KR20190093437A - Photo printer with adjusting tension of spring and menufacturing method of the same - Google Patents

Abstract

The present invention relates to a photo printer and a manufacturing method thereof and, more specifically, relates to a photo printer capable of controlling tension of a spring individually provided at left and right sides of a head and a manufacturing method thereof. According to the present invention, the photo printer comprises: a frame on which a platen roller to supply paper is mounted; a head provided in an upper portion of the platen roller to form an image in the paper, and mounted on the frame to move in a vertical direction; a pair of tension springs applying tension downwards at both sides of the head; and a pair of tension control means fixing a lower end of the tension springs in a state of controlling a length for the tension springs to be provided the same tension.

Description

PHOTO PRINTER WITH ADJUSTING TENSION OF SPRING AND MENUFACTURING METHOD OF THE SAME}

The present invention relates to a photoprinter and a method of manufacturing the same, and more particularly, to a photoprinter and a manufacturing method that can adjust the tension of the tension spring is provided on each side of the head.

The performance of cameras mounted on smart devices such as smartphones is approaching that of general digital cameras, and the population that captures memories by taking pictures with smart devices that are always easier to carry than digital cameras is increasing. As a result, consumers' desire to take photographs and print them immediately without any conversion is growing.

Reflecting such demands from consumers, photo printer products that can print photos in smartphones anytime and anywhere have been launched.

There are many types of such photo printers, and in particular, photo printers employing a zero ink method have been disclosed. Here, the zero ink method refers to a method of expressing color using only heat because dye is coated on paper. In other words, dyes expressing color in response to heat are stacked on paper to form an image such as an image (photo) or text by controlling the heat generation temperature or heat generation time of the head.

1 to 3, the conventional photo printer 100 includes a frame 115 having a paper stacking unit 110, a pickup roller R1, a platen roller R2, a head 143, Head mounting means 150 and the pressing means 160 is included.

The paper stacking unit 110 is provided with a plurality of sheets (P) are stacked and accommodated, the pressing plate 120 for pressing the stacked sheets elastically downward.

In addition, the front end 112 of the paper loading unit 110 is formed to be upward to facilitate the paper feed.

The pickup roller R1 is a component that feeds the paper located at the lowermost part of the stacked paper with its upper surface exposed to the bottom surface of the paper stacking unit 110.

Platen roller (R2) is a component for discharging the paper supplied by the pickup roller (R1) to the front, the rotating shaft is coupled to the frame 115.

The head 140 is provided on the platen roller R2, and the head 140 prints an image or text by expressing a color corresponding to the temperature by applying heat of a predetermined temperature to the paper.

Accordingly, the head 140 includes a heat generating element 143, a PCB 142 for controlling a heat generation temperature or a heat generation time of the heat generating element 143, and a heat sink 141 for dissipating heat. Reference numerals '142a' and '142b' indicate devices mounted on the PCB 142.

The head 140 is rotatably mounted instead of being fixed to the top of the frame 115. Conventionally, the head 140 is coupled to the mounting portion 151 of the head mounting means 150, the head mounting means 150 is hinged to the hinge shaft 113 formed on the frame 115, the swing operation is possible. Do.

As such, when the head 140 is coupled to the head mounting means 150 and the paper enters between the head 140 and the platen roller R2, the head 140 moves upward and the platen roller R2. The gap between and is extended.

In addition, the head 140 is in close contact with the paper transfer heat, in this way is provided with a pressing means 160 for pressing the head 140 downward in order to contact the head 140 to the paper. The front end of the pressing means 160 is formed with a pressing portion 161 for pressing the upper portion of the head 140, the rear end is coupled to the hinge shaft (113).

In addition, hooks 163 are formed at both sides of the pressing part 161, and upper ends of the tension coil springs S are connected to the hooks 163, and a lower end of the tension coil springs S is a frame 115. Is connected to the other hook 115a formed in. Therefore, the head 140 always exerts a tensile force in the platen roller R2 direction (downward).

In this way, even if the head 140 is pressed from the top by the pressing means 160, the head 140 is not lowered because the locking jaw 153 is caught by the stopper 114 formed on both sides of the frame 115. The gap is formed without contacting the roller R2.

On the other hand, Figure 4 shows a tension spring (S) used to press the head downward. As shown in the drawing, the connecting springs S1 and S3 are formed at both ends of the coil S2.

A pair of tension springs (S) having such a structure should be connected to the left and right sides of the frame 115 and the pressing means 160, respectively (see FIG. 1), at which time the tension of the tension springs (S) on the left and right sides. Should be the same.

If there is a deviation in the tension (tension) of the left and right tension springs S, there is a problem that the left and right of the image is formed differently and the print quality is degraded.

Therefore, in order to improve print quality, a pair of tension springs having the same tension must be used. The problem is that it is very difficult to manufacture the tension springs with the same tension.

