JPS58158285A - Ribbon feeder for printer - Google Patents

Abstract

PURPOSE:To obtain a ribbon feeder for printer, having a selection mechanism by which desired deceleration ratios can be simply attained by exchanging one gear without the need for additional gears even when the distance between the motor shaft and the ribbon feed gear shaft becomes longer. CONSTITUTION:A ribbon feeder for printer consists of a motor for moving a carriage 1, the first and second gear rows 7, 8, and 9 in which difference in gear number is in the relation of odd number, a gear 10 for driving a ribbon, and a selection mechanism by which to select the first gear row or the second gear row according to the rotational direction of the motor. The selection mechanism consists also of a solar pulley 11 fixed to the motor shaft 3, a planetary pulley 13 rocking around the solar pulley 11 as the center, a supporting plate 16 to determine the distance between the epicyclic pulley 13 shaft and the motor shaft 3, an epicyclic gear 14 fixed coaxially to the planetary pulley 13 and engaged with the first or second gear row, and a belt 15 laid on the solar pulley 11 and the planetary pulley 13.

Description

Detailed Description of the Invention (Technical Field of the Invention) The present invention relates to a printer ribbon feeding device that transmits the rotation of a carriage moving motor to a ribbon feeding gear. [Technical Background of the Invention] Summary 1 82 show a conventional printer ribbon feeding device.The following description will be made with reference to these drawings.

A serial printer has a carriage 1 equipped with a print head.
1 is moved while printing on printing paper via an ink ribbon. The carriage 1 is fixed to a pulley 2L and a wire 17 hung between the pulleys in the opposite direction. A pulley 2 is connected to a motor shaft 3 of a driving pulse motor. When the drive 111tIF41 pulse motor rotates in the forward or reverse direction, the Elicarriage 1 is designed to rotate at one foot speed. This driving Nockles motor is used as a driving source for the printer ribbon feeding device, and the rotation of the motor is transmitted from the selection mechanism of the printer ribbon feeding device to the ribbon feeding gear 10 through the transmission Wk mechanism B, and the rotation of the motor is The ribbon is fed in one direction regardless of direction. Also, select a for the rotation of the motor! The rotational speed is reduced to an appropriate speed by the gear ratio between the gear of structure A and the gear of transmission mechanism B, and is transmitted to the ribbon feed gear 10.

Choice+! The structure A is composed of a sun wheel 4 fixed to a motor shaft 3, a planetary gear 5 meshing with the sun wheel 4, and a support plate 6 for keeping the distance 41 between these axes constant.

The motor shaft 3 is in sliding contact with the support plate 6. Therefore, when the motor rotates, the support plate 6 rotates together with the motor shaft 3. Then, the planetary wheel 5 meshes with the gear of the transmission mechanism B, and the support plate 6 stops. The motor shaft 3 continues to make one rotation, and in this state, the rotation of the motor is transferred to the transmission mechanism B via the planetary gear 5.
transmitted to.

Den 4 Isogaku B consists of the 11th gear train and the 2nd gear train. There is.

10 is a ribbon feed gear. This ribbon feeding prostitution table 10
The gear 7 of the first gear train and the gear 9 of the second gear train are meshed with each other.

When the pulse motor that moves the carriage lt rotates,
The ribbon feeding device operates as follows.

When the motor shaft 3 rotates to the right, the support plate 6 that is in sliding contact with it rotates clockwise together with the planetary gear 5 due to the friction with the motor shaft 3. Move from the dashed-dotted line in Figure 1 to Y -. Here, the planetary gear 5 meshes with the gear 7 of the first four train trains. The rotation of the sun wheel 4 fixed to the motor shaft 3 is transmitted to the ribbon feed wheel 10 via the planetary gear 5t and gear 7, and the ribbon feed gear 10 rotates to the left. In this case, the second gear train is idling.

