JP2004276297A - Impact printer - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To surely prevent vibration transmission from a platen to a frame at a low cost, and to highly precisely secure an interval between a printing head and the platen. <P>SOLUTION: The platen 50 is supported by a flange part 46 of a sub frame via an elastic block 55 joined by burning. In the elastic block, an insert 60 with a female screw is embedded in a block body 57 of an elastic material, and the insert is separated from a joining face between the block body and the platen. The elastic block 55 is fixed to the sub frame by butting a lower end face of the insert 60 against the flange part 46 and coupling by a fixing screw 58. At the same time, the insert 60 is not directly connected with the platen 50. Therefore, the vibration of the platen 50 is damped by the elastic block 55, thereby eliminating generation of a large printing sound. Since the block body 57 is prevented from being deflected due to tightening of the fixing screw 58, the interval between the printing head 76 and the platen 50 is prevented from varying. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an impact printer that prints on paper using an impact method.
[0002]
[Prior art]
[Patent Document 1] Japanese Patent Application Laid-Open No. Hei 10-337917 As an impact printer that prints on paper using the impact method, there is an impact dot printer, a daisy wheel printer, a typewriter, or the like. For example, in an impact dot printer, a print head having a plurality of wire pins is opposed to a platen, and a sheet is set between the two to back up the sheet and perform printing by the impact force of the wire pins.
Conventionally, both ends of the platen that supports the paper are fixed directly to the frame of the impact printer with screws.
[0003]
When printing is performed by the print head, the platen vibrates because the wire pins hit the platen via the paper. However, in the conventional impact printer, since the platen was directly fixed to the frame with screws, there was a problem that vibrations of the platen were transmitted to the frame made of a metal plate and amplified to a loud printing sound.
[0004]
As a countermeasure, as shown in FIG. 9A, an elastic body 84 such as rubber is sandwiched between the platen 80 and the frame 82 so that the interval between the print head 76 and the platen 80 becomes the set value G. It is possible to do. However, depending on the tightening amount of the screw 86, the elastic body 84 is bent as shown in (b), and the space between the print head 76 and the platen 80 fluctuates due to the amount of the warp. The accuracy of the target value G cannot be ensured, and in particular, when printing is performed on a plurality of sheets, there is a problem that the printing quality on the platen side, which is farthest from the print head, deteriorates. Further, even if the elastic body 84 is interposed between the platen 80 and the frame 82, the effect of blocking vibration cannot be expected because the screw 86 itself is connected or in contact with both the platen 80 and the frame 82.
On the other hand, when the sleeve 87 is provided and connected with the screw 86 penetrating the sleeve 87 as shown in FIG. 9C in order to make the amount of bending of the elastic body 84 constant, the platen 80 and the frame 82 are connected. This is the same as being directly connected by the sleeve 87, and generates a loud printing noise.
[0005]
Therefore, for example, Japanese Patent Application Laid-Open No. 10-337917 proposes to use a rubber block to block vibration and to ensure the accuracy of the interval between the print head and the platen.
In this conventional example, as shown in FIG. 10A, a rubber block 92 is attached to both ends of a platen 90 by screws 94, and the rubber block 92 is further attached to a frame 97 by two sets of screws 95 and nuts 96. Have been.
[0006]
As shown in (b), the rubber block 92 is provided with one sleeve 98 for passing each screw and two sleeves 99. Even if the screw 94 is screwed into the platen 90, the rubber block 92 The deflection in the thickness direction of is limited by the length of the sleeve 98. Similarly, the lateral deflection of the rubber block 92 is also restricted by the length of the sleeve 99. Then, by preventing the screw 94 screwed into the platen 90 from directly contacting the screw 95 for attaching the rubber block 92 to the frame 97, the vibration of the platen 90 is attenuated by the rubber block 92 to prevent transmission to the frame 97. And
[0007]
[Problems to be solved by the invention]
However, in the prior art disclosed in Japanese Patent Application Laid-Open No. H10-337917, three screws and three sleeves are required to mount the rubber block 92 on the platen 90 and attach it to the frame 97, thereby increasing the number of parts and cost. There is a problem of inviting.
In addition, since the number of parts is also large and the insertion directions of the screws 94 and 95 are different, it takes time to assemble.
[0008]
SUMMARY OF THE INVENTION Accordingly, an object of the present invention is to provide an impact printer capable of reliably preventing vibration transmission from a platen to a frame at a low cost and ensuring a high precision interval between a print head and a platen in view of the above conventional problems. I do.
