And the spacing between the heating elements is the same distance L₁It is. On the other hand, the head E has a heating element 35.₁~ 35₁₀. . . And a heating element 35₁~ 35₇The interval between the heating elements 35₁~ 35₂Distance between L₁, Heating element 35₂~ 35₃Distance between L₈(L₈> L₁), Heating element 35₃~ 35₄Distance between L₁The distance L₁And distance L₈And are arranged alternately. The heating element 35₈~ 35₁₀. . . The distance between them is the same distance L₁It is. Further, the heating element 31 of the head A₁~ 31₇And heating element 35 of head E₁~ 35₇Is duplicated printingPossibleIt is a heating element.
[0049]
  In the arrangement of the heating elements in FIG.PossibleHeating element 35₁~ 35₇Heating element 35 in₂~ 35₃Heating element 35₄~ 35₅And heating element 35₆~ 35₇The distance between is the distance L₈The distance between the other heating elements of the head A and the head E is the distance L₁It is.
[0050]
  Further, in FIG. 6A, the overlapping printing of the head E is performed.PossibleHeating element 35₁~ 35₇If there is not, the heating elements of the head A and the head E are separated by a distance L₉(L₉> L₁) Are connected at intervals. Duplicate printing of head E in Fig. 6 (A)PossibleHeating element 35₁~ 35₇If there is only a heating element on the right side of the dotted line 40, the spacing between the heating elements at the ends of both heads of the connecting portion is the spacing L between the heating elements.₁Since it is wider, the image printed with all the heat generating elements is an image with small dot overlap in the Y portion as shown in FIG. If the overlap of dots is small, that portion appears as a smaller dot in the upper and lower images, and as a result, an output image having white stripes in the upper and lower sides is obtained.
[0051]
  By the way, in the case of FIG. 6A, since the heating elements of the head E have overlapping print portions and every other wide space portion is arranged, the heating elements of the head A and the head E somewhere. (FIG. 6A shows a heating element at position 30). Therefore, the pixel that generates heat is replaced with 31 of head A.₆~ 31₁₀. . . And heating element 35 of head E₂~ 35₁₀. . . If printing is performed, the distance L between the heating elements of head A and head E₇Can be eliminated. At this time, 31 from the left of the head A₆And the heating element 35 of the head E₂6B, which is a normal image, can be obtained by printing with the right side heating element.
[0052]
  Note that the distance between the head A and the head E is the distance L between the heating elements.₁As described above, the distance between the head A and the head E is the distance L between the heating elements.₁The same applies to narrower cases.
(Example 5)
  FIG. 7 shows a layout of the heating elements (FIG. 7A) and a black solid image (FIGS. 7B and 7C) at the portion where head A and head F are connected.
[0053]
  Head A is a heating element 31.₁~ 31₁₁. . . And the spacing between the heating elements is the same distance L₁It is. On the other hand, the head F has a heating element 36.₁~ 36₁₁. . . And a heating element 36₁~ 36₈The interval between the heating elements 36₁~ 36₂Distance between L₁₀, Heating element 36₂~ 36₃Distance between L₁₁(L₁₀> L₁₁), Heating element 36₃~ 36₄Distance between L₁₂(L₁₁> L₁₂), L₁₀> L₁₁> L₁₂> L₁₃> L₁₄> L₁₅> L₁₆Is arranged. The heating element 36₉~ 36₁₁. . . The distance between them is the same distance L₁It is. Further, the heating element 31 of the head A₁~ 31₈And the heating element 36 of the head F₁~ 36₈Is duplicated printingPossibleIt is a heating element.
[0054]
  In the arrangement of the heating elements in FIG.PossibleHeating element 36₁~ 36₈The spacing of the heating elements at L is L₁₀> L₁₁> L₁₂> L₁₃> L₁₄> L₁₅> L₁₆The distance between the other heating elements of the head A and the head F is the distance L₁It is.
