JP2005297579A - printer - Google Patents

Abstract

PROBLEM TO BE SOLVED: To optimize operation in each block and prevent printing failure.
SOLUTION: A printing sheet 3000, which is arranged between a conveyance block 300 and a printing block 500 and is conveyed with the sheet surface facing the horizontal direction by the conveyance block, is positioned at a predetermined position, and the printing block is adapted to the printing sheet. A positioning block 400 is provided for positioning at a printing position where printing is performed, an intermediate pickup means 55 for taking out a printing sheet positioned at a predetermined position in the positioning block and conveying it to the printing block is provided, and the intermediate pickup means is positioned. During the positioning operation of the printing sheet in the block, the printing sheet is separated from the printing sheet.
[Selection] Figure 7

Description

  The present invention relates to a printer. Specifically, a sheet storage block that can store a plurality of printing sheets in a stacked form, a pickup block that takes out the printing sheets stored in the sheet storage block one sheet at a time, and a printing sheet taken out by the pickup block are conveyed. The present invention relates to a technical field of a printer including a conveyance block, a printing block that prints on a printing sheet conveyed by the conveyance block, and a sheet discharge block that discharges a printing sheet printed in the printing block.

  There are printers that print on a printing sheet such as printing paper or printing film by thermal transfer or laser. Such a printer usually has a sheet storage block that can store a plurality of printing sheets in a stacked form, a pickup block that takes out the printing sheets stored in the sheet storage block one sheet at a time, and a pickup block that is picked up by the pickup block. A transport block for transporting the print sheet; a print block for printing on the print sheet transported by the transport block; and a sheet discharge block for discharging the print sheet printed in the print block. Is arranged.

  The printer can be installed horizontally, so that it can be placed horizontally so that the printing sheet is conveyed from the sheet storage block to the sheet discharge block with the sheet surface facing vertically. In addition, there is a horizontal and vertical type that can be installed in a vertical position so that the printing sheet is conveyed from the sheet storage block to the sheet discharge block with the sheet surface thereof facing the horizontal direction.

  Such a horizontal and vertical printer can be installed according to the space of the installation location, so that the flexibility of the installation location is improved and the usability is improved.

  Moreover, the installation area can be reduced by being vertically installed. In particular, when computed tomography (CT) is performed in a hospital, it does not require a large installation area, so it can be installed along with an imaging device, or installed along with a computer in an examination room. It is possible to speed up and simplify medical operations.

  However, in the conventional printer, in the process of taking out the print sheet from the sheet storage block by the pickup block and transporting it to the print block by the transport block, the print sheets are sequentially fed by a plurality of transport rollers, etc. There is a possibility that the position conveyed to the printing block is displaced from the position taken out from the block.

  Such misregistration causes printing defects such as an image is not printed on the entire sheet in the printing block, the image is lost, and the orientation of the image with respect to the printing sheet is shifted.

  On the other hand, in the sheet storage block, a plurality of printing sheets are stored in a laminated form. However, if the printing sheet is stored in a warped state in the sheet storage block, the pickup block may be defective or the pickup operation may fail. There is a risk of problems such as damage to the printed sheet when the block is taken out.

  The above-described problems of positional deviation and warpage of the printing sheet are likely to occur particularly when the printing sheet is placed vertically so that the printing sheet is conveyed with its sheet surface facing the horizontal direction.

  In addition, in the above-described horizontal / vertical printer, the print head pressed against the platen roller with the print sheet sandwiched between them is scanned on the print sheet to perform printing. The pressure applied to the print sheet differs depending on the weight of the print head when it is placed vertically. Therefore, if printing is performed with different pressures, there is a possibility that a printing failure may occur in either the horizontally or vertically installed state.

  Accordingly, it is an object of the printer of the present invention to overcome the above-described problems and optimize the operation in each block and prevent printing defects.

  In order to solve the above-described problems, the printer of the present invention can be installed vertically so that the sheet surface of the printing sheet is conveyed in the horizontal direction. A positioning block is provided for positioning the printing sheet, which is disposed between them and conveyed by the conveyance block with the sheet surface facing in the horizontal direction, at a predetermined position and aligns it with the printing position where printing on the printing sheet is performed in the printing block. And an intermediate pickup means for taking out the print sheet positioned at a predetermined position in the positioning block and transporting it to the print block, and the intermediate pickup means is positioned relative to the print sheet during the positioning operation of the print sheet in the positioning block. They are separated.

  Accordingly, the printing sheet is sent from the positioning block to an appropriate printing position of the printing block, and proper printing can be performed without causing a printing defect on the printing sheet in the printing block.

  In the invention described in claim 2, the fixed side base plate fixed to the housing on the positioning block, and the fixed side base plate is positioned opposite to the fixed side base plate. A movable side base plate that is orthogonal to the print sheet conveyance direction and is movable in the sheet surface direction of the print sheet, and a moving mechanism that moves the movable side base plate relative to the fixed side base plate are provided. When an insertion space is formed between the base plate and the movable side base plate, into which the printing sheet conveyed with the sheet surface facing the horizontal direction is inserted by the conveyance block, and the printing sheet is inserted into the insertion space In addition, the movable base plate is moved relative to the fixed base plate by the moving mechanism so that the printing sheet is positioned at the predetermined position. Therefore, the printing sheet is easily and reliably positioned by the moving mechanism. It can be carried out.