On the contrary, when the motor shaft 3 rotates to the left, the support plate 6 in sliding contact with it rotates to the left together with the motor @ 3 due to the contact with the motor shaft 3, and moves from the solid line to the dashed-dotted line in Figure 1. do. Here, the planetary gear 5 is aligned with the gear 8 of the second gear train.The rotation of the sun gear 4 fixed to the motor shaft 3 is transmitted to the planetary gear 5 through the gears 8 and 9 of the east train. In this case, when the signal is transmitted to the ribbon feed gear 1G and rotates the ribbon feed gear 10 to the left, the pin gear train is idling. Therefore, no matter which direction the motor shaft 3 rotates, the ribbon feed gear 10 rotates in one direction, that is, to the left.

[Problems with background technology]

As mentioned above, the rotation of the motor is simply transmitted to the ribbon feed gear by the alignment of the gears, so when the distance between the motor shaft and the ribbon feed gear shaft increases due to machine i, the rotation of the gears increases. In addition, when changing the reduction ratio while keeping the distance between the shafts constant, the gear ratio between the plurality of gears must be changed, which becomes complicated. ] The present invention has been developed in view of these drawbacks, and even if the distance between the motor shaft and the ribbon feeding gear shaft becomes long, it does not require the addition of an extra gear, and the desired reduction ratio can be easily set. [Summary of the Invention] The present invention is characterized by a selection mechanism, and this selection mechanism is fixed to a motor shaft for moving a carriage and A pulley, a planetary pulley that swings around the sun pulley, a support plate that determines the distance between the axes from the planetary pulley to the sun pulley, and a pin-gear train or second gear of a transmission mechanism that is fixed coaxially with the planetary pulley. It consists of a planetary gear that meshes with the row, a sun pulley L, and a belt hung around the planetary pulley. One end of the support plate has a plurality of holes or slotted holes through which the motor shaft passes. δ A motor shaft passes through the 8th end, and a planetary pulley L and a planetary wheel are attached to the other end. The distance between these motor shafts, the planetary pulley L, and the planetary gear is kept constant.

Furthermore, by changing the position of the motor shaft passing through a plurality of holes or slotted holes, the distance between the shafts can be changed.

As the motor shaft rotates, the support plate rotates, and stops when the planetary gear pivotally attached to one end of the support plate aligns with either gear train of the transmission mechanism. The rotation of the motor shaft is transmitted to the planetary pulley by a belt from the solar booster which is fixed to this, and the rotation of the motor shaft is transmitted to the planetary pulley by a belt.
The ribbon feed gear is rotated via the transmission mechanism via jILt. The rotation of the motor is reduced to an appropriate rotational speed by the gear ratio of the planetary gear and the transmission mechanism, and is transmitted to the ribbon feed gear.

The distance from the motor shaft to the planetary gear shaft can be adjusted freely using the support plate, so even if the distance between the motor shaft and the ribbon feed gear shaft is different for the model, the idler gear can be fixed.
In order to transmit the rotation of the motor by selecting either of the two gear trains, the distance from the motor shaft to the axis of the planetary gear is 141Jl, and by changing the length of the belt, this can be done. The distance between the motor shaft and the ribbon feed gear shaft can be secured. Also, when changing the reduction ratio, only the planetary gear needs to be replaced, and the belt length can be adjusted by adjusting the distance in the same way using the support plate. change.

[Embodiments of the invention]

One embodiment of the present invention is shown in 1X3 diagrams and! This will be explained with reference to FIG. 14. However, since everything other than the selection mechanism is the same as the conventional example, the explanation will be omitted.

A sun pulley 11 is attached to the motor shaft 3 of the motor for moving the middle spear.
is fixed. One end of the support plate 16 has a plurality of holes 12t of the same shape, and the motor shaft 3 is in sliding contact with one of the seven holes, and the bent end has a planetary boot IJ 13 and a planetary gear 14 fixed coaxially. The zero sun pulley 11 and the planetary pulley 13, which are opposite to each other, are colored with a belt 15.