[0055]
  Further, in FIG. 7A, overlapping printing of the head F is performed.PossibleHeating element 36₁~ 36₈If there is not, the heating elements of the head A and the head F are separated by the distance L₁₇(L₁₇> L₁) Are connected at intervals. Duplicate printing of head F in Fig. 7 (A)PossibleHeating element 36₁~ 36₇If there is only a heating element on the right side of the dotted line 40, the heating element interval L between the head ends of the connecting portion₁₇Is the distance L between the heating elements.₁Since it is wider, the image printed by all the heat generating elements is an image in which the overlap of dots in the Y portion is small as shown in FIG. If the overlap of dots is small, that portion appears as a smaller dot in the upper and lower images, and as a result, an output image having white stripes in the upper and lower sides is obtained.
[0056]
  By the way, in the case of FIG. 7A, the interval between the heating elements of the head F is the overlapping print portion, and is arranged in the order from wide to narrow from the left side to the right side. There is a place where the heating elements coincide with each other (in FIG. 7A, the heating element at position 30). Therefore, the pixel that generates heat is replaced with 31 of head A.₈~ 31₁₁. . . And the heating element 36 of the head F₁~ 36₁₁. . . If printing is performed, the distance L between the heating elements of head A and head F₁₇Can be eliminated. At this time, 31 from the left of the head A₈And the heating element 36 of the head F.₁7B, which is a normal image, can be obtained by printing with the right side heating element.
[0057]
  Note that the distance between the head A and the head F is the distance L between the heating elements.₁As described above, the distance between the head A and the head F is the distance L between the heating elements.₁The same applies to narrower cases.
(Example 6)
  FIG. 8 shows a layout of the heating elements (FIG. 8A) and a black solid image (FIGS. 8B and 8C) at the portion where head A and head G are connected.
[0058]
  Head A is a heating element 31.₁~ 31₁₁. . . And the spacing between the heating elements is the same distance L₁It is. On the other hand, the head G has a heating element 37.₁~ 37₁₁. . . The heating element 37₁~ 37₈The interval between the heating elements 37₁~ 37₂Distance between L₁₈, Heating element 37₂~ 37₃Distance between L₁₉(L₁₈<L₁₉), Heating element 37₃~ 37₄Distance between L₂₀(L₁₉<L₂₀), L₁₈<L₁₉<L₂₀<L₂₁<L₂₂<L₂₃<L₂₄Is arranged. The heating element 37₉~ 37₁₁. . . The distance between them is the same distance L₁It is. Further, the heating element 31 of the head A₁~ 31₈And heating element 37 of head G₁~ 37₈Is duplicated printingPossibleIt is a heating element.
[0059]
  In the arrangement of the heating elements in FIG.PossibleHeating element 37₁~ 37₈The spacing of the heating elements at L is L₁₈<L₁₉<L₂₀<L₂₁<L₂₂<L₂₃<L₂₄The distance between the other heating elements of the head A and the head G is the distance L₁It is.
[0060]
  Further, in FIG. 8A, the overlap printing of the head G is performed.PossibleHeating element 37₁~ 37₈If there is not, the heating elements of the head A and the head G are separated by the distance L₂₅(L₂₅<L₁) Are connected at intervals. Duplicate printing of head G in Fig. 8 (A)PossibleHeating element 37₁~ 37₈If there is only a heating element on the right side of the dotted line 40, the heating element interval L between the head ends of the connecting portion₂₅Is the distance L between the heating elements.₁Since it is narrower, the image printed with all the heat generating elements is an image with a large dot overlap in the X portion, as shown in FIG. 8C. If the overlap of dots is large, that portion appears as a larger dot in the upper and lower images than the others, and as a result, an output image having black stripes in the upper and lower sides is obtained.