  In the invention described in claim 3, the printing sheet is conveyed from the sheet storage block to the sheet discharge block in a state where the sheet surface faces the horizontal direction, and the printing sheet stored in the sheet storage block is stored. The position is set above the predetermined position of the print sheet in the positioning block, and the print sheet is conveyed to the positioning block with the sheet surface facing the horizontal direction and moved downward by its own weight. Since the positioning portion for positioning is provided on the printing sheet, the printing sheet can be positioned only by shifting upward in advance with respect to a predetermined printing sheet position, so that the printing sheet can be positioned easily and reliably.

  The best mode for carrying out the present invention will be described below with reference to the accompanying drawings.

  In the embodiment described below, the printer of the present invention is used to print image data that is used in a hospital, for example, in a hospital and is computed tomography (CT) on a printing film (printing sheet) by thermal transfer using a thermal head. This is applied to a thermal head printer.

  The printer 1 can be installed horizontally so that the printing sheet is conveyed with the sheet surface facing in the vertical direction, and is placed vertically so that the printing sheet is conveyed with the sheet surface facing in the horizontal direction. It can be installed horizontally and vertically. In the following description, the direction when the printer 1 is installed vertically will be described.

  Since the printer 1 is a dual-purpose type that enables both horizontal and vertical installations as described above, the printer 1 can be installed according to the space of the installation location, and the degree of freedom of the installation location can be improved. .

  When installed vertically, a large installation space is not required. For example, the printer 1 can be installed below the personal computer 2000 installed on the table of the personal computer table 1000 (see FIG. 1).

  The printer 1 includes a sheet storage block 100, a pickup block 200, a conveyance block 300, a positioning block 400, a printing block 500, an intermediate conveyance block 600, a density measurement block 700, a sheet discharge block 800, and a sheet extraction block 900 in a housing 2. Each required block is arranged (see FIG. 2).

  In the printer 1, the printing sheet 3000 is taken out from the sheet storage block 100 by the pickup block 200, and is taken out through the conveyance block 300, the positioning block 400, the printing block 500, the intermediate conveyance block 600, the density measurement block 700, and the sheet discharge block 800. It is conveyed to block 900 (see FIG. 2).

  An attachment / detachment opening 2a for inserting or removing the sheet storage block 100 is formed on the front surface of the housing 2 (see FIGS. 1 to 3).

  The sheet storage block 100 is disposed at the right end in the housing 2 (see FIG. 2), and includes a sheet cassette 3 having a flat box shape that is long in the front-rear direction (see FIGS. 3 to 6).

  The sheet cassette 3 is detachable from the housing 2 and includes a case body 4 opened to the left and a cover body 5 closing the opening of the case body 4 (see FIGS. 3 to 5). ). A sheet take-out port 3 a is formed at the rear end of the sheet cassette 3.

  The cover body 5 has a flat plate shape and is provided as a sheet receiving plate that receives one sheet surface of the printing sheet 3000 stored in the sheet cassette 3. On the inner surface of the cover body 5, rolling rollers 6, 6 that are separated in the front-rear direction and are long in the vertical direction are rotatably supported (see FIGS. 3 and 5).

  Inside the sheet cassette 3, a pressing plate 7 is supported as a pressing means for pressing the other sheet surface of the printing sheet 3000 so as to be movable in the left-right direction (see FIG. 3R> 3, FIG. 5 and FIG. 6). The presser plate 7 is formed in a flat plate shape, is disposed so as to face the cover body 5, and is formed to be substantially the same as or slightly larger than the printing sheet 3000.

  An adjustment mechanism 8 is disposed between the right side surface portion 4a of the case body 4 and the pressing plate 7 (see FIG. 6). The adjustment mechanism 8 includes a drive motor 9, a worm 10, a main gear 11, driven gears 12, 12, rack bodies 13, 13, and adjustment gears 14, 14,... It is a mechanism for moving the pressing plate 7 in the direction of separating from and contacting the cover body 5 in accordance with the thickness of the sheets 3000, 3000,.

  The drive motor 9 is attached to the front end of the case body 4, and a worm 10 is fixed to the motor shaft.

  The main gear 11 is a two-stage gear composed of a small diameter portion 11 a and a large diameter portion 11 b, and the large diameter portion 11 a is meshed with the worm 10.

  The driven gears 12 and 12 are two-stage gears each composed of large diameter portions 12 a and 12 a and small diameter portions 12 b and 12 b, and the large diameter portions 12 a and 12 are respectively meshed with the small diameter portion 11 a of the main gear 11.

  The rack bodies 13 and 13 are respectively supported by the upper surface portion 4b and the lower surface portion 4c of the case body 4 so as to be movable in the front-rear direction. , 13a are integrally formed with projecting plate portions 13b and 13b that protrude in a direction approaching each other from the central portion in the front-rear direction. Racks 13c and 13c are formed at the leading edges of the projecting plate portions 13b and 13b, respectively, and the small diameter portions 12b and 12b of the driven gears 12 and 12 are engaged with the racks 13c and 13c, respectively.

  The adjustment gears 14, 14,... Are respectively the disk portions 14a, 14a,... And the gear portions 14b, 14b provided on one surface of the disk portions 14a, 14a,. .. And cam protrusions 14c, 14c,... Projecting from the other surface of the disk portions 14a, 14a,... Are integrally formed, and the cam protrusions 14c, 14c,. .. are provided on the outer periphery of the disk portions 14a, 14a,. The adjustment gears 14, 14,... Are supported by two spaced apart from each other on the upper surface portion 4 b and the lower surface portion 4 c of the case body 4, and the gear portions 14 b, 14 b,. The rack bodies 13 and 13 are engaged with the main rack portions 13a and 13a.

