KR20110008827A - Multi funtional machine type cutting device for name card - Google Patents

Abstract

PURPOSE: A multi-funtional-machine type name-card manufacturing device is provided to reduce an occupying space since there is no need for a cutting unit and a print dedicated unit to be separately purchased. CONSTITUTION: A multi-funtional-machine type name-card manufacturing device comprises a printing part(500), a cutting part(300) and a tray(110). The printing part is installed in a housing. The printing part outputs a name card paper, on which a name card image has been printed. The cutting part is located on the upper part of the printing part. The cutting part receives and cuts the output name card paper. The tray is located on the upper part of the printing part. The tray rotates around a rotating shaft by a second driving motor and the name card paper can be placed in the tray.

Description

Multi funtional machine type cutting device for name card}

The present invention relates to a multi-format business card manufacturing apparatus, and in detail, a multi-format business card to be printed out immediately by feeding the business card paper printed business card image to the cutting portion, or without cutting the business card paper printed business card image It relates to a business card production apparatus.

In general, a business card printing apparatus uses a printer installed inside the main body, and sequentially feeds Apo (A4) size paper, arranges a plurality of business card images on one sheet of printing paper, and prints only one sheet of paper. And cutting the printed sheet of paper to produce a plurality of business cards.

However, according to the conventional business card printing apparatus, only one sheet of paper on which several business card images are printed is output, only one sheet of the printed paper is cut, and then another new sheet of paper is printed, and a new printed sheet is printed. In addition, since only one sheet of paper was cut, a plurality of sheets of paper were sequentially output and then cut one by one, which required a lot of time to produce a business card.

In particular, since the printed paper could not be cut uniformly, the outer edges or margins of the business cards were cut irregularly, which lowered the value of the business cards and caused a large number of bad business cards to be discarded due to customer complaints. There was this.

In addition, when the paper on which the business card image is printed is to be immediately outputted without cutting, a separate printer for output should be provided. Therefore, the cost has to be doubled.

An object of the present invention for solving the above-described problems, by loading a plurality of business card paper in a tray inside the card after the business card image is printed and output from the printing unit by feeding the loaded plurality of business card paper to the cutting portion Provides a multi-purpose business card production apparatus that can be selected to immediately output without cutting, by collectively cutting the business card image, or by rotating the tray with a large number of business card papers in the upper direction. It is.

Multi-functional business card manufacturing apparatus of the present invention for achieving the above object is disposed in the housing, the printing unit for outputting a business card paper printed business card image; Located on the upper portion of the printing portion, the cutting portion for receiving and cutting the output business card paper; And a feeder unit positioned at an upper portion of the printing unit, rotated about a rotation axis by a second driving motor, and having a tray on which a business card paper can be seated, and the length of the tray may be changed.

The feeder unit may be limited in the range of rotation by the position control means.

The tray may include a second tray member that is rotated about the rotating shaft and a first tray member that is slid relative to the second tray member by the first driving means.

The driving means may include a pinion mechanism that is rotated by the rack device and the first driving motor.

The first tray member or the second tray member may have one or more first alignment panels for aligning the business card paper in the width direction.

One end of the first tray member may have a second alignment panel for pressing the rear end of the business card paper to align the business card paper in the longitudinal direction.

The second alignment panel may include a pressing member for pressing the rear end portion of the business card paper and aligning it once more in the longitudinal direction.

It may further include a clogging portion connected to the other end of the first tray member is rotated up and down.

As described above, according to the present invention, by collectively feeding a plurality of printed business card paper to the cutting portion, it is possible to significantly improve the speed of business card production, and the number of copies at the same time by shortening the time required for business card production Business cards can be produced to reduce the cost of producing business cards.

In addition, by stacking a plurality of printed sheets in the tray inside, and at the same time as well as the front and rear alignment of the print paper, as well as before and after the alignment, as the number of business cards finished after cutting is produced in large quantities in a uniform and high quality state As a result, print quality can be improved, and thus customer satisfaction can be realized.

In addition, since the business card printing device for cutting and the business card printing device for outputting are not separately purchased, not only the space occupied by the business card printing device can be reduced, but also the initial investment cost for the purchase of the device required for printing the business card can be reduced. .

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention.

1 is a perspective view partially showing a feeder unit according to an embodiment of the present invention, Figure 2a is a partial cross-sectional view showing a business card manufacturing process according to an embodiment of the present invention, the business card paper is loaded on the tray It is shown.