[0009]
[Means for Solving the Problems]
Therefore, according to the present invention, the platen of the impact printer is supported by the frame via the elastic blocks joined to both ends thereof, and the elastic block is connected to the block main body made of the elastic material and to be in contact with the frame while being in contact with the frame. The elastic block is fixed to the frame by comprising a fixing member having a contact surface and connecting the fixing member and the frame with a connecting member. The fixing member is separated from the joint surface between the block body and the platen.
[0010]
【The invention's effect】
The elastic block is joined to the platen, and the fixing member connected to the block body has an abutting surface that comes into contact with the frame, so only by connecting the fixing member and the frame with the connecting member, the To support the platen on the frame. Further, since the fixing member is separated from the joint surface between the block body and the platen and is not directly connected to the platen, the vibration of the platen is attenuated by the elastic block, and the generation of the printing noise is effectively prevented. .
Since the block body does not bend due to the manner in which the fixing member is attached to the frame, the height dimension of the elastic block does not change, and the gap between the print head and the platen can be made highly accurate. .
[0011]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to examples.
FIG. 1 is a schematic perspective view showing the internal structure of the impact printer according to the first embodiment, which is partly vertically separated.
The base unit 10 includes a table 12 fixed to a lower frame 20. The table 12 is provided with a slit-shaped opening 14 facing a platen 50 and a rectangular opening 16 facing a sheet feed roller 32. In the figure, the left side is a sheet insertion port, and the slit-shaped opening 14 extends in a direction perpendicular to the sheet feeding direction.
[0012]
The printer mechanism unit 70 installed above the base unit 10 includes a guide plate 74 at the lower end of the upper frame 72 that faces the table 12 of the base unit 10 with a predetermined gap. A head 76 is provided. The print head 76 can be stroked along a guide rod 78 stretched over the upper frame 72 in a direction perpendicular to the sheet feeding direction.
That is, the platen 50 extends in the stroke direction of the print head 76 so as to face the print head 76, and prints on the paper between the print head 76 and the platen 50 by the impact force of the print head 76.
[0013]
FIG. 2 is a diagram illustrating the inside of the lower frame 20 with the table 12 of the base unit 10 removed.
The motor base unit 30 is attached to the bottom wall 22 of the lower frame 20. The motor base unit 30 supports the paper feed roller 32 and the motor 38 on the sub-frame 40, and further supports the platen 50.
That is, the sub-frame 40 has a base wall 42 that is mounted on the bottom wall 22 of the lower frame 20 and side walls 44 that rise from both ends of the base wall 42. The roller shaft 34 is supported by penetrating through the rollers 44.
[0014]
A pulley 35 is fixed to one end of the roller shaft 34, and the motor 38 and the pulley 35 are connected by a belt 36, whereby the paper feed roller 32 is driven to rotate by the motor 38.
The side wall 44 of the sub-frame 40 is bent inward at a right angle behind the penetrating portion of the roller shaft 34, as described later, to form a flange portion 46 parallel to the base wall 42. Both ends of the platen 50 are supported by the flange portion 46.
[0015]
FIG. 3 shows a relative arrangement of the print head 76 and the motor base unit 30 in a state where the base unit 10 and the printer mechanism unit 70 are assembled.
When the print head 76 makes a stroke along the guide rod 78, a wire pin (not shown) slides on the upper surface of the platen 50 at a predetermined gap. The predetermined gap here is set to a level with a small margin for the thickness of the sheet.
Elastic blocks 55 are baked on both ends of a platen 50 supported by the flange 46 of the subframe 40, and the platen 50 is attached to the flange 46 via the elastic block 55.
[0016]
FIG. 4 is a cross-sectional view showing details of the support structure of the platen 50. As shown in FIG.
At both ends of the platen 50, a block body 57 made of an elastic material such as rubber is fixed to the back surface 50b opposite to the upper surface 50a facing the print head 76 by baking.
The lower surface of the elastic block 55 corresponds to the flange portion 46 of the sub frame 40.
An insert 60 as a fixing member is embedded in the block main body 57 on the lower surface side of the elastic block 55.
[0017]
As shown in an enlarged manner in FIG. 5, the lower end face 62 of the insert 60 is flush with the lower surface of the surrounding block body 57, and a female screw 64 is formed on the insert 60 in the vertical direction. It is open at the end face 62. The lower end surface 62 is a contact surface with the flange portion 46.
Returning to FIG. 4, the length of the insert 60 is shorter than the height dimension H of the elastic block 55, and preferably, the length of the insert 60 is up to ／ of H, and the upper end of the insert 60 is located on the upper surface ( It stops at a position lower than the back surface 50b) of the platen 50.