[0061]
  By the way, in the case of FIG. 8A, the interval between the heating elements of the head G is the overlapping print portion, and is arranged in the order from narrow to wide from the right side to the left side. There is a place where the heating elements coincide with each other (in FIG. 8A, the heating element at position 30). Therefore, the pixel that generates heat is replaced with 31 of head A.₈~ 31₁₁. . . And heating element 37 of head G₁~ 37₁₁. . . If printing is performed, the distance L between the heating elements of head A and head G₂₅Can be eliminated. At this time, 31 from the left of the head A₈And the heating element 37 of the head G₁8B, which is a normal image, can be obtained.
[0062]
  The distance between the head A and the head G is the distance L between the heating elements.₁As described above, the distance between the head A and the head G is equal to the distance L between the heating elements.₁The same applies to a wider case.
(Example 7)
  FIG. 9 shows head I and headHFIG. 9A is a layout diagram of heat generating elements (FIG. 9A) and a black solid image (FIGS. 9B and 9C) in a portion where the two are connected.
[0063]
  The head I is a heating element 38.₁~ 38₁₁. . . The heating element 38₁~ 38₄The distance between them is the same distance L₂₆(L₂₆> L₁) And the heating element 38₅~ 38₁₁. . . The distance between them is the same distance L₁It is. On the other hand, the head H has a heating element 39.₁~ 39₁₁. . . And a heating element 39₁~ 39₄The distance between them is the same distance L₂₇(L₂₇<L₁) And the heating element 39₅~ 39₁₁. . . The distance between them is the same distance L₁It is. Further, the heating element 38 of the head I is used.₁~ 38₈And heating element 39 of head H₁~ 39₈Is duplicated printingPossibleIt is a heating element.
[0064]
  9A, the heating element 38 of the head I is used.₁~ 38₄The distance between is the distance L₂₆(L₂₆> L₁) And the heating element 39 of the head H₁~ 39₄The distance between is the distance L₂₇(L₂₇<L₁The distance between the other heating elements of the head I and the head H is the distance L₁Is arranged in.
[0065]
  Further, in FIG. 9A, the heating element 38 of the head I.₁~ 38₄And the heating element 39 of the head H₁~ 39₄If there is not, the heating elements of the head I and the head H are separated by the distance L₂₈(L₂₈<L₁) Are connected at intervals. Heating element spacing L at both head ends of the connecting portion₂₈Is the distance L between the heating elements.₁Since it is narrower, the image printed with all the heat generating elements is an image with a large overlap of dots in the X portion as shown in FIG. 9C. If the overlap of dots is large, that portion appears as a larger dot in the upper and lower images than the others, and as a result, an output image having black stripes in the upper and lower sides is obtained.
[0066]
  In the case of FIG. 9A, the heating element 38 of the head I is used.₁~ 38₄The distance between is the distance L₂₆(L₂₆> L₁) And the heating element 39 of the head H₁~ 39₄The distance between is the distance L₂₇(L₂₇<L₁) Is located somewhere where the heating elements of the head I and the head H coincide (the heating element at position 30 in FIG. 9A). Therefore, the pixel that generates heat is set to 38 of head I.₈~ 38₁₁. . . And heating element 39 of head H₁~ 39₁₁. . . If printing is performed, the distance L between the heating elements of the head I and the head H₂₈Can be eliminated. At this time, 38 from the left of the head I₈And the heating element 39 of the head H.₁9B, which is a normal image, can be obtained.
[0067]
  The distance between the head I and the head H is the distance L between the heating elements.₁As described above, the distance between the head I and the head H is equal to the distance L between the heating elements.₁The same applies to a wider case. This is shown in FIG. Since FIG. 10 is based on FIG. 9, description is abbreviate | omitted.
(Control of thermal head)
  As is well known, when a color is generated by applying heat to a medium that develops color due to heat, the color is affected by the heat generation amount and distance of the adjacent heat generation element. Here, when the distance between heating elements and the amount of heat generated affect adjacent dots, if the distance between the heating elements is narrower, the dots are thickened and colored due to being affected by the heat of the adjacent heating elements. Increases area. On the contrary, when the interval is wide, the influence of the heat of the adjacent heat generating element is reduced, and the size and the color development area when the dots are not affected by the adjacency are approached.
