Stationary blade support device configured so that stationary blade is not deformed, paper cutting device with stationary blade support device, and printer with paper cutting device

Abstract

A fixed blade support device includes a biasing member and a fixed blade support member (11). The fixed blade support member (11) includes a base surface portion (11a), an upright surface portion (11b), and a retainer portion (11c). The upright surface portion (11b) extends from the base surface portion (11a) in a biasing direction so as to close a rear side of a root portion of a fixed blade (12) on an opposite side to a blade edge portion thereof, and is configured to prevent the fixed blade (12) from being disengaged in a direction of engagement with a movable blade. The retainer portion (11c) extends from the upright surface portion (11b) so as to cover the root portion of the fixed blade (12), and is configured to prevent the fixed blade (12) from being disengaged in the biasing direction.

Claims

1. A sheet cutting device, intended for use in a printer, comprising: a fixed blade having a center portion, a root portion, a blade edge portion, and a side opposite the blade edge portion, the blade edge portion of the fixed blade having two ends; a movable blade configured to cut a sheet of printed paper by moving, in an engagement direction toward the fixed blade, and having a V-shaped blade edge portion; and a fixed blade support device supporting the fixed blade, the fixed blade being curved so that the center portion, in a blade width direction of the fixed blade, protrudes toward the movable blade; the fixed blade support device comprising: a biasing member configured to bias the fixed blade in a biasing direction toward the movable blade, the biasing direction being straight; and a support member configured to support the fixed blade by way of the biasing member, the support member comprising: a base surface portion on which the fixed blade is arranged, by way of the biasing member; an upright surface portion that extends from the base surface portion in the biasing direction so as to close a rear side of a root portion of the fixed blade on a side opposite to a blade edge portion thereof, and is configured to prevent the fixed blade from being disengaged in the engagement direction; and a retainer portion that extends from the upright surface portion so as to cover the center portion of the root portion of the fixed blade in the blade width direction, wherein: the upright surface portion is devoid of either a blind hole or a through-hole adapted to receive the root portion of the fixed blade; and the retainer portion is configured to inhibit the fixed blade from disengaging in the biasing direction from the support member while to allow the fixed blade to translate in a direction opposite to the biasing direction and in the blade width direction, wherein: the sheet cutting device further comprises a spring holder, provided separately from the fixed blade support member, mounted between the base surface portion and the coil spring so as to position the one or more coil springs; the spring holder comprises second retainer portions covering the two ends of the blade edge portion of the fixed blade in the blade width direction: the second retainer portions are arranged through intermediation of the one or more coil springs; and the second retainer portions are configured to prevent the fixed blade from being disengaged in the biasing direction.

2. The sheet cutting device according to claim 1, wherein each of the second retainer portions of the spring holder comprises a respective part closing a front side of the two ends of the blade edge portion of the fixed blade in the blade width direction and preventing the fixed blade from being disengaged in the engagement direction.

3. A printer comprising a printer mechanism adapted to perform printing on a sheet; and a sheet cutting device according to claim 2.

4. The sheet cutting device according to claim 1, wherein: the one or more coil springs are provided in an odd number and have a common shape; the one or more coil springs are provided corresponding to at least the center portion and both sides of the fixed blade, in the blade width direction; the spring holder comprises a positioning surface for the one or more coil springs; and the positioning surface gradually increases in height, with respect to the base surface portion of the fixed blade support member, from one of the one or more coil springs corresponding to an outer side of the fixed blade, to one of the one or more coil springs corresponding to the center portion of the fixed blade, so as to thereby apply a uniform biasing force to the fixed blade.

5. A printer comprising a printer mechanism adapted to perform printing on a sheet; and a sheet cutting device according to claim 4.

6. A printer comprising a printer mechanism adapted to perform printing on a sheet; and a sheet cutting device according to claim 1.

Description

BRIEF DESCRIPTION OF THE DRAWING

(1) FIGS. 1A and 1B are perspective views illustrating a main part of a sheet cutting device as the related art of this invention.

(2) FIGS. 2A and 2B are a perspective view and a sectional view, respectively, illustrating a fixed blade support device as the related art of this invention.

(3) FIGS. 3A and 3B are front views illustrating the fixed blade support device as the related art of this invention.

(4) FIG. 4 is a view illustrating a printer having a sheet cutting device including a fixed blade support device mounted thereto according to an embodiment of this invention.

(5) FIGS. 5A and 5B are a perspective view and a sectional view, respectively, illustrating the fixed blade support device according to the embodiment of this invention.

(6) FIG. 6 is a perspective view illustrating the fixed blade support device according to the embodiment of this invention.

(7) FIG. 7 is an exploded perspective view illustrating the fixed blade support device according to the embodiment of this invention.

(8) FIG. 8 is a partial perspective view illustrating a main part of the fixed blade support device according to the embodiment of this invention.

(9) FIG. 9 is a sectional view illustrating the fixed blade support device according to the embodiment of this invention.