In order for the tension to be the same, the wire diameter and length of the wire rod used in the manufacture of the tension spring must be constant, and the number of windings and the winding direction of the coil must be the same, and the inner and outer diameters of the coil must be identical.

In particular, the length and thickness and the inner and outer diameter of the connecting portion formed on both ends should be the same, it is very difficult to manufacture in this way.

No. 10-2016-116966

The present invention has been made to solve the above-described problems, an object of the present invention is to provide a photo printer and a manufacturing method that can adjust the tension of the tension spring, respectively provided on the left and right of the head.

Another object of the present invention is to provide a photo printer and a method of manufacturing the same, which can set the tension acting downward from the left and right of the head.

In order to solve the above technical problem, a photo printer according to the present invention includes a frame on which a platen roller for supplying paper is mounted; A head provided on an upper portion of the platen roller to form an image on the paper and mounted on the frame to move in an up and down direction; A pair of tension springs for applying tension downwards on both sides of the head; And a pair of tension adjusting means for fixing a lower end of the tension spring in a state in which the length of the pair of tension springs is adjusted to have the same tension with each other.

The tension adjusting means includes a pair of variable brackets rotatably provided at both side walls of the frame and connected to the lower ends of the tension springs; And it is preferable that the fixing portion is further provided so that the variable bracket is no longer rotated in the state in which the length of the tension spring is adjusted.

In addition, the fixing part is preferably a fixing screw which is coupled to the frame through the variable bracket.

In addition, the variable bracket is preferably formed with an arc-shaped long hole through which the fixing screw passes.

In addition, although the tension spring pulls the head downward, it is preferable that a gap is formed between the head and the platen roller.

The photoprinter manufacturing method according to the present invention comprises the steps of: 1) mounting the head on the frame so that the head can move in the vertical direction at the top of the platen roller; 2) connecting the upper ends of the tension springs respectively on both sides of the head; 3) tensioning the pair of tension springs to have the same tension; And 4) fixing the lower ends of the pair of tension springs in the tensioned state to have the same tension.

In addition, the step 3), it is preferable to pull the lower end of the tension spring with a set load.

In the step 4), the lower end of the tension spring is connected to a variable bracket rotatably provided on both side walls of the frame, respectively, and the variable bracket is tensioned so that the pair of tension springs have the same tension. It is preferable to fix it to the frame so that it no longer rotates.

According to the present invention, there is an effect that can adjust the tension (tension) of the tension spring, respectively provided on the left and right of the head.

Therefore, the tension acting downward from the left and right side of the head can be set equally. Therefore, the left and right sides of the image can be prevented from being formed differently.

1 to 3 show a conventional photoprinter.
4 illustrates a tension spring used in the photoprinter shown in FIG. 1.
5 and 6 show a first embodiment according to the present invention.
FIG. 7 shows the main parts of the embodiment shown in FIG. 5.
8 illustrates a manufacturing process of the photoprinter according to the present invention.
9 and 10 show a second embodiment according to the present invention.
11 and 12 illustrate an operating state of the second embodiment and a method of manufacturing a photoprinter according to the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail the configuration and operation of the embodiment according to the present invention.

5 and 6 show a first embodiment 200 of the photoprinter according to the present invention. Referring to this, the first embodiment 1 according to the present invention includes a frame 210, a head 222, a tension spring 260, and tension adjusting means.

The frame 210 is provided with a platen roller 250, and hinge portions h are formed at both side walls of the frame 210.

The head plate 220 is hinged to the hinge portion h of the frame 210, and the head 222 is mounted to the lower end of the head plate 220.

The head 222 is installed to face the upper portion of the platen roller 250.

Since the head plate 220 is swingable with respect to the frame 210, the head 222 mounted to the head plate 220 is also installed on the platen roller 250 but is not fixed thereto. It is a structure that can move up and down.

Hooks 221 are formed at left and right sides of the head plate 220, respectively, and an upper end of the tension spring 260 is connected to the hook 221.

Although the tension spring 260 pulls the head 222 downward, a gap is formed between the head 222 and the platen roller 250. This is to allow the paper to be smoothly fed under the head 222.

As such, in order to form a gap between the platen roller 250 and the head 222, the structure of the locking step 153 and the stopper 114 may be adopted as in the related art shown in FIG. 1. However, it is also possible to configure the gap so that the upper end of both side walls of the frame 210 directly supports the lower surface of the head plate 220.

In addition, the present invention is provided with a pair of tension adjusting means, in the present embodiment, the tension adjusting means includes a variable bracket 230 and a fixing screw 240 as a fixing part.

In more detail, variable brackets 230 are provided on both side walls of the frame 210. In this embodiment 200, the rotating shaft 251 of the platen roller 250 is installed to pass through the central shaft portion 234 of the variable bracket 230.

