KR200175749Y1 - Pressure regulating structure of ink outlet for water soluble ink ball pen - Google Patents

Abstract

By forming a pressure regulating valve in the ink reservoir, the ink reservoir does not always run out of ink too much at the time of writing regardless of changes in temperature or air pressure, and also maintains a constant amount of ink so that ink does not flow much. Relates to an ink outflow pressure control structure of an aqueous ink ballpoint pen which can be stably flowed into a guide core, wherein an ink flow hole 110 is formed at a center thereof and a center of a plurality of circular wing pieces 180 at an outside thereof. Ink flow groove 130 and the air exchange groove 120 is formed in the direction to adjust the pressure rise and the air expansion of the ink storage unit 10, so that the ink flows to the writing unit through the guide core 20 In the pen nib of the water-based ink pen, a pressure regulating valve 200 connected to the ink flow hole 110 is connected to the rear of the nib 100, and the pressure regulating valve 200 is inked. Adjusting hole 210 is formed, according to the temperature characterized in that the ink formed a control hole 210 is converted.

Description

Ink Outflow Pressure Control Structure of Water-based Ink Ballpoint Pen

The present invention relates to an ink outflow pressure control structure of an aqueous ink ballpoint pen capable of adjusting the air pressure of an ink storage cylinder of an aqueous ink ballpoint pen. Regardless of whether the ink is not always too short at the time of writing, and the ink amount of the ink pen can be maintained so that the ink can be stably flowed to the guide core by keeping the amount of ink constant so that the ink does not flow much. It relates to a pressure regulating structure.

In general, in the aqueous ink ballpoint pen, it is necessary to keep the ink so that the ink is not always insufficient at the time of writing regardless of the change in temperature or air pressure.

In such an aqueous ballpoint pen, ink is supplied to the ball at the front end of the induction core, but the amount of ink in the ink storage portion decreases due to an increase in the hand temperature or the outside air temperature of the writer, thus accommodating the ink storage. If the pressure reduction in the portion is not properly compensated for, the flow of the ink may not be smooth, and eventually the writing becomes impossible.

In order to eliminate this problem, when the ink or air in the reservoir expands, the ink that is about to flow out is diverted to a place other than the ball, and temporarily collected, and when the pressure in the ink reservoir decreases. For example, the outside air may be automatically introduced into the ink reservoir.

By the way, it is never easy to obtain a mechanism for controlling the outflow of ink which can properly prevent the leakage of the remaining ink due to the expansion of air in the storage part due to the temperature change.

In particular, if the remaining ink flows once to the control mechanism due to a sudden change in temperature or pressure, the air passing through the outside air without attempting to return to the original state even in an inverted state when not in use. Ink flows back out of the exchange hole, causing the shaft to become dirty and causing damage.

In order to achieve the above-mentioned drawbacks, various proposals have been made, but none of them can be said that the structure is complicated and functionally satisfactory.

The purpose of this paper is to solve the above-mentioned drawbacks, and it is possible to supply ink appropriately and smoothly regardless of the change in temperature and air pressure, and to stop the ink when it is left still, that is, when not in use. The ink outflow pressure regulating structure of the aqueous ink ballpoint pen, which can control the amount of ink flowing in the aqueous ink ballpoint pen, which can assure the accuracy and the resulting mechanism can be simplified as well as the score volume can be reduced. I would like to provide.

The present invention is formed with an ink distribution hole in the center and the ink distribution groove and the air exchange groove in the center direction on the plurality of circular wing pieces on the outside, by adjusting the pressure rise and air expansion of the ink reservoir, the ink through the guide core In the nib of the water-based ink ballpoint pen to let the water flow out to the writing unit,

As a basic feature, a pressure control valve connected to the ink flow hole is installed at the rear of the pen nib.

In addition, the present invention is to form an ink control hole in the pressure control valve is to change the ink control hole in accordance with the temperature.

Therefore, the present invention prevents the ink from the ink storage portion from being sucked by the capillary action of the pen nib in a state where the ball-point pen body is placed still, so that excessive ink is supplied to the guide core, and the flow of ink in the natural state is prevented. It keeps proper and smooth, especially when there is an external influence, that is, a small pump action occurs due to the change of the hand temperature, the atmospheric pressure and the temperature of the writer, and the ink in the ink reservoir flows smoothly into the ink distribution groove of the pen nib. Since the air pressure regulating valve which helps to lift is controlled by the air pressure in an ink storage part, ink never leaks out around a ball, and only an appropriate amount of ink can be supplied to a ball by guide core.

1 is a cross-sectional view of a ballpoint pen equipped with an ink outflow pressure control structure in the pen nib of the present invention,

2 is an exploded cross-sectional view of a ball pen equipped with an ink outflow pressure control structure in the pen nib of the present invention;

3 is an enlarged view illustrating main parts of FIG. 2;

4A is a cross-sectional view taken along line A-A of FIG. 2 of the present invention;

4B is a cross-sectional view taken along line B-B of FIG. 2 of the present invention;

4C is a cross-sectional view taken along line C-C of the present invention;

4D is a cross-sectional view taken along the line D-D of the present invention.

<Description of Symbols for Major Parts of Drawings>

10: ink storage unit 20: guide core

100: nib 110: ink distribution hole

120: air exchange groove 130: ink distribution groove

150: ink leakage prevention wing piece 170: wing piece

200: pressure control valve 210: ink control hole

An embodiment of the present invention will be described in detail with reference to the accompanying drawings.