As shown in Figure 1 and Figure 2a, the multi-type business card manufacturing apparatus according to an embodiment of the present invention, it comprises a printing unit 500, the cutting unit 300 and the feeder unit 100.

That is, the multi-functional business card manufacturing apparatus according to an embodiment of the present invention, is disposed on the printing unit 500, the printing unit 500 for outputting a business card image (not shown) composed of a computer (not shown), etc. Is placed on top of the cutting unit 300 and the printing unit 500 to receive a business card paper printed with a business card image is cut in a predetermined cutting standard batch, the business card paper output from the printing unit 500 is cut ( It consists of a feeder unit 100 to be supplied to 300.

In the following, each component of the present invention will be described in detail.

In the multi-function business card manufacturing apparatus according to an embodiment of the present invention, the printing unit 500 may use an inkjet printer, but laser printing may be used in consideration of speed and print quality.

In addition, the printing unit 500 is provided with a discharge unit 510 for discharging the business card paper on the upper side, the cutting unit 300 is a paper feed roller for transferring the business card paper received from the feeder unit 100 ( 310 is provided.

The multi-function business card manufacturing apparatus configured as described above, like a general multi-function printer or printer, the main components are installed inside the housing 900 of the hexahedron, the business card cut to a predetermined standard by the cutting unit 300 is The storage unit 700 may be separately provided.

And, the feeder unit 100, as shown in Figure 2a, the driving unit 150 and the driving unit 150 including the first driving motor M that can increase or decrease the overall length is coupled and rotated at a predetermined angle It includes a tray 110, one end of the tray 110 is connected to the block 130 is rotated at a predetermined angle, the other end is connected to the second alignment panel (E) which serves as a front and rear alignment panel have.

In addition, the tray 110 is the first tray member 111 which is slid relative to the second tray member 112 by the second tray member 112 and the driving unit 150 to rotate around the rotation axis (Sh). It is configured to include).

Here, the pinion mechanism P, which is linked to the rack device R mounted on the bottom surface of the second tray member 112, is rotated by the first driving motor, so that the overall length of the tray 110 is increased or decreased. .

In addition, the left and right ends of the upper surface of the first tray member 111 are guided while contacting the left and right sides of the business card paper seated on the tray 110, a pair of first alignment panel 120 to serve as a left and right alignment panel. ) Is provided.

In addition, the tray 110 is rotated about the rotation shaft Sh, which is achieved by transmitting the rotational force of the second driving motor M2 to the rotation shaft Sh by the timing belt T.

Referring to Figure 2, looks at the business card production process according to an embodiment of the present invention.

However, for convenience of drawing configuration, a plurality of business card sheets are omitted in FIGS. 2 and 3 without being shown.

Figure 2a shows a state that the business card paper is loaded in the tray, Figure 2b is a state in which the full length is reduced by reversing the tray in the state that the business card paper is loaded, Figure 2c is a state in which the tray is reduced upward 2D is a state where the length of the rotated tray is extended to its original length, and FIG. 2E is a preparation state by feeding a plurality of business card sheets one by one, and FIG. 2F is a plurality of sheets aligned in the front-rear direction. Cards are being fed one by one to the cutting part.

2a to 2f, in the multi-type business card manufacturing apparatus according to an embodiment of the present invention, the tray 110 is a component that the business card paper is seated in the inner storage space.

First, as shown in FIG. 2A, the tray 110 is moved to the lower side of the discharge unit 500, and then a business card image is printed and then discharged through the discharge unit 510. ) Are loaded sequentially.

At this time, although a number of business card paper that can be loaded on the tray 110, it is preferable to load about 10 sheets in the present invention, and after several sheets are stacked, by cutting the business card paper in a batch, after printing a single sheet Compared to the prior art which was cut off, the speed of card production is greatly improved.

In particular, the reason why the card 110 is not separated from the tray 110 even when a plurality of business cards are loaded in a state in which the tray 110 is inclined by a predetermined angle is that the blocking portion 140 provided at one end of the tray 110 is upper side. This is because it rotates by a preset angle.

Subsequently, when the business card paper is completely loaded on the tray 110, the first tray member 111 is slid relative to the second tray member 112 according to the operation of the rack device R and the pinion mechanism P. The overall length of the tray 110 is shortened (see FIG. 2B).

This is to exclude interference such as hitting the surrounding parts and the like in the process of being rotated to the position where the cutting unit 300 is placed in a batch of a plurality of stacked business cards.