  The cam protrusions 14c, 14c,... Of the adjustment gears 14, 14,... Are slidably engaged with the upper and lower edges of the holding plate 7 disposed in the case body 4 from the right. Has been.

  When the driving motor 9 is rotated in the adjusting mechanism 8, the driving force is transmitted to the worm 10, the main gear 11, the driven gears 12, 12, the rack bodies 13, 13, and the adjusting gears 14, 14,. The adjustment gears 14, 14,... Are rotated to change the positions of the cam protrusions 14c, 14c,. Therefore, the presser plate 7 with which the cam projections 14c, 14c,... Are engaged moves in the left-right direction, that is, the direction in which the cover body 4 is separated from the cover body 4 as the adjustment gears 14, 14,. Is done.

  The pickup block 200 is disposed on the rear end side of the sheet storage block 100 (see FIG. 2), and includes a take-out mechanism 15 for taking out the print sheets 3000, 3000,... Stored in the sheet cassette 3 one by one. (See FIGS. 3 to 5).

  The take-out mechanism 15 has a pick-up roller 16, and the pick-up roller 16 is connected to one of the pair of separation rollers 17, 17 supported behind the pick-up roller 17 by a timing belt 18.

  A detection member 19 is provided so as to connect the rotation shaft of the pickup roller 16 connected by the timing belt 18 and the rotation shaft of the separation roller 17, and the detection member 19 has a detection portion 19 a from the pickup roller 16. It protrudes forward (see FIG. 5). The detected member 19 is urged toward the right side surface 4a side of the case body 4 by the urging spring 20, and the pickup roller 16 is pressed against the printing sheets 3000, 3000,... Stored in the sheet cassette 3.

  The detected portion 19a of the detected member 19 is detected by the roller position sensor 21, and the position of the pickup roller 16 is detected based on the detection result.

  A pickup motor 22 is disposed behind the separation rollers 17 and 17, and a gear group 23 is supported between the separation rollers 17 and 17 and the pickup motor 22 (see FIG. 3).

  When the pickup motor 22 is rotated in the take-out mechanism 15, the driving force is sequentially transmitted to the gear group 23, the separation roller 17, and the pickup roller 16, and the pickup roller 16 is rotated and the printing sheet 3000 is transferred from the sheet cassette 3. The sheet cassette 3000 that has been taken out is sent to the transport block 300 via the separation rollers 17 and 17.

  The transport block 300 is disposed at the rear end of the housing 2 (see FIG. 2), and includes a rotation driving unit 24, a first rotating body 25, and a second rotating body 26 (FIGS. 3 and 4). reference).

  The rotation drive unit 24 includes a transport motor 24a and a gear group 24b rotated by the transport motor 24a (see FIG. 4).

  The first rotating body 25 includes a shaft 25a extending in the vertical direction, transport rollers 25b, 25b,... Provided apart from each other in the axial direction of the shaft 25a, and a drive provided at one end of the shaft 25a. The drive gear 25c is meshed with one gear of the gear group 24b. When the gear group 24b is rotated by the rotation of the transport motor 24a, the drive gear 25c is rotated, and the shaft 25a and the transport rollers 25b, 25b,... Rotate together with the rotation of the drive gear 25c. Is done.

  .. Are arranged facing the outer peripheral surfaces of the transport rollers 25b, 25b,..., And the pressers 27, 27,.・ Pressed against

  The second rotating body 26 includes a shaft 26a extending in the vertical direction, transport rollers 26b, 26b,... Provided apart from each other in the axial direction of the shaft 26a, and a drive provided at one end of the shaft 26a. The drive gear 26c is meshed with one gear of the gear group 24b. When the gear group 24b is rotated by the rotation of the transport motor 24a, the drive gear 26c is rotated, and the shaft 26a and the transport rollers 26b, 26b,... Rotate together with the rotation of the drive gear 26c. Is done. Accordingly, the first rotating body 25 and the second rotating body 26 are rotated in synchronization.

  The pressing bodies 28, 28,... And the pressing bodies 29, 29,... Face the outer peripheral surfaces of the transport rollers 26b, 26b,. The presser bodies 28, 28,... And the pressers 29, 29,... Are pressed against the transport rollers 26b, 26b,.

  The positioning block 400 is disposed at the left end in the housing 2 in front of the transport block 300 (see FIG. 2), and includes a fixed side base plate 30 and a movable side base plate 31 (see FIGS. 7 and 8). .

  The fixed-side base plate 30 includes a flat surface portion 32 whose main surface faces in the left-right direction, a lower edge portion 33 protruding rightward from the lower edge of the flat surface portion 32, and a left edge from the upper edge of the flat surface portion 32. The protruding upper edge portion 34 and the mechanism attachment portion 35 protruding upward from the left edge of the upper edge portion 34 are integrally formed.

  A roller arrangement hole 32a is formed at a position near the front end of the flat surface portion 32, and roller mounting pieces 32b and 32b protrude leftward from the upper opening edge and the lower opening edge of the roller arrangement hole 32a, respectively. A pressing roller 36 is supported on the roller mounting pieces 32b and 32b, and a part of the pressing roller 36 protrudes rightward from the roller arrangement hole 32a (see FIG. 8). The flat portion 32 is provided with a spring hooking piece 32c on the rear side of the roller arrangement hole 32a. A sheet detection sensor 37 is attached to a position near the rear end of the flat portion 32.

  A spring insertion hole 34 a is formed at a substantially central portion in the front-rear direction of the upper edge portion 34.