(10) FIGS. 10A and 10B are perspective views illustrating the sheet cutting device according to the embodiment of this invention.

(11) FIGS. 11A and 11B are front views illustrating the fixed blade support device according to the embodiment of this invention.

BEST MODE FOR EMBODYING THE INVENTION

(12) A fixed blade support device of this invention is used for a sheet cutting device to be mounted to a printer for performing printing on a sheet to cut a printed sheet. The fixed blade support device is configured to support, in a rockable manner, a fixed blade for cutting the printed sheet through engagement with a movable blade in an engagement direction.

(13) The fixed blade support device includes biasing member for biasing the fixed blade in a biasing direction toward the movable blade and a fixed blade support member for supporting, in a rockable manner, the fixed blade arranged through intermediation of the biasing member.

(14) In particular, the fixed blade support member includes a base surface portion, an upright surface portion, and a retainer portion. The base surface portion is provided to arrange the fixed blade thereon through intermediation of the biasing member. The upright surface portion extends from the base surface portion in the biasing direction so as to close a rear side of a root portion of the fixed blade on the opposite side to a blade edge portion, and is configured to prevent the fixed blade from being disengaged in the engagement direction. The retainer portion extends from the upright surface portion so as to cover the root portion of the fixed blade, and is configured to prevent the fixed blade from being disengaged in the biasing direction.

(15) The fixed blade support device of this invention is capable of supporting the fixed blade in a rockable manner without causing deformation of the fixed blade at the time of engagement with the movable blade.

(16) That is, in this fixed blade support device, the retainer portion prevents the fixed blade from being disengaged merely in the biasing force positive direction of the biasing direction. Therefore, when the fixed blade rocks and the entire fixed blade including the root portion is displaced in a direction against the biasing force (press-contact force) of the biasing direction at the time of engagement with the movable blade, the fixed blade is not prevented from moving in both of the direction against the biasing force and the blade width direction. As a result, the fixed blade having an appropriately designed degree of curve is not deformed to be flattened, etc. Therefore, the normal cutting operation of the sheet cutting device utilizing the principle of scissors by the fixed blade and the movable blade is achieved, and the generation amount of paper powder does not increase.

(17) In the following, with reference to the drawings, a fixed blade support device, a sheet cutting device, and a printer according to an embodiment of this invention are described.

Embodiment

(18) The sheet cutting device according to the embodiment of this invention is a device to be mounted to a printer for performing printing on a sheet such as roll paper and a label sheet to automatically cut a printed sheet. Further, the fixed blade support device according to the embodiment of this invention is a device to be used for the sheet cutting device as described above, the fixed blade support device being configured to support, in a rockable manner, a fixed blade for cutting the printed sheet through engagement with a movable blade. Further, the printer according to the embodiment of this invention includes a structure for performing printing on a sheet, and the sheet cutting device as described above.

(19) Referring to FIG. 4, the printer according to the embodiment of this invention includes a lower frame 110 which is to be loaded with roll paper S1, an upper frame 120 for openably covering the lower frame 110, a platen 130 which is mounted to the lower frame 110 and is configured to unroll a sheet S from the roll paper S1 in the left direction of the figure, and a printing head 140 of, for example, a thermal type, for performing printing on the sheet S on a circumferential surface of the platen 130.

(20) This printer further includes a sheet cutting device 160 for cutting the sheet S that has undergone printing, and a control board 150 which is incorporated inside the lower frame 110, for controlling the operation of this printer.

(21) The sheet cutting device 160 includes a fixed blade unit 10 which is mounted to the upper frame 120 and includes a fixed blade 12, and a movable blade unit 20 which is mounted to the lower frame 110 below the fixed blade unit 10 so as to be opposed thereto across the roll paper sheet S that has undergone printing and includes a movable blade 22.

(22) The fixed blade unit 10 includes a fixed blade support device including a fixed blade support member 11, the fixed blade 12 supported by the fixed blade support member 11, and a coil spring 13 serving as a biasing member for pressurizing the fixed blade 12 against the movable blade 22.

(23) The movable blade unit 20 includes a movable blade housing 21, the movable blade 22 supported inside the movable blade housing 21 so as to be movable in an engagement direction (stroke direction) K, a rack (not shown) mounted to the movable blade 22, and a pinion gear (not shown) which is connected to a drive source (not shown) and is configured to drive the rack and the movable blade 22 in the stroke direction K.

(24) Note that, in order to achieve an operation utilizing the principle of scissors, the fixed blade 12 is curved (warped) so that its center is protruded toward the movable blade 22, while the movable blade 22 includes a V-shaped blade edge portion. The fixed blade 12 is curved at an appropriate degree considering the balance between reduction of paper powder to be generated at the time of cutting the sheet and relaxation of the load on a drive unit for the movable blade 22.