[0068]
  So, the other shortScaleIf the thermal heads with overlapping thermal heads have a wide interval and the heat of adjacent heating elements affects the dots printed by the heating elements too much, set the amount of energy to be generated larger and connect The other shortScaleIf the interval between multiple heating elements on the thermal head is narrow and the heat of adjacent heating elements affects the dots printed by the heating elements excessively, control is performed by reducing the amount of energy to be generated. To do.
[0069]
  The control of the thermal head will be described with reference to FIG. FIG. 11 shows a thermal head 50, an image memory 41, a head setting memory 42, a system control unit 43, a head control unit 44, an operation panel 45, a power supply 47, an interface 46, an external terminal 48 provided via a network, a cable, and the like. It is configured. The thermal head 50 is the same as the head 49._A~ Head 49_Nhave. The interface 46 is an interface between the system control unit 43 and an external terminal.
[0070]
  The image to be printed is stored in the image memory 41 for each line. The system control unit 43 reads the image data for each line from the image memory 31 and outputs the data for one line to the selection electrode of the thermal head 40 via the head control unit 44.
[0071]
  The head control unit 44 includes a head 49_A~ Head 49_NOn the basis of the setting data stored in the setting memory 42, the on / off state and the heat generation amount can be individually controlled for each of the heating elements. The head control unit 44 passes to the head control unit 44 the heat generating elements to be used and the distance between the heads set in the setting memory 42, and the head control unit 44 affects the print image based on the data. Printing is performed by controlling the amount of printing energy according to the printing data of surrounding dots.
[0072]
  The setting memory 42 can be set by the operation panel 45 and / or the external terminal 48. Input from the operation panel 45, command input from the external terminal 48, and the like are processed in the system control unit 43. In this way, the setting memory 42 stores the status of the connecting portion of the heat generating board. For example, the setting memory 42 stores information on heat generating elements that are not involved in printing, information on the interval between the heat generating elements at the connecting portion, heat generating elements that perform printing at the same position in the first to eighth embodiments, and the like.
[0073]
  Note that the standard value of overlap in the present invention is the distance L between heating elements arranged in the head in FIG.₁The distance L of the heating element between the heads with respect to the value of₃₀Represents how different the values of
  OverlapStandard ofValue = L₁-L₃₀
  It is.
【The invention's effect】
[0074]
  As described above, according to the present invention, a plurality of heating elements are arranged in a row.ScaleIn a thermal head in which multiple thermal heads are connected, non-uniformity in the printed image can occur without the need for high-precision processing, even if the spacing between the heating elements in the connecting part is different from that between other heating elements. Without affecting the image quality.DoCan be provided.
[Brief description of the drawings]
FIG. 1 is a diagram (part 1) for explaining a conventional example;
FIG. 2 is a diagram for explaining a conventional example (part 2);
FIG. 3 is a diagram for explaining Example 1; It is a figure where the space | interval of the several heat generating element which overlapped with the left thermal head of the right thermal head is narrower than between other heat generating elements.
FIG. 4 is a diagram for explaining Example 2; FIG. 5 is a diagram in which the interval between a plurality of heating elements overlapping the left thermal head of the right thermal head is wider than between other heating elements.
FIG. 5 is a diagram for explaining Example 3; It is the figure where the space | interval of the several heat generating element with which the left thermal head of the right thermal head overlapped is equal to what is narrower than between other heat generating elements is located in a line.
6 is a diagram for explaining a fourth embodiment; FIG. It is the figure where the space | interval of the several heat generating element which overlapped with the left thermal head of the right thermal head is equal to the thing wider than between other heat generating elements is located in a line.
7 is a diagram for explaining Example 5. FIG. It is the figure where the space | interval of the several heat generating element which overlapped with the left thermal head of the right thermal head is located in an order from narrower to wider than between other heat generating elements.