  The mechanism attaching portion 35 is provided with a moving mechanism 38, and the moving mechanism 38 includes a positioning motor 39, a worm 40, and a cam gear 41. The positioning motor 39 is attached to a substantially central portion in the front-rear direction of the mechanism attachment portion 35, and a worm 40 is fixed to the motor shaft. The cam gear 41 is supported by the mechanism mounting portion 35 on the rear side of the positioning motor 39, and includes a gear portion 41a and a cam pin 41b provided on the outer peripheral portion of the gear portion 41a so as to protrude rightward (see FIG. 9). The cam gear 41 has a gear portion 41 a meshed with the worm 40.

  A position sensor 42 is attached in the vicinity of the cam gear 41 of the mechanism attachment portion 35. The position of the cam pin 41a when the cam gear 41 is rotated by the position sensor 42 is detected.

  Connection members 43 and 43 are rotatably supported by the front end portion and the rear end portion of the mechanism mounting portion 35, respectively, with one end portion as a fulcrum.

  The fixed-side base plate 30 is fixed to a shaft member 44 that is provided in the housing 2 and that is long in the vertical direction.

  The movable side base plate 31 has a flat surface portion 45 whose main surface faces in the left-right direction, a positioning edge portion 46 that protrudes leftward from the lower edge of the flat surface portion 45, and a leftward protrusion from the upper edge of the flat surface portion 45. The mounting edge portion 47 is provided. The positioning edge portion 46 serves as a positioning portion for positioning the print sheet at a predetermined position.

  A roller insertion hole 45 a is formed at a position near the front end of the flat portion 45.

  A work piece 48 is provided at a position near the rear end of the pressing edge 47 (see FIGS. 7 and 9). The actuating piece 48 includes a base end portion 48a protruding upward from the pressing edge portion 47 and an engaging portion 48b protruding leftward from the upper edge of the base end portion 48a.

  Supporting pieces 49, 49 projecting upward are provided at the front end and the rear end of the pressing edge 47, respectively, and the connecting members 43, 43 are supported by the other ends at the supporting pieces 49, 49. It is supported rotatably.

  The movable base plate 31 is supported by the shaft member 44 so as to be movable in the axial direction, that is, in the vertical direction.

  As described above, the connecting members 43 and 43 are rotatably supported by the mechanism mounting portion 35 of the fixed side base plate 30 and the support pieces 49 and 49 of the movable side base plate 31, respectively. The 30 plane portions 32 and the plane portion 45 of the movable base plate 31 are positioned to face each other with a slight gap (see FIG. 8). A space between the flat surface portion 32 and the flat surface portion 45 is formed as an insertion space 50 into which the printing sheet 3000 conveyed by the conveyance block 300 is inserted.

  The lower edge portion 33 of the fixed side base plate 30 is positioned above the positioning edge portion 46 of the movable side base plate 31, and the upper edge portion 34 of the fixed side base plate 30 is positioned on the pressing edge portion 47 of the movable side base plate 31. It is located on the lower side (see FIG. 8). The cam pin 41b of the cam gear 41 is slidably engaged with the lower surface of the engaging portion 48b of the operated piece 48 of the movable base plate 31 (see FIG. 9).

  One end of a tension coil spring 51 is supported on the pressing edge portion 47 of the movable side base plate 31, and the tension coil spring 51 is inserted through a spring insertion hole 34 a formed in the upper edge portion 34 of the fixed side base plate 30. The end portion is supported by the spring hanging piece 32 c of the fixed-side base plate 30. Therefore, the movable side base plate 31 is urged downward with respect to the fixed side base plate 30.

  When the positioning motor 39 is rotated in the moving mechanism 38, the driving force is sequentially transmitted to the worm 40 and the cam gear 41, and the cam gear 41 is rotated to change the position of the cam pin 41b. When the position of the cam pin 41b is changed, the movable side base plate 31 having the actuating piece 48 engaged with the cam pin 41b is guided by the shaft member 44 with respect to the fixed side base plate 30 and moved in the vertical direction. Is done.

  A rotation drive unit 52 is disposed to the right of the flat surface portion 32 of the fixed base plate 30. The rotation drive unit 52 includes a roller rotation motor 52a and a gear group 52b rotated by the roller rotation motor 52a. (See FIG. 4). One end portion of the rotation lever 53 is supported by the final gear of the gear group 52 b, and a long roller shaft 54 is supported on the other end portion of the rotation lever 53. An intermediate pickup roller 55 is provided at the center in the axial direction of the roller shaft 54 (see FIGS. 3, 4 and 8R> 8). The intermediate pickup roller 55 is provided as intermediate pickup means for taking out the printing sheet 3000 inserted into the insertion space 50 and sending it to the printing block 500, and the rotation lever 53 is rotated by the rotation drive unit 52. Is moved substantially to the left and right.

  When the intermediate pickup roller 55 is rotated leftward, the intermediate pickup roller 55 is inserted into the roller insertion hole 45a of the movable base plate 31 and pressed against the pressing roller 36 with the printing sheet 3000 inserted into the insertion space 50 interposed therebetween. 3000 is sent to the print block 500.

  The printing block 500 is disposed in front of the positioning block 400 (see FIG. 2), and includes a head mechanism 56 and a head driving mechanism 57 (see FIGS. 3 and 4).

  The head mechanism 56 includes a printing head 59 provided on a head support 58, and a thermal head that prints on a printing sheet 3000 by thermal transfer is used as the printing head 59.