The variable bracket 230 is rotatable based on the central shaft portion 234.

The lower end of the tension spring 260 is connected to the spring engaging portion (see '231' in Figure 7) formed in the variable bracket (230).

The fixing part is a component that is fixed to the frame 210 so that the variable bracket 230 is not rotated, in this embodiment is composed of a fixing screw 240.

The other frame 210 is provided with a paper loading part (refer to '110' in Figs. 1 and 2) and a pickup roller (see 'R1' in Fig. 3), and these components are shown in Figs. Since the same as in the prior art, a detailed description thereof will be omitted.

The variable bracket 230 according to the present invention will be described in detail with reference to FIG. 7.

As shown, the variable bracket 230 is mounted to the shaft 234, the rotating shaft 251 of the platen roller.

In addition, at one side of the body of the variable bracket 230, a spring engaging portion 231 is connected to the lower end of the tension spring 260 is formed. In addition, the weight locking portion 232 is protruded on the other side of the body.

In addition, an arc-shaped long hole 233 is formed at one side of the body of the variable bracket 230. The fixing screw 240 penetrates through the long hole 233.

Hereinafter, a method of manufacturing a photoprinter by adjusting the tension of tension springs provided at left and right sides of the photoprinter according to the present invention will be described with reference to FIG. 8.

First, the pickup roller and platen roller 250 are mounted on the frame 210. In addition, the head plate 220 with the head 222 mounted at the tip is coupled to the hinge axis (h) of the frame 210 so as to be swingable.

Next, the upper end of the tension spring 260 is connected to both the left and right sides of the head plate 220.

Next, the lower end of the tension spring 260 is connected to the spring engaging portion 231 of the variable bracket 230.

Next, the weight w is hooked on the weight engaging portion 232 of the variable bracket 230 and pulled by a predetermined load.

Finally, the fixing screw 240 is fastened to the frame 210 by penetrating the long hole 233 of the variable bracket 230 in the state of force balance. The fixing screw 240 is fixed so that the variable bracket 230 does not rotate anymore, and the variable bracket 230 is no longer rotated in a state in which the left and right pair of tension springs 260 have the same tension. To fix it.

If the inherent tension of the pair of tension springs 260 is the same in the first place, the length that is increased when the weight w is applied is the same, and thus the amount of rotation of the variable brackets 230 on the left and right sides is the same. do. Accordingly, the lengths of the tension springs 260 on both sides in the fixed screw 240 is fixed.

However, if the inherent tension of the pair of tension springs 260 is different from the beginning, when the weight w is applied, the extension lengths of the tension springs on both the left and right sides will be different. That is, the amount of rotation of the variable bracket 230 is different, and thus, the tension springs 260 on both sides of the fixed screw 240 are fixed in a different state. In other words, even when the tension springs 260 having different tensions are used, the lengths of the tension springs 260 may be assembled and corrected in a state where the tensions are equally adjusted.

Since the tension of the tension spring 260 can be adjusted in this way, the tension of the tension spring 260 applied to the left and right sides of the head 222 can be equally set regardless of the tension deviation caused by the manufacturing error.

9 and 10 show a second embodiment 300 according to the present invention. Referring to this, the rotating shaft 351 of the platen roller 350 is mounted through both side walls of the frame 310. In addition, bushings 352 are provided at both sides of the platen roller so as to rotate smoothly. The bushing 352 is typically formed of a synthetic resin material. The bushing 352 is provided with a mounting hole 352a to mount the rotating shaft 351 of the platen roller.

In addition, the second embodiment 300 is also provided with a pair of tension adjusting means, in this embodiment, the tension adjusting means includes a variable bracket 330, and a fixing screw 340 as a fixing part.

In particular, it can be seen that the variable bracket 330 is mounted on the outer diameter of the bushing 352. A mounting hole 334 through which the bushing 352 passes is formed at the center of the variable bracket 330.

On one side of the variable bracket 330, the engaging portion 331 is formed to protrude. The catching part 331 is a component to which the lower end of the tension spring 360 is connected. Or it is a component that takes a weight w in the tension adjustment process.

Therefore, the variable bracket 330 is installed on the frame 310, but the rotation spring 351 or bushing 352 of the platen roller in the state in which the tension spring 360 is connected to the engaging portion 331. It is installed to enable bi-directional rotation.

In addition, the fixing screw 340 is provided as a fixing means in order to prevent the variable bracket 330 from rotating in the state where the tension of the tension spring 360 is adjusted.

The fixing screw 340 is coupled to the frame 310 through the long hole 333 formed in an arc shape on the other side of the variable bracket 330.

Hereinafter, a method of manufacturing a photoprinter by adjusting the tension of the tension spring 360 provided on the left and right sides of the photoprinter using the second embodiment will be described with reference to FIG. 11.