The aqueous ink ball-point pen body has a cylindrical ink reservoir 10 as shown in Figs. A nib 100 into which the wing pieces of the rear part are fitted in the ink storage unit 10; An induction core 20 into which a rear portion thereof is inserted into an ink distribution hole 110 in the center of the pen core 100 to guide ink in the ink storage portion 10; A covering cover 40 coated on an outer circumference of the guide core 20; The covering cover 40 is equipped with a covering outer cover 50.

In particular, the pen nib 100 of the present invention is formed with an ink flow hole 110 in the center and a plurality of circular wing pieces 180 are formed at substantially equal intervals on the outside.

The ink delivery hole 110 is coupled to the guide core 20 as shown in FIGS. 1 and 2 to guide the ink in the ink reservoir 10.

The tip of the guide core 20 is coupled to the tip cylinder (ball) 31 is mounted so that the ink flows out to the writing unit (not shown).

The guide core 20 is formed of a material of an ink absorbable fiber bundle or a molding core for drawing ink.

In the front of the nib 100 is a bonding blade piece 140 that is tightly coupled with the cover cover 40 is formed of a larger dimension than the blade pieces 180 width and diameter.

In addition, as shown in FIG. 4A, the joining blade piece 140 has a groove-shaped air inlet groove 141 through which air can be introduced at one place on the circumferential surface thereof.

In addition, an ink leakage preventing blade piece 150 having a diameter smaller than the diameter of the blade piece 180 and larger than the blade piece 180 is formed immediately behind the bonding blade piece 140 as shown in FIG. 4B. In addition, the ink leakage preventing blade piece 150 is cut through at an alternate position with the air inlet groove 141 of the bonding blade piece 140.

In addition, the ink leakage preventing wing 150 is formed at the rear end of the nib 100, the nib 100 is formed of a dimension that can be tightly coupled to the inner wall of the ink storage unit 10.

The wing piece of the ink leakage preventing wing 150, that is, the wing piece 160 of the back of the nib 100 are arranged in a spiral shape of the spacing of the gap is tight, these wing pieces 160 are It is formed in a thin thickness of about 0.1 mm or less, and the arrangement may be arranged in a circular shape without forming a spiral as described above.

As shown in FIGS. 1 and 2, the pen tip 100 has a thickness of about 0.2 mm other than the spiral blade pieces 160, and a wing piece 170 having a relatively wide width is formed in the middle. have.

In addition, the wing pieces 170 and 180 are connected to the ink distribution hole 110 by cutting the ink distribution groove 130 into a fine width in the center direction as shown in FIGS. 4A, 4B, 4C, and 4D. And the air exchange groove 120 of a predetermined depth is formed in the longitudinal direction on the opposite side corresponding to the ink distribution groove 130.

Here, the ink distribution groove 130 and the air exchange groove 120 is not formed over the entire length of the nib 100.

In addition, a pressure regulating valve 200 connected to the ink flow hole 110 is installed at the rear of the pen nib 100.

The pressure control valve 200 has an ink control hole 210 is formed is converted by the shrinkage and expansion of the ink control hole 210 according to the temperature.

The pressure control valve 200 is made of a material such as synthetic rubber and synthetic resin that is flexibly contracted and expanded in response to the change in temperature.

The present invention as described above, the pen nib 100 to control the flow of the ink is connected to the ink flow hole 110 of the pen nib 100, the ink flow groove 130 and the ink flows in the axial direction of the narrow flow through the ink flow through Since the air exchange groove 120 which is slightly wider than the flow groove 130 is formed at a predetermined depth toward the axial direction, the air pressure can be adjusted, so that the ink of the pen nib 100 is the pressure control valve 200. Helps to flow smoothly and will flow through the guide core (20).

Then, the air suitable for the ink consumed by writing passes through the groove from which the ink flows from the air exchange groove 120, that is, the ink distribution groove 130, and is easily changed into the ink storage portion 10, so that the ink is insufficient. It does not cause such a defect.

In addition, when not in use, the ink of the ink reservoir 10 is sucked into the ink flow groove 130, which is a groove through which the ink flows by capillary action, and flows into the ink reservoir 10 of the outside air. Since it supports, a stable state can be maintained.

In addition, when an increase in air temperature or a decrease in air pressure occurs when the ink in the ink storage unit 10 is less than half, the remaining ink is induced in the ink storage unit 10 as the air expands. After passing through the ink flow groove 130, which is a groove through which ink flows, it flows into the ink control blade piece 160 at the rear end portion that controls the flow of ink and is protected.

In addition, when the temperature decreases, the remaining ink easily passes through the guide core 20 and returns to the ink storage unit 10 due to the capillary action.

That is, the air pressure regulating valve which causes a fine pumping action by the hand temperature of the writer or changes in the outside air pressure and air temperature and helps the ink in the ink reservoir 10 flow smoothly into the ink distribution groove 130 of the nib 100 ( Since the air pressure in the ink reservoir 10 is regulated by 200, the ink never leaks out around the ball, and only a proper amount of ink can be supplied to the ball by the guide core 20.

As described above, the present invention forms a pressure regulating valve in the ink reservoir so that the ink is not always short enough at the time of writing regardless of the change in temperature or air pressure of the ink reservoir, and also the ink does not flow much. By keeping the amount constant, it is possible to maintain the ink to stably flow to the guide core.

Claims (2)

An ink flow hole is formed at the center and an ink flow groove and an air exchange groove are formed in a plurality of circular wing pieces at the center thereof to adjust the pressure rise and the air expansion of the ink reservoir, so that ink is transferred to the writing unit through the guide core. In the nib of the water-based ink ball-point pen which flows out, And a pressure regulating valve connected to the ink flow hole at the rear of the pen nib. 2. The ink outflow pressure regulating structure according to claim 1, wherein the pressure regulating valve is formed with an ink adjusting hole so that the ink adjusting hole is converted according to a temperature.