  The head drive mechanism 57 is located on the left side of the head mechanism 56, and includes a head pressure adjusting member 60, an actuated member 61, and a head pressure adjusting cam 62 (see FIGS. 10 to 12).

  The head pressure adjusting member 60 is formed long in the front-rear direction, and is supported rotatably about the rotation shaft 63 located at the rear end thereof. A pressure roller 60 a protruding rightward is supported at the front end of the head pressure adjusting member 60.

  The actuated member 61 is formed to be substantially long in the front-rear direction, and is supported rotatably about a rotation shaft 63 located at the rear end thereof. The acted member 61 is formed longer than the head pressure adjusting member 60, and the front end portion is positioned in front of the head pressure adjusting member 60. An actuated roller 61 a that protrudes to the left is supported at the front end of the actuated member 61.

  A compression coil spring 63 is contracted between the head pressure adjusting member 60 and the acted member 61. Therefore, the head pressure adjusting member 60 and the actuated member 61 are biased in a direction away from each other by the compression coil spring 63, that is, the head pressure adjusting member 60 is biased toward the head mechanism 56. It is biased in a direction away from 56.

  The head pressure adjusting cam 62 is fixed to a rotary shaft 65 that is supported in the housing 2 so as to be rotatable in the vertical direction (see FIG. 4). The outer circumferential surface of the head pressure adjusting cam 62 is formed as a cam surface 66. The cam surface 66 has a standby cam portion 66a, a lateral cam portion 66b, A vertical cam portion 66c is formed (see FIGS. 10 to 12). The head pressure adjusting cam 62 is in contact with an actuated roller 61 a having a cam surface 66 supported by the actuated member 61.

  A cam position detection plate 67 is fixed to the left of the head pressure adjusting cam 62. The cam position detection plate 67 is formed in a substantially disc shape, and three detection slits 67a, 67b, 67c are formed at equal intervals in the circumferential direction.

  A platen roller 68 is supported facing the printing head 59 of the head mechanism 56. The head mechanism 56 is movable in a direction in which the head mechanism 56 is separated from and contacting the platen roller 68.

  When the head pressure adjusting cam 62 is rotated with the rotation of the rotation shaft 65 by a rotation mechanism (not shown), the position of the cam surface 66 with respect to the operated roller 61a is changed, and the operated member 61 uses the rotation shaft 63 as a fulcrum. It is rotated. Accordingly, the rotational force is applied to the head pressure adjusting member 60 through the compression coil spring 64 by the rotating operation of the actuated member 61, and the pressure roller 60a supports the head with the rotating shaft 63 as a fulcrum. The pressure on the platen roller 68 of the print head 59 is changed in accordance with the pressing force of the pressure roller 60a against the head support 58.

  The operation of the rotation mechanism is performed based on the recognition result of a state recognition means (not shown). When the state recognition means recognizes that the standby mode in which printing is not performed on the printing sheet 3000, the head pressure adjusting cam 62 is rotated so that the standby cam portion 66a is in contact with the operated roller 61a (FIG. 10). reference). When the state recognition means recognizes that the printer 1 is in landscape orientation when printing is performed on the print sheet 3000, the head pressure is set so that the lateral cam portion 66b is in contact with the operated roller 61a. The adjustment cam 62 is rotated (see FIG. 11). When the state recognition means recognizes that the printer 1 is in the portrait mode when the printing sheet 3000 is printed, the head pressure is set so that the portrait cam portion 66c is in contact with the actuated roller 61a. The adjustment cam 62 is rotated (see FIG. 12).

  Recognition by the state recognition means may be performed automatically using, for example, a gravity sensor, or may be performed by a user manually inputting each state.

  When the head pressure adjusting cam 62 is rotated as described above, the detection slit 67a is shielded by the head pressure adjusting cam 62 in a state where the standby cam portion 66a is in contact with the actuated roller 61a. It is detected that the portion 66a is in contact with the operated roller 61a (see FIG. 10). In a state where the standby cam portion 66a is in contact with the operated roller 61a, the pressure roller 60a of the head pressure adjusting member 60 is separated from the head support 58, and the printing head 59 is separated from the platen roller 68.

  When the head pressure adjusting cam 62 is rotated, the detection slit 67b is shielded by the head pressure adjusting cam 62 when the horizontal cam portion 66b is in contact with the actuated roller 61a, and the horizontal cam portion 66b. Is in contact with the actuated roller 61a (see FIG. 1111). In a state where the horizontal cam portion 66 b is in contact with the actuated roller 61 a, the head support 58 is pressed by the pressure roller 60 a of the head pressure adjusting member 60, and the printing head 59 is pressed against the platen roller 68.

  When the head pressure adjusting cam 62 is rotated, the detection slit 67c is shielded by the head pressure adjusting cam 62 when the vertical cam portion 66c is in contact with the actuated roller 61a, and the vertical cam portion 66c. Is in contact with the actuated roller 61a (see FIG. 1212). In a state where the vertical cam portion 66 c is in contact with the operated roller 61 a, the head support 58 is pressed by the pressure roller 60 a of the head pressure adjusting member 60, and the print head 59 is pressure-bonded to the platen roller 68. At this time, the print head 59 is pressed more strongly against the platen roller 68 than when the horizontal cam portion 66b is in contact with the actuated roller 61a, and is pressed with, for example, 1.5 times the pressure.