(25) Referring to FIGS. 5A, 5B, and 6, this fixed blade support device includes the coil spring 13 serving as the biasing member for biasing the fixed blade 12 in the biasing direction that is directed to the movable blade 22, and the fixed blade support member 11 for supporting, in a rockable manner, the fixed blade 12 arranged through intermediation of the coil spring 13.

(26) As illustrated particularly in FIGS. 5A and 5B, the fixed blade support member 11 includes a base surface portion 11a, an upright surface portion 11b, and a retainer portion 11c.

(27) The base surface portion 11a is provided to arrange the fixed blade 12 thereon through intermediation of the coil spring 13.

(28) The upright surface portion 11b extends from the base surface portion 11a in the biasing direction so as to close a rear side of a root portion of the fixed blade 12 on the opposite side to a blade edge portion, and is configured to prevent the fixed blade 12 from being disengaged in the direction of engagement with the movable blade.

(29) The retainer portion 11c extends from the upright surface portion 11b so as to cover the root portion of the fixed blade 12, and is configured to prevent the fixed blade 12 from being disengaged in the biasing direction. In this embodiment, the retainer portion 11c is formed so as to cover a center portion of the fixed blade 12 in the blade width direction.

(30) Referring further to FIGS. 7 to 9, this fixed blade support device further includes a spring holder 14.

(31) The spring holder 14 is a member provided separately from the fixed blade support member 11, and is mounted between the base surface portion 11a of the fixed blade support member 11 and the coil spring 13 to position the coil spring 13.

(32) As illustrated particularly in FIG. 8, the spring holder 14 includes second retainer portions 14c that cover respective both end portions in the blade width direction of the blade edge portion of the fixed blade 12 arranged through intermediation of the coil spring 13, and that are configured to prevent the fixed blade 12 from being disengaged in the biasing direction together with the retainer portion 11c of the fixed blade support member. Each of the second retainer portions 14c also includes a part that closes the front side of each of both the end portions in the blade width direction of the blade edge portion of the fixed blade 12 arranged through intermediation of the coil spring 13, and that prevents the fixed blade 12 from being disengaged in the engagement direction together with the upright surface portion 11b of the fixed blade support member 11.

(33) In this case, the fixed blade support member 11 supports, in a rockable manner, the fixed blade 12 having a center portion in the blade width direction warped in a direction toward the movable blade 22. Further, as the coil spring, an odd number of (in this embodiment, three) coil springs 13 having the same shape are used, which correspond to the center portion and both sides of the fixed blade 12 in the blade width direction.

(34) As illustrated particularly in FIG. 9, the spring holder 14 has such a positioning surface for the coil spring that gradually increases its height position with respect to the base surface portion 11a of the fixed blade support member 11 from the coil spring 13 corresponding to the outer side of the fixed blade 12 in the blade width direction to the coil spring 13 corresponding to the center portion thereof. With this, a uniform biasing force is applied to the fixed blade 12 having an appropriately designed degree of curve.

(35) Next, the operation of this fixed blade support device is described.

(36) The fixed blade 12 is supported by the retainer portion 11c of the fixed blade support member in a rockable manner, but in the actual case, the entire fixed blade 12 including the root portion as a rocking fulcrum is also displaced at the time of engagement with the movable blade 22. That is, as the engagement of the movable blade 22 (illustrated only in FIG. 10B) with respect to the fixed blade 12 progresses as illustrated in FIGS. 10B and 11B from an initial stage at which the movable blade 22 (illustrated only in FIG. 10A) starts engagement with respect to the fixed blade 12 as illustrated in FIGS. 10A and 11A, the fixed blade 12 rocks, and the entire fixed blade 12 including the root portion is also displaced in a direction against the biasing force of the biasing direction (press-contact direction).

(37) In this case, in this fixed blade support device, the retainer portion 11c prevents the fixed blade 12 from being disengaged merely in the biasing force positive direction of the biasing direction. Therefore, the fixed blade 12 is not prevented from moving in both of the direction against the biasing force of the biasing direction and the blade width direction. As a result, the fixed blade 12 having the appropriately designed degree of curve is not deformed to be flattened, etc. Therefore, as for the drive force of the drive unit for the movable blade, it is unnecessary to consider the increase of load due to the deformation such as flattening of the fixed blade, and only the load due to the degree of the curve of the fixed blade is required to be considered, and hence the drive force can be relatively reduced. Further, the normal cutting operation of this sheet cutting device utilizing the principle of scissors by the fixed blade 12 and the movable blade 22 is achieved, and the generation amount of paper powder does not increase.

(38) Note that, in the above-mentioned embodiment, the coil spring is used as the biasing member, but another biasing member such as a plate spring may be used instead.

INDUSTRIAL APPLICABILITY

(39) This invention has been described above by means of an embodiment. However, this invention is not limited to the embodiment. It should be understood that various modifications can be made thereto without departing from the technical scope described in the claims in this application.

(40) This application is based upon and claims the benefit of priority from Japanese Patent Application No. 2010-279303, filed on Dec. 15, 2010, the entire disclosure of which is incorporated herein by reference.