And, as shown, after the tray 110 is rotated to the position where the cutting part 300 is placed, the full length of the tray 110 is increased until it reaches its original state. (FIGS. 2C and 2D). Reference)

At this time, when the second alignment panel E supporting the back of the plurality of business cards is advanced, the distance between the paper feed roller 310 and the second alignment panel E is narrowed, and the second alignment panel E By pressing the back of the plurality of business card sheets, the business card sheets that were not aligned before and after are aligned.

Therefore, the left and right alignment is already in place, and at this time, the entire alignment is completed. (See FIGS. 2E and 2F.)

Here, separately from the advance of the second alignment panel E or at the same time, the rear alignment spring Sp presses the rear part of the plurality of business card sheets once more to assist the front and rear alignment of the plurality of business card sheets. It can also be configured.

At this time, the tray 110 is rotated upward to stop at the point where the cutting unit 300 is located, a limit switch (not shown), a geared motor (not shown), a stepping motor (not shown), etc., which are separately installed. This can be achieved by using the same position control means.

Therefore, in the state where the entire alignment is completed, by supplying and cutting the plurality of business card papers to the cutting unit 300 by using the paper feed roller 310, it is possible to reduce the cutting defect of the business card paper to the minimum. See 2f)

Subsequently, the business card paper cut by the cutting unit 300 is loaded in a separate holder box 700.

3 is a cross-sectional view showing yet another function of the feeder unit according to an embodiment of the present invention.

On the other hand, when the user wants to output the business card paper output from the printing unit 500 in the uncut state, and delivers a plurality of business card paper to the tray 110 in sequence, the tray 110 is cut ( It does not rotate toward 300, but immediately moves upwards beyond the cutting portion 300.

Thus, a plurality of printed business cards can be obtained, which are not cut, thereby realizing a function such as a multifunction machine.

Therefore, since the business card printing device for cutting and the business card printing device for outputting are not separately purchased, not only the space occupied by the business card printing device can be reduced, but also the initial investment cost due to the purchase of the device required for printing the business card can be reduced. .

In the above description, the present invention has been described with reference to preferred embodiments, but the present invention is not necessarily limited thereto, and a person having ordinary skill in the art to which the present invention pertains does not depart from the technical spirit of the present invention. It will be readily appreciated that various substitutions, modifications and variations can be made.

1 is a perspective view partially showing a feeder unit according to an embodiment of the present invention.

2 is a partial cross-sectional view showing a business card manufacturing process according to an embodiment of the present invention in the lateral direction,

(a) shows the preparation state for loading business card paper into a tray.

(b) is a state in which the overall length is reduced by reversing the tray while the business card paper is loaded,

(c) is a state in which the tray with reduced length is rotated upwards,

(d) is the length of the rotated tray lengthened to its original length,

(e) is the preparation state by feeding a plurality of business card sheets one by one into the cutout,

(f) is a state in which a plurality of business card sheets arranged in the front-rear direction are fed one by one with the cutting portion.

3 is a cross-sectional view showing yet another function of the feeder unit according to an embodiment of the present invention.

<Explanation of symbols for the main parts of the drawings>

100: feeder unit 110: tray

150: drive part 300: cutting part

500: printing unit

Claims (8)

A printing unit disposed inside the housing and outputting a business card paper on which a business card image is printed; Located on the upper portion of the printing portion, the cutting portion for receiving and cutting the output business card paper; And a feeder unit positioned at an upper portion of the printing unit, the tray being rotated about a rotation axis by a second driving motor, and having a tray on which a business card paper can be seated. Including, The tray is a multi-function business card production apparatus that can be changed in length. In claim 1, The feeder unit, a multi-function business card manufacturing apparatus is limited in the range of rotation by the position control means. In claim 1, The tray includes a second tray member rotated about the rotating shaft and a first tray member slid relative to the second tray member by a first driving means. In claim 3, The driving means is a compound type business card manufacturing apparatus consisting of a pinion mechanism that is rotated by the rack device and the first drive motor. In claim 3, The first tray member or the second tray member, the multi-function business card manufacturing apparatus having at least one first alignment panel for aligning the business card paper in the width direction. In claim 3, One end of the first tray member is a multi-function business card manufacturing apparatus having a second alignment panel for pressing the rear end of the business card paper to align the business card paper in the longitudinal direction. In claim 6, The second alignment panel is a multi-function business card manufacturing apparatus comprising a pressing member for pressing the rear end of the business card paper to align once more in the longitudinal direction. In claim 6, And a clogging part connected to the other end of the first tray member to be rotated up and down.

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