  As described above, in the landscape mode, in the portrait mode, the pressure applied from the print head 59 to the platen roller 68 by the head drive mechanism 57 is large, and the plate mechanism 68 of the head mechanism 56 in the landscape mode is applied to the platen roller 68. Considering the pressure due to its own weight, a substantially constant pressure is applied from the head mechanism 56 to the platen roller 68 in both modes.

  Accordingly, the printer 1 can perform an appropriate printing operation on the printing sheet 3000 with a constant head pressure regardless of the portrait mode or the landscape mode.

  In a standby mode in which printing by the print head 59 is not performed on the print sheet 3000, a predetermined gap is formed between the print head 59 and the platen roller 68. Necessary contact can be avoided to prevent both of them from being worn and the like, and a good conveying operation of the printing sheet 3000 to the printing block 500 can be ensured.

  When the recognition by the state recognition means is performed, the pressure applied from the printing head 59 to the platen roller 68 is adjusted as described above. At this time, the printing sheet from the sheet storage block 100 to the sheet take-out block 900 is adjusted. When the 3000 is conveyed, the respective parts pressed against the printing sheet 3000, that is, the pickup roller 16, the separation rollers 17, 17, the conveyance rollers 25b and 26b, the intermediate pickup roller 55, the pinch rollers 69 and 69, the first folding back The pressure on the printing sheet 3000 such as the roller 71, the second folding roller 75, and the discharge roller 77 is adjusted according to the recognition result of the state recognition means, and is substantially constant in both the horizontal and vertical modes. Is added to the printing sheet 3000.

  Therefore, a constant pressure is applied to the printing sheet 3000 during conveyance regardless of whether the printing sheet 3000 is placed vertically or horizontally, and the conveyance operation of the printing sheet 3000 can be optimized.

  The print block 500 supports pinch rollers 69 and 69 and capstans 70 and 70 to which the pinch rollers 69 and 69 are pressure-bonded before and after the platen roller 68 (see FIG. 3).

  A first folding roller 71 is supported in front of the pinch rollers 69 and 69, and an endless conveyance belt 72 is pressure-bonded to the first folding roller 71 (see FIG. 3). The conveyor belt 72 is fed along with the rotation of the first folding roller 72 by the rotation of tension rollers 73, 73,... That apply a certain tension to the conveyor belt 72.

  The intermediate conveyance block 600 is disposed behind the printing block 500 (see FIG. 2) and includes a pressing roller 74 (see FIG. 3). The pressing roller 74 is supported at a position opposite to the pressing roller 36 of the positioning block 400 with the intermediate pickup roller 55 interposed therebetween. When the intermediate pickup roller 55 is rotated to the right side, the intermediate pickup roller 55 is pressed against the pressing roller 74 so that the printing sheet 3000 can be conveyed toward the density measurement block 700.

  The density measurement block 700 is arranged behind the intermediate conveyance block 600 (see FIG. 2), and a density measurement device (not shown) for measuring the print density of the conveyed printing sheet 3000 is arranged in the density measurement block 700. Yes.

  The density measurement block 700 supports a second folding roller 75, and is crimped to the second folding roller 75 at a position opposite to the rotation center of the second folding roller 75, respectively. The rollers 76 are supported (see FIG. 3). The second folding roller 75 is rotated by the driving force of the roller rotation motor 52a of the rotation drive unit 52 being transmitted.

  The sheet discharge block 800 is disposed in front of the density measurement block 700 (see FIG. 2), and includes a discharge roller 77 for discharging the printing sheet 3000 and a feed roller 78 that is pressure-bonded to the discharge roller 77. (See FIG. 3).

  The sheet take-out block 900 is disposed on the left side of the sheet storage block 100 (see FIG. 2), and a sheet take-out space 79 for taking out the printing sheet 3000 discharged by the discharge roller 77 is formed in the sheet take-out block 900. (See FIG. 3).

  Fans 80, 80, 80 are arranged at the front end portion inside the casing 2 so as to be spaced apart from each other toward the left end side.

  Hereinafter, the feeding operation of the printing sheet 3000 in the printer 1 and the operation in each block will be described. The operation when the printer 1 is used in the portrait mode will be described below unless otherwise specified.

  The printing sheets 3000, 3000,... Are stored in the sheet cassette 3 of the sheet storage block 100 in a state where the sheet surfaces are stacked in the horizontal direction, and the sheet cassette 3 is seated inside the housing 2. By inserting and attaching from the outlet 2a, the printing sheet 3000 can be taken out by the take-out mechanism 15.

  The sheet storage block 100 is provided with detection means (not shown) for detecting the total thickness or total number of stored printing sheets 3000, 3000,..., And the adjusting mechanism 8 is based on the detection result of the detection means. Be operated. When the drive motor 9 is rotated in the adjustment mechanism 8, as described above, the adjustment plate 8 is moved in a direction in which it comes in contact with the printing sheet 3000 in which the holding plate 7 is accommodated.

  When the printing sheet 3000 is not taken out from the sheet cassette 3, the pressing plate 7 is moved in a direction in contact with the printing sheet 3000, and the printing sheets 3000, 3000,. The printing sheet 3000 is brought into contact with the rolling rollers 6 and 6 (see FIG. 13). Therefore, the print sheets 3000, 3000,... Stored in the sheet cassette 3 are not warped, the take-out operation by the take-out mechanism 15 of the pickup block 200 is defective, the print sheet 3000 is damaged at the time of take-out, and the like. Problems can be prevented.

  The printing sheets 3000, 3000,... Are pressed by the holding plate 7 in both the horizontal mode in which the printer 1 is horizontal and the vertical mode in which the printer 1 is vertical. In the vertical mode, the printing sheets 3000, 3000 are pressed. ,... Are likely to be warped, and the presser plate 7 functions particularly effectively in the vertical mode.

