KR19990029972U - Heat dissipation structure of thermal print head - Google Patents

Abstract

The present invention relates to a heat dissipation structure of a thermal print head coupled to a printer device, etc. The object of the present invention is to form a guide wall for easily discharging heat generated from the TPH into a blower fan to increase the heat dissipation effect of TPH It is to provide a heat dissipation structure of TPH. The present invention prevents the thermal diffusion of the TPH 40 by the guide wall 28 when discharging the heat generated in the TPH 40 through the blower fan 70, and by intensively releasing air in the guide wall, The heat dissipation effect can be enhanced.

Description

Heat dissipation structure of thermal print head

The present invention relates to a heat dissipation structure of a thermal print head (hereinafter referred to as TPH) that is coupled to a machine or the like of a printer. More specifically, heat dissipation of TPH by easily dissipating heat generated in the TPH through a blowing fan It relates to a heat dissipation structure of TPH that can enhance the effect.

Generally, a color printer or a printer employing a thermal transfer ribbon prints data on a recording sheet by heat when passing through the TPH. In particular, a color printer or the like scans an RGB beam with a TPH to designate a color of data output on a recording sheet under temperature control. At this time, since the TPH is composed of heat generating elements, heat dissipating devices such as a fan and a heat sink are provided to prevent temperature control and thermal accumulation of the heat generating elements and to prevent spreading or mixing of data printed on the recording paper. .

Looking at the heat dissipation structure of the TPH combined with such a blower fan as follows with reference to the accompanying drawings.

In the present specification, an example of a TPH installed in a case of a facsimile and outputting data to a thermal recording paper rolled in a roll form is described.

1 is a cross-sectional view showing a cross section of a state in which TPH is coupled to a facsimile according to the prior art, reference numeral 10 is a case constituting the exterior of the product is coupled to the operating panel on the bottom, 30 is the operating panel TPH TPH panel for binding to

The operating panel 20 is coupled to the bottom of the case 10, and the ventilation panel 22 is formed in the operating panel 20 to coincide with the through hole 12 formed in the case 10. 22, a blowing fan 70 is provided. In addition, brackets 26 provided with hinges 27 are formed at both end portions of the operating panel 20, and engaging holes 24 are formed at both front sides thereof.

The TPH panel 30 has an arm 32 having a hinge hole formed at both ends thereof with a hinge hole coupled to a hinge of the shaft of the operating panel 20 at an extended end thereof, and at the bottom thereof, a TPH having a heat sink 50 coupled thereto. 40) is screwed in. And the upper surface of both sides of the TPH panel 30 is provided with a catching ring 35 to be caught in the catching hole 24 of the operating panel 20, and around such a catching ring 35 for a predetermined distance from the operating panel A plurality of buffer protrusions 37 are provided.

As described above, the combined TPH 40 is in contact with the platen roller 60 coupled to the main body (not shown) to output the data to the recording paper to generate heat from the TPH 40. It is conducted to 50 is discharged to the outside through the blowing fan (70).

However, the blower fan 70 dissipates heat generated from the TPH 40 to the outside, and at the same time, heats various components or air around the TPH 40, thereby lowering the heat dissipation effect of the TPH 40. In other words, when the heat of the TPH 40 is discharged by the blower fan 70, the air inside the case 10 is forced to circulate, so that not only the heat generated by the TPH 40 but also the air around the TPH 40 is generated. In addition, since the heat is discharged through the blower fan 70, the heat generated in the TPH 40 is not discharged through the vent 22, so that the heat dissipation effect is reduced.

Therefore, as described above, when the heat dissipation effect of the TPH 40 is reduced, since the temperature of the heat generating element constituting the TPH 40 is not properly controlled, the high resolution of the data output on the recording paper falls. In addition, since the data output on the recording sheet cannot be solidified in a timely manner, the data is continuously printed through the heating element, so that the printed data is smeared or mixed with each other, making it difficult to check the data.

Therefore, the present invention has been devised to solve the above-mentioned problem.

An object of the present invention is to provide a heat dissipation structure of the TPH that can form a guide wall that can easily discharge the heat generated in the TPH to the blowing fan to increase the heat dissipation effect of the TPH.