[0018]
A screw hole 47 is provided in the flange portion 46 of the subframe 40 in correspondence with the female screw 64 of the insert 60, and a fixing screw 58 is screwed into the female screw 64 of the insert 60 through the screw hole 47 from below the flange portion 46. As a result, the elastic block 55 is fixed to the flange portion 46, and thus the platen 50 is fixed to the sub-frame 40.
The height dimension H of the elastic block 55 is set so that the gap between the print head 76 and the platen 50 becomes the set value G.
[0019]
Since the fixing screw 58 only tightens the insert 60 whose lower end surface 62 is flush with the lower surface of the elastic block 55 to the flange portion 46, the height dimension H of the elastic block 55 changes according to the tightening state of the fixing screw 58. I will not.
Further, since the sub frame 40 and the platen 50 are connected only by the elastic block 55, the vibration of the platen 50 is attenuated by the elastic block 55 and is not transmitted to the sub frame 40.
[0020]
The present embodiment is configured as described above, and the platen 50 is supported by the sub-frame 40 via the elastic blocks 55 joined to both ends thereof, and the elastic block 55 is attached to the block body 57 of the elastic material by the sub-frame 40. An insert 60 having a contact surface that comes into contact with the flange portion 46 is embedded, and the insert 60 is separated from a joint surface between the block body 57 and the platen 50. Thus, the elastic block 55 is fixed to the sub-frame 40 and thus to the lower frame 20 by connecting the insert 60 and the flange portion 46 with the fixing screw 58, and the insert 60 is not directly connected to the platen 50. Therefore, the vibration of the platen 50 is attenuated by the elastic block 55 and is not transmitted to the sub-frame 40 and the lower frame 20, and does not generate a loud printing sound.
[0021]
Further, when the elastic block 55 is connected to the flange portion 46, the height of the elastic block 55 does not change since the block main body 57 is not compressed, so that the gap between the print head 76 and the platen 50 is not changed. Can be highly accurate.
In addition, since the component for attaching the platen 50 to the sub-frame 40 is only one screw, the configuration is simple and the cost is low.
[0022]
In addition, the elastic block 55 is joined to the back surface of the platen 50 by baking to be securely connected, and the insert 60 has a contact surface on the surface opposite to the joint surface, and is placed on the flange portion 46. Since it is arranged, it is not substantially displaced by its own weight of the platen 50 or displaced by the impact force of the print head 76 during printing, so that it has high rigidity while preventing vibration transmission.
[0023]
FIG. 6 shows a modification. FIG. 5A is a cross-sectional view corresponding to one side of FIG. 4, and FIG. 5B is a perspective view as viewed from the outside of the sub-frame.
As an elastic block to be joined to the back surface of the platen 50, an elastic block 55 'in which the insert 60 is embedded in the side surface so that the contact surface faces sideways is used. A receiving surface 48 at 55 'is provided.
A screw hole 47 is provided in the side wall 44 '. The contact surface of the insert 60 is brought into contact with the side wall 44 ′, and the lower surface of the elastic block 55 ′ is brought into contact with the receiving surface 48, and the fixing screw 58 is inserted through the screw hole 47 from the side of the side wall 44 ′. By screwing into the female screw 64, the elastic block 55 'is fixed to the side wall 44'.
Similar effects can be obtained by this modification.
[0024]
FIG. 7 is a sectional view showing the second embodiment and corresponding to FIG. This is different from the first embodiment in the fixing member.
An elastic block 55A has its block body 57A bonded to the back surfaces of both ends of the platen 50 by baking in the same manner as in the first embodiment.
The elastic block 55A includes a bracket 65 on its lower surface as a fixing member. The bracket 65 includes a plate portion 66 and a male screw 67 welded to the center of the plate portion 66 and extending outward (downward in the figure), and the plate portion 66 and the block body 57A are joined by baking.
[0025]
A screw hole 47 is provided in a flange portion 46 extending horizontally from the side wall 44 of the sub-frame 40. The platen 50 is fixed to the subframe by passing the male screw 67 of the bracket 65 through the screw hole 47 from above the flange portion 46 and abutting the lower surface of the plate portion 66 on the flange portion 46 and fixing the nut with a nut 68. .
Here, the lower surface of the plate portion 66 is a contact surface.
Other configurations are the same as those of the first embodiment.
[0026]
The attachment of the elastic block 55A to the sub-frame 40 merely involves connecting the bracket 65 and the flange portion 46 with the male screw 67 and the nut 68, and the bracket 65 is not directly connected to the platen 50. The vibration is attenuated by the elastic block 55A and is not transmitted to the sub-frame 40 and the lower frame (20), and the height of the elastic block 55A does not change due to the tightening state of the nut 68.