  On the other hand, when the printing sheet 3000 is taken out from the sheet cassette 3, the adjustment gear 14 is rotated to temporarily move the pressing plate 7 away from the printing sheet 3000, and the stored printing sheets 3000, 3000,. ... Are pressed against the cover 5 side of the sheet cassette 3 (see FIG. 14). Therefore, the printing sheets 3000 stored in the sheet cassette 3 can be reliably taken out one by one by the take-out mechanism 15.

  In the printer 1, a pressing plate 7 that presses the entire surface of the printing sheets 3000, 3000,... Is provided as pressing means, but, for example, is separated in the front-rear direction that is the conveying direction of the printing sheet 3000 as pressing means. Alternatively, two pressing shafts that are long in the vertical direction may be arranged in the sheet cassette 3 so as to press a part of the sheet surface of the printing sheets 3000, 3000,. It is desirable that the length of the pressing shaft is substantially the same as or longer than the width in the vertical direction of the sheet surface of the printing sheet 3000.

  Thus, by providing and pressing at least two pressing means in the conveying direction of the printing sheet 3000, it is possible to effectively prevent the printing sheets 3000, 3000,.

  The print sheets 3000, 3000,... Are taken out one by one from the sheet cassette 3 by the pickup roller 16 of the pickup block 200, and the taken out sheet cassette 3000 is sent toward the transport block 300 by the separation rollers 17, 17. The printing sheet 3000 taken out by the take-out mechanism 15 is in contact with the rolling rollers 6 and 6 supported by the cover body 5 of the sheet cassette 3. Accordingly, since the rolling rollers 6 and 6 are rotated when the printing sheet 3000 is taken out by the take-out mechanism 15, the printing sheet 3000 can be reliably and easily taken out.

  When the printing sheet 3000 is taken out, the detected portion 19a of the detected member 19 is detected by the roller position sensor 21, and the position of the pickup roller 16 is detected based on the detection result.

  The printing sheet 3000 taken out by the pickup block 200 and sent to the conveyance block 300 is conveyed toward the positioning block 400 in the conveyance block 300. In the transport block 300, the printing sheet 3000 is transported in turn by the transport rollers 25b and 26b.

  The printing sheet 3000 conveyed to the positioning block 400 is inserted into an insertion space 50 formed between the fixed base plate 30 and the movable base plate 31. When the printing sheet 3000 is inserted into the insertion space 50, the sheet detection sensor 37 detects the insertion of the printing sheet 3000.

  In a state where the printing sheet 3000 is stored in the sheet cassette 3, the printing sheet 3000 is shifted upward by a distance H with respect to a predetermined position positioned in the positioning block 400 (see FIG. 15). The printing sheet 3000 taken out from the sheet cassette 3 is conveyed to the positioning block 400 via the pickup block 200 and the conveyance block 300, and is shifted downward due to the influence of gravity during the conveyance. Although there is a possibility of being shifted to the positioning block 400, H is set larger than the expected deviation H '. Accordingly, when the printing sheet 3000 is inserted into the insertion space 50, the printing sheet 3000 is moved downward by its own weight, and the lower end of the printing sheet 3000 is in contact with the positioning edge portion 46 of the movable base plate 31 in the state of being inserted into the insertion space 50. And is positioned at a predetermined position (see FIG. 15).

  In this way, in the printer 1, since the conveyed printing sheet 3000 is positioned at a predetermined position in the positioning block 400, the printing sheet 3000 is sent from the positioning block 400 to an appropriate printing position in the printing block 500 and printed. Appropriate printing can be performed without causing printing defects on the printing sheet 3000 in the block 500.

  Further, since the printing sheet 3000 can be positioned in the positioning block 400 simply by shifting the printing sheet 3000 upward in advance with respect to a predetermined position in the positioning block 400, the printing sheet 3000 can be positioned easily and reliably. be able to.

  As described above, the printing sheet 3000 is shifted by a distance H with respect to a predetermined position positioned in the positioning block 400 in the state of being stored in the sheet cassette 3 (see FIG. 15). Therefore, in the landscape mode in which the printer 1 is placed horizontally, when the printing sheet 3000 is inserted into the insertion space 50, the moving mechanism 38 is operated to position the printing sheet 3000 at a predetermined position.

  When the printing sheet 3000 is inserted into the insertion space 50 in the landscape mode, the cam gear 41 is rotated by the rotation of the positioning motor 39, and the movable base plate 31 moves relative to the fixed base plate 30 by the shift. Thus, the printing sheet 3000 is positioned at a predetermined position. When the cam gear 41 is rotated, its position is detected by the position sensor 42.

  As described above, even in the horizontal mode of the printer 1, the printing sheet 3000 can be easily and reliably positioned by the moving mechanism 38.

  When positioning of the printing sheet 3000 at the predetermined position in the positioning block 400 is completed, the rotation lever 53 is rotated by the roller rotation motor 52a, and the intermediate pickup roller 55 is pressed against the pressing roller 36 via the printing sheet 3000, The printing sheet 3000 is sent toward the printing block 500 by the rotation of the intermediate pickup roller 55.