FIG. 8 is a diagram for explaining Example 6; It is the figure where the space | interval of the several heat generating element which overlapped with the left thermal head of the right thermal head is located in an order from wide to narrower than between other heat generating elements.
FIG. 9 is a diagram for explaining Example 7; This is an example when the spacing between the heating elements between the heads is narrow
10 is an example in which the thermal head is the same as in FIG. 9 and the heating element interval between the heads is wide.
FIG. 11 is a functional schematic diagram of an image output apparatus that performs settings from an external terminal, a panel, or the like.
FIG. 12 is a diagram for explaining an overlap standard value;
[Explanation of symbols]
  A, I Short leftScaleThermal head
  B ~ H Short rightScaleThermal head
  30 An arrow indicating a reference heating element (the tip of the 30 arrow is the reference heating element)
  31-39 Heating element
  40 Line indicating the head end when it is assumed that there are no overlapping heating elements
  41 Image memory
  42 Head setting memory
  43 System control unit
  44 Head control unit
  45 Operation panel
  46 interface
  47 Power supply
  48 External terminal
  50 Thermal head

Claims (4)

In a thermal head in which a plurality of short thermal heads in which a plurality of heating elements are arranged in a row are connected,
On the connection side of each short thermal head to be connected, there are a plurality of heat generating elements capable of overlapping printing,
One short thermal head to be connected has heating elements at equal intervals,
The other short thermal head to be connected has a heating element capable of overlapping printing that is disposed at a different interval from the interval of the heating element of the one short thermal head ,
The other short thermal head to be connected is capable of overlapping printing in which an interval narrower than the interval between the heating elements of the one short thermal head and an interval equal to the interval between the heating elements of the one short thermal head are alternately arranged. A thermal head characterized by having a heat generating element . In a thermal head in which a plurality of short thermal heads in which a plurality of heating elements are arranged in a row are connected,
On the connection side of each short thermal head to be connected, there are a plurality of heat generating elements capable of overlapping printing,
One short thermal head to be connected has heating elements at equal intervals,
The other short thermal head to be connected has a heating element capable of overlapping printing that is disposed at a different interval from the interval of the heating element of the one short thermal head,
The other short thermal head to be connected is capable of overlapping printing in which an interval wider than the interval between the heating elements of the one short thermal head and an interval equal to the interval between the heating elements of the one short thermal head are alternately arranged. A thermal head characterized by having a heat generating element . In a thermal head in which a plurality of short thermal heads in which a plurality of heating elements are arranged in a row are connected,
On the connection side of each short thermal head to be connected, there are a plurality of heat generating elements capable of overlapping printing,
One short thermal head to be connected has heating elements at equal intervals,
The other short thermal head to be connected has a heating element capable of overlapping printing that is disposed at a different interval from the interval of the heating element of the one short thermal head,
The intervals between the plurality of heat generating elements capable of overlapping printing in the other short thermal head to be connected gradually increase from the side of the one short thermal head to be connected to the opposite side of the one short thermal head to be connected. 2. The thermal apparatus according to claim 1 , wherein the thermal element is arranged so as to be narrower than an interval between the heating elements of the one short thermal head to be wider than an interval between the heating elements of the one short thermal head. head. In a thermal head in which a plurality of short thermal heads in which a plurality of heating elements are arranged in a row are connected,
On the connection side of each short thermal head to be connected, there are a plurality of heat generating elements capable of overlapping printing,
One short thermal head to be connected has heating elements at equal intervals,
The other short thermal head to be connected has a heating element capable of overlapping printing that is disposed at a different interval from the interval of the heating element of the one short thermal head,
The interval between the plurality of heat generating elements capable of overlapping printing in the other short thermal head to be connected narrows sequentially from the side of the one short thermal head to be connected to the opposite side of the one short thermal head to be connected. The thermal head is arranged so as to be wider than the interval between the heating elements of the one short thermal head, but smaller than the interval between the heating elements of the one short thermal head.

Images