1 is a cross-sectional view showing a state in which the conventional TPH is coupled,

Figure 2 is an exploded perspective view showing the decomposition state of the TPH is coupled according to the present invention,

3 is a cross-sectional view showing a state in which the TPH is coupled according to the present invention.

*** Explanation of symbols on the main parts of the drawing ***

10 case 12 through hole

20: operating panel 22: vents

24: engaging hole 26: bracket

27: hinge 28: guide wall

30 TPH Panel 32 Arm

34: hinge hole 35: hook

36a, 36b, 36c: screw hole 38: discharge hole

40: TPH 50: heat sink

60: platen roller 70: blowing fan

Means for achieving the object of the present invention is a structure in which the heat generated in the TPH to the outside by the blowing fan,

The guide wall may be formed to surround the TPH to guide the heat generated from the TPH to the outside.

According to the structure of the present invention, when the blower fan releases the heat generated by the TPH, it is easy to discharge the TPH heat to the outside by the guide wall. Can increase.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is an exploded perspective view showing a state in which the TPH is coupled according to the present invention, reference numeral 20 is an operating panel in which a blower fan is installed at a vent, and 40 is installed at a lower side of the blower fan to output data to a thermal recording paper. TPH with built-in heating element.

Brackets 26 having hinges 27 are formed on both sides of the bottom surface of the operating panel 20, and engaging holes 24 are formed on both front sides of the operating panel 20. An air vent 22 is formed between the engaging holes 24, and a ventilation fan 70 is provided in the air vent 22. In addition, the bottom surface of the operating panel 20 is provided with a pair of guide walls 28 which are spaced apart from the ventilation opening 22 at a predetermined distance.

The TPH panel 30 forms an arm 32 having hinge holes 34 coupled to the brackets 26 of the operating panel 20 on both side surfaces of the member, and the TPH ( 40) is fixed. In addition, the front and rear sides of the TPH panel 30 are provided with a hook ring 35 having a cutout of a second area bent again after cutting a predetermined area of the panel, and between the hook rings 35 between both sides. The discharge hole 38 cut in the direction is formed. In addition, a screw hole 32a is formed at the outer end of the locking ring 35.

A large number of heat generating elements are disposed inside the TPH 40, and screw holes 32b are formed at both ends thereof.

The heat sink 50 is formed of the aluminum material provided with the screw hole 32c at both ends.

Looking at the assembly and action according to the present invention by the configuration described above are as follows.

3 is a cross-sectional view showing a state in which the TPH is coupled according to the present invention, the heat sink 50 and the TPH panel 30 are sequentially stacked on the upper surface of the TPH 40 through screw holes 32a, 32b, and 32c. Screw (80) together. At this time, the TPH 40 is positioned below the discharge hole 38 of the TPH panel 30. In the assembled state, the locking ring 35 of the TPH panel 30 is fixed to the locking hole 24 of the operating panel 20, and the hinge 27 is formed in the hinge hole formed in the arm 32. When inserted, the TPH panel 30 is coupled between the guide walls 28 of the operating panel 20.

When the operating panel 20 is coupled to the main body (not shown) in the coupled state, the TPH 40 contacts the platen roller 60 and outputs the received data on the recording paper. When the data is output to the recording sheet in the above-described state, heat generated in the TPH 40 is conducted through the heat sink 50 to radiate the air around the TPH 40 into the atmosphere. Therefore, the air around the TPH 40 is discharged to the outside through the blower fan 70. At this time, the blowing fan 70 to discharge the air in the guide wall 28 to the outside to improve the heat dissipation effect of the TPH (40).

Looking at the operation and effect according to the present invention described above, as shown in Figure 3 because the heat generated in the TPH (40) existing in the guide wall 28 is discharged to the outside through the blowing fan 70 By intensively dissipating the TPH 40, it is possible to quickly dissipate the TPH 40.

Claims (1)

In the structure for dissipating heat generated in the TPH 40 to the outside by the blowing fan 70, And a guide wall (28) formed to surround the TPH (40) and guide the heat generated by the TPH (40) to be sucked into the blower fan (70).