  When the printing sheet 3000 is sent to the printing block 500, the print head 59 separated from the platen roller 68 in the standby mode is driven by the head driving mechanism 57 to the platen roller 68 via the printing sheet 3000 and a recording ribbon (not shown). The printing head 59 is scanned on the printing sheet 3000 that is pressed and sent by the pinch rollers 69 and 69, and printing is performed on the printing sheet 3000 by thermal transfer. At this time, as described above, the head pressure adjusting cam 62 is rotated to change the position of the cam surface 66 relative to the operated roller 61a, and the pressure applied to the platen roller 68 of the print head 59 in accordance with the portrait mode or landscape mode. Is changed.

  The printing sheet 3000 that has been printed is changed in direction by the first folding roller 71 and the conveying belt 72 and is sent toward the intermediate conveying block 600.

  When the printing sheet 3000 is sent to the intermediate conveyance block 600, the roller rotation motor 52a is rotated in the opposite direction to the previous direction, and the intermediate pickup roller 55 is moved via the printing sheet 3000 by the rotation operation of the rotation lever 53. The printing sheet 3000 is conveyed to the density measurement block 700 after being crimped to 74.

  When the printing sheet 3000 is conveyed to the density measuring block 700, the printing density of the printing sheet 3000 is measured by the density measuring device. As a result of the measurement, if there is a problem such as variations in the print density, for example, the fact that the problem exists is displayed on a display unit (not shown) provided in the housing 2.

  The direction of the printing sheet 3000 is changed by the second folding roller 75 and the pressure rollers 76 and 76, and is sent toward the sheet discharge block 800.

  The print sheet 3000 sent to the sheet discharge block 800 is sent to the sheet take-out space 79 of the sheet take-out block 900 by the discharge roller 77 and the feed roller 78, and the feed operation for the print sheet 3000 is completed.

  The specific shapes and structures of the respective parts shown in the best mode described above are merely examples of the implementation of the present invention, and these limit the technical scope of the present invention. It should not be interpreted.

FIG. 2 to FIG. 15 show the best mode of the printer of the present invention, and this figure is a schematic perspective view showing an example of the installation state of the printer. FIG. 3 is a conceptual diagram illustrating each block of a printer and a conveyance path of a printing sheet. It is a schematic plan view of a printer. It is a schematic perspective view which shows the internal structure of a printer. It is a schematic plan view showing the internal structure of the sheet cassette and the take-out mechanism. It is a perspective view which shows the adjustment mechanism provided in the sheet cassette. It is a disassembled perspective view which shows the structure of a positioning block. It is sectional drawing which shows the positional relationship of a fixed side base plate and a movable side base plate. It is an expansion perspective view which shows the relationship between a cam gear and the to-be-acted piece of a movable side base board. FIG. 11 and FIG. 12 show the state of each part of the print block, and this figure is a plan view in the standby mode. It is a top view in landscape mode. It is a top view in portrait mode. FIG. 3 is a conceptual diagram illustrating a state in which a printing sheet is pressed against a cover body in a sheet cassette. FIG. 3 is a conceptual diagram illustrating a state when a printing sheet is taken out from a sheet cassette. FIG. 4 is a conceptual diagram illustrating a relationship between a position of a printing sheet in a sheet storage block and a position in a positioning block.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 1 ... Printer, 2 ... Case, 30 ... Fixed side base plate, 31 ... Movable side base plate, 38 ... Movement mechanism, 46 ... Positioning edge part (positioning part), 50 ... Insertion space, 55 ... Intermediate pick-up roller (intermediate) Pickup means), 100 ... sheet storage block, 200 ... pickup block, 300 ... conveyance block, 400 ... positioning block, 500 ... printing block, 800 ... sheet discharge block, 3000 ... printing sheet

Claims (3)

A sheet storage block capable of storing a plurality of printing sheets in a stack, a pickup block for picking out the printing sheets stored in the sheet storage block one by one, and a transport block for transporting the printing sheets taken out by the pickup block; A printer comprising: a printing block for printing on a printing sheet conveyed by the conveyance block; and a sheet discharge block for discharging a printing sheet printed in the printing block, wherein each of the blocks is disposed in a housing. ,
The printer can be installed vertically so that the sheet surface of the print sheet is conveyed in a horizontal direction,
A printing position that is arranged between the conveyance block and the printing block and that is positioned by the conveyance block with the sheet surface facing in the horizontal direction at a predetermined position and printing is performed on the printing sheet in the printing block. A positioning block to align with
An intermediate pickup means for taking out the printing sheet positioned at a predetermined position in the positioning block and transporting it to the printing block;
The intermediate pickup means is separated from the printing sheet during the positioning operation of the printing sheet in the positioning block. The positioning block is
A fixed-side base plate fixed to the housing;
A movable side base plate that is positioned opposite to the fixed side base plate and is perpendicular to the conveyance direction of the print sheet with respect to the fixed side base plate and movable in the sheet surface direction of the print sheet;
A moving mechanism for moving the movable side base plate relative to the fixed side base plate,
An insertion space is formed between the fixed side base plate and the movable side base plate, into which the printing sheet conveyed in a state where the sheet surface faces the horizontal direction by the conveyance block,
The print sheet is positioned at the predetermined position by moving the movable base plate with respect to the fixed base plate by a moving mechanism when the print sheet is inserted into the insertion space. The printer according to 1. The print sheet is transported from the sheet storage block to the sheet discharge block with the sheet surface facing the horizontal direction,
The storage position of the print sheet stored in the sheet storage block is set above the predetermined position of the print sheet in the positioning block,
The positioning block is provided with a positioning portion that receives a printing sheet that is conveyed with its sheet surface directed in the horizontal direction and is moved downward by its own weight and positions the printing sheet at a predetermined position. The printer described.

Images