Therefore, according to the second embodiment, the same effect as that of the first embodiment can be obtained.
[0027]
FIG. 8 is a sectional view showing a modification of the second embodiment.
As in the modification of the first embodiment, a receiving surface 48 is provided on the side wall 44 'of the subframe by cutting and raising, and a screw hole 47 is provided.
As the elastic block joined to the back surface of the platen 50, an elastic block 55A 'having a bracket 65' as a fixing member on the side surface is used. The bracket 65 'is composed of a plate portion 66' and a male screw 67 welded to the center of the plate portion 66 'and extending outward (to the side in the drawing), and the plate portion 66' and the block body 57A 'are joined by baking. Have been.
[0028]
The male screw 67 of the bracket 65 ′ is passed through the screw hole 47 from the side of the side wall 44 ′ so that the plate portion 66 ′ is in contact with the side wall 44 ′ and the lower surface of the elastic block 55 A ′ is in contact with the receiving surface 48. And the nut 68, the platen 50 is fixed to the sub-frame.
The plate portion 66 'of the bracket 65' is set to be smaller than the height H of the elastic block 55A 'so that the edge of the plate portion 66' does not contact the platen 50.
Similar effects can be obtained by this modification.
[0029]
In each of the above embodiments, the frame supporting the platen 50 via the elastic block is the flange portion 46 or the side wall 44 'of the subframe 40 in the motor base unit 30. It is also possible to form a flange portion or the like on the lower frame to be used.
[Brief description of the drawings]
FIG. 1 is a schematic perspective view showing an internal structure of an impact printer according to a first embodiment.
FIG. 2 is a diagram showing the inside of the lower frame of the base unit.
FIG. 3 is a diagram illustrating a relative arrangement of a print head and a motor base unit.
FIG. 4 is a cross-sectional view showing details of a platen support structure.
FIG. 5 is an enlarged sectional view showing an elastic block.
FIG. 6 is a sectional view showing a modification.
FIG. 7 is a sectional view showing details of a platen support structure in a second embodiment.
FIG. 8 is a sectional view showing a modification of the second embodiment.
FIG. 9 is a diagram showing a conventional example.
FIG. 10 is a diagram showing another conventional example.
[Explanation of symbols]
Reference Signs List 10 Base unit 12 Tables 14, 16 Opening 20 Lower frame 22 Bottom wall 30 Motor base unit 32 Paper feed roller 34 Roller shaft 35 Pulley 36 Belt 38 Motor 40 Subframe (frame)
42 Base wall 44, 44 'Side wall 46 Flange part 47 Screw hole 48 Receiving surface 50 Platen 50a Upper surface 50b Back surface 55, 55', 55A, 55A 'Elastic block 57, 57A Block body 58 Fixing screw (connecting member)
60 Insert (Fixing member)
62 Lower end surface (contact surface)
64 Female screw 65, 65 'Bracket (Fixing member)
66, 66 'plate portion 67 male screw 68 nut (connection member)
70 printer mechanism unit 72 upper frame 74 guide plate 76 print head 78 guide rod

Claims (4)

In an impact printer that includes a print head and a platen that extends in the stroke direction of the print head so as to face the print head, and that prints on paper between the print head and the platen by the impact force of the print head,
The platen is supported by a frame via elastic blocks joined to both ends thereof,
The elastic block includes a block main body made of an elastic material, and a fixing member coupled to the block main body and having a contact surface that is in contact with the frame. The fixing member is configured to join the block main body and the platen. Away from the surface,
An impact printer, wherein the elastic block is fixed to the frame by connecting the fixing member and the frame with a connecting member. The elastic block is bonded to the back surface of the platen opposite to the surface facing the print head by baking,
The impact printer according to claim 1, wherein the fixing member includes the contact surface on a surface opposite to the joint surface, and the contact surface is mounted on the frame. The fixing member is an insert cast into the block body,
The insert is formed with a female screw opening to the contact surface,
A screw hole corresponding to the female screw is formed in the frame,
The impact printer according to claim 1, wherein the connection member is a fixing screw that is screwed into the female screw of the insert from the screw hole to connect the insert to a frame. The fixing member includes a plate portion joined to the block body, and a male screw extending outward from the plate portion,
A screw hole corresponding to the female screw is formed in the frame,
The impact printer according to claim 1, wherein the connecting member is a nut that is screwed into the male screw inserted into the screw hole and couples the plate portion to a frame.

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