First, the pickup roller and platen roller 350 are mounted on the frame 310. In addition, the head plate 320 having the head 322 mounted at the tip is coupled to the hinge axis (h) of the frame 210 so as to be swingable.

Next, the upper end of the tension spring 360 is connected to the left and right sides of the head plate 320.

Next, the lower end of the tension spring 360 is connected to the engaging portion 331 of the variable bracket 330.

Next, the weight w is hooked on the locking portion 331 of the variable bracket 330 and pulled by a predetermined load.

Finally, the fixing screw 340 is fastened to the frame 310 by penetrating the long hole 333 of the variable bracket 330 in the state of the force balance. The fixing screw 340 is fixed so that the variable bracket 330 does not rotate anymore, and the variable bracket 330 is no longer rotated in a state in which the tension of the left and right pair of tension springs 360 is set to be the same. To fix it.

Figure 12 illustrates in more detail the process of adjusting the tension of the tension spring. As shown in (a), the bushing 352 is installed on both side walls of the frame 310 so that the rotation shaft 351 of the platen roller passes therethrough, and the variable bracket 330 is formed as the outer diameter of the bushing 352. This is rotatably installed.

In addition, the lower end of the tension spring 360 is connected to the engaging portion 331 of the variable bracket 330.

In this state, that is, when the variable bracket 330 is not fixed and the weight w is applied to the locking portion 331, the tension spring 360 is increased according to the load of the weight w and the variable bracket ( 330 rotates counterclockwise about the bushing 352 (see FIG. 11B).

At this time, the elongated length of the tension spring 360 is changed according to the inherent tension of the tension spring 360, and accordingly, the amount of rotation of the variable bracket 330 is changed. That is, the tension spring 360 with weak natural tension will stretch longer than the tension spring 360 with strong natural tension.

In any case, when the weight w having the same weight is applied, the tension springs 360 on both the left and right sides may have different lengths, but a force balance occurs in a state in which the tension is equally adjusted.

As described above, the left and right tension springs 360 are fixed to the variable bracket 330 no longer using the fixing screw 340 in a state where the tension is equally adjusted.

Therefore, the present invention has no left and right deviation of the tension spring in the manufacture of the photo printer, even if the tension of the tension spring is changed according to the use of the consumer will be able to adjust the tension by rotating the variable bracket without replacing the tension spring.

In this embodiment, the weight is applied by applying a weight to adjust the tension of the tension spring. Alternatively, the load may be applied using a known method such as a load cell or other piezoelectric element, and the tension of the tension spring may be measured or adjusted.

In addition, in the present embodiment, it is natural that the upper end of the tension spring is directly connected to the head instead of the head plate, or connected to the pressing means as in the related art shown in FIG. 1.

200,300: photo printer (example)
210,310: frame
220,320: head plate
221,321: hook
222,322: head
230,330: Adjustable Bracket
233,333: Longsmith
240,340: fixed screw
250,350: platen roller
260,360: tension spring
h: hinge part
W: Weight

Claims (8)

A frame on which a platen roller for feeding paper is mounted;
A head provided on an upper portion of the platen roller to form an image on the paper and mounted on the frame to move in an up and down direction;
A pair of tension springs for applying tension downwards on both sides of the head; And
And a pair of tension adjusting means for fixing the lower end of the tension spring in a state in which the pair of tension springs have their lengths adjusted to have the same tension with each other.
The method of claim 1,
The tension adjusting means,
A pair of variable brackets rotatably provided at both side walls of the frame and connected to a lower end of the tension spring; And
The photo printer, characterized in that the fixing portion is further provided so that the variable bracket is no longer rotated in the state in which the length of the tension spring is adjusted.
The method of claim 2,
The fixing portion is a photo printer, characterized in that the fixing screw is coupled to the frame through the variable bracket.
The method of claim 3,
The variable bracket is a photo printer, characterized in that the arc-shaped long hole through which the fixing screw is formed.
The method of claim 1,
And the tension spring pulls the head downwards, but a gap is formed between the head and the platen roller.
1) mounting the head to the frame to allow the head to move in the vertical direction at the top of the platen roller;
2) connecting the upper ends of the tension springs respectively on both sides of the head;
3) tensioning the pair of tension springs to have the same tension; And
4) fixing the lower ends of the pair of tension springs in the tensioned state to have the same tension; photoprinter manufacturing method comprising a.
The method of claim 6,
Step 3),
The photo printer manufacturing method, characterized in that for pulling the lower end of the tension spring with a set load.
The method of claim 6,
Step 4),
The lower end of the tension spring is connected to the variable brackets rotatably provided on both side walls of the frame, and the frame so that the variable bracket is no longer rotated while the pair of tension springs are tensioned to have the same tension. Photo printer manufacturing method characterized in that fixed to.

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