The support plate 16 rotates together with the motor shaft 3. Then, the planetary gear 14 meshes with the first gear train or the second gear train of the transmission mechanism, and the support plate 16 stops. The motor shaft 3 continues to rotate, and in this state the rotation of the motor is transmitted to the transmission mechanism via the planetary gear 14.

When the pulse motor rotates, the ribbon feeding device operates as follows.

When the motor shaft 3 rotates to the right, the support &16 rotates to the right as described above and moves from the dot chain in Figure 3 to the solid line. Here, the idler gear 14 meshes with the gear 7 of the straw gear train. The rotation of the sun pulley 3 fixed to the motor shaft 3 is transmitted 6 to the planetary pulley 13 through the belt 15.
The ribbon feed gear 10 is rotated to the left via the planetary gear 141 which is fixed coaxially with the ribbon gear 7 and the ribbon feed gear 10. In this case, does the second gear train idle? are doing.

On the contrary, when the motor shaft 3 rotates to the left t, the support plate 16 in sliding contact therewith rotates to the left and moves from the solid line to the dashed-dotted line in FIG. 3. Here, the planetary gear 14 meshes with the gear 8 of the first gear train. The rotation of the sun pulley 3 is transmitted to the planetary boot 913 by the belt 15, and is transmitted to the gear 8 and the gear 9 via the planetary gear 14 which is fixed coaxially with the planetary pulley 13.
', then rotate the ribbon feed gear lO'Ik to the left. In this case, the first gear train is idling.

Therefore, no matter which direction the motor shaft 3 rotates, the ribbon feed gear 10 rotates in one direction, that is, to the left.

The support plate 16 has a plurality of holes 12 (one or more) through which the motor shaft 3 can slide, so when the distance between the shafts from the motor shaft 3 to the axis of the ribbon feed gear 10 is long, Select a hole where a certain planetary gear 14 fits gear 7t7t and gear 8Km, install the support plate 16t, and change the length t of the belt 15. Also, when changing the rotation speed of the ribbon feed gear 10, Then, the planet wheel 14 is replaced, the support plate 16 is selected as described above, the support plate 16i is installed, and the length of the belt 15 is changed.

In addition, by making the holes 12 of the number a provided in the support plate 16 into long slot holes, it is possible to more freely connect the planetary gear 1 from the motor shaft 3.
The distance fIm to the axis No. 4 can be adjusted.

〔Effect of the invention〕

According to the present invention, even if the distance from the motor shaft to the axis of the ribbon feed gear is shortened, there is no need to retract an extra gear, and the desired reduction ratio can be easily achieved by replacing one wheel. Because of this, a low-cost ribbon feeding device can be realized.

[Brief explanation of the drawing]

Fig. 1 shows a conventional printer ribbon feeding device, and Fig. 2 is a front view of Fig. 111. Fig. 3 shows a conventional printer ribbon feeding device.
ii! A plan view showing the embodiment, FIG. 4 is a front view of the RA3 diagram. 1...Nakayaritsuji 3...So-Yu axis 7.8
．． 9...-ji 10... Ribbon feed gear 11
... Sun pulley 12 ... Hole 13 ... Planetary pulley 14 ... Planetary gear 15 ... Belt 16
・・Support board agent Masu Rishi Nori Chika Isuke (and 1 other person) Figure 2 Figure 4

Claims (1)

[Claims] A carriage moving motor, a first gear train and a second gear train having an odd number of gears, and a ribbon driving motor that meshes with the first gear train and the second gear train. In the printer ribbon feeding device, the printer ribbon feeding device includes a gear and a selection mechanism that selects either the cutting side gear train or the second gear train depending on the rotational direction of the motor and transmits the rotation of the motor. A sun pulley attached to the shaft of the motor, a planetary pulley that swings about the sun pulley, and an interaxial distance from the planetary pulley to the shaft of the motor l11fI: a supporting plate that is determined, and a planetary pulley that is coaxial with the planetary pulley. A printer ribbon consisting of a planetary gear fixed to and aligned with the first gear train or the second gear train, and a belt hung around the H σ sun pulley and the H σ planetary pulley. Feeding device 1ltO