WO1999057028A1 - Extrusion type applicator - Google Patents

Abstract

An applicator for performing coating, writing, and marking by pressing creamy coating liquid filled in an elastic container by fingers so as to force out the liquid from a nozzle, wherein valve seats opposed to each other are provided in the nozzle and a valve moving element is positioned between the valve seats so that a liquid dripping can be prevented and all the coating surfaces can be coated with the liquid satisfactorily, the valve moving element which closes the valve near a nozzle opening part when the liquid is pressed and is partly exposed rises freely from the coating surface when the liquid is applied so as to open the valve and force out the coating liquid, and the valve moving element is sucked in when the pressing is stopped after the application has been completed and the valve is closed at the bottom part of the nozzle so as to prevent dirt from entering, whereby the applicator is used for marking, writing, and drawing with paint or outdoor paint, application of glue, chemicals, and cosmetics, and coating of waterproof sealing compound at specified positions.

Description

 Akira Yanagi Push-out type applicator

 The present invention fights against an applicator using an extruding container having elasticity. In particular, the present invention relates to an applicator having an application control mechanism on a nozzle.

 Conventionally, various attempts have been made with regard to the shape of the nozzle opening of an applicator, which pushes out a creamy coating liquid filled in an elastic container, but the liquid at the beginning of application Because of the dripping and the end of the stringing, it was extremely difficult to cleanly apply it to a predetermined position.

In order to solve the above-mentioned problems, there has appeared one using a ball-point pen tip as a nozzle. In addition, a ball bearing seat fixed to the pen tip 內 portion is supported by a swaring or the like. ing . When the coefficient of friction with the ball is larger than the coefficient of friction between the ball seat and the ball, such as paper or human skin, the ball rotates well and is very good. surface on which the application was _t However resin quotes I ring became jar'll be done, glass, such as tiles, or if there is no penetration of the coating cloth solution, co-down click rie door. cormorant good of switching Operation mouth of the timber The ball may not rotate when a high viscosity is required and a large amount of coating is required. DISCLOSURE OF THE INVENTION The present invention is intended to provide an applicator capable of applying finely to any surface such as a resin-coated surface, a glass, a tile, and a cut edge of concrete wood.

Opposite valve sheets are provided near and behind the nozzle opening of an elastic container filled with a cream-like coating solution, and the container where the valve mover is located is pressed with a finger between them. The valve mover is extruded The liquid is pressed against the valve sheet near the opening. At this time, a part of the valve / lev slider is exposed from the nozzle opening, and the valve is closed.

 At the start of coating, when a part of the valve mover exposed from the opening is pressed against the surface to be coated, the valve opens and the flow of the coating liquid starts. Dispensing is performed by moving the nozzle at a slight angle in the direction of travel from a right angle to the surface to be coated. In this state, the force that presses the surface to be coated of the valve mover is as follows. It is proven to be extremely small and has little effect on dispensing, depending on the liquid pressure difference and buoyancy, using a $ 21 drawing pen.

 At the end of the application, if the container is lifted while being pressed, the bath / removing member will move away from the surface to be coated, return to the initial state and the flow of the coating solution will stop. The coating liquid is sucked in by the elastic restoring force of the container. The valve mover is also completely sucked into the nozzle and is in close contact with the valve sheet at the back so that the suction stops. <The nozzle is covered with a cap and the nozzle opening Preventing the coating liquid remaining in the part from drying and preparing for the next coating is the same as for general coating tools and writing tools. BRIEF DESCRIPTION OF THE FIGURES

 FIG. 1 is a sectional view showing a pressed state of the applicator of the present invention.

 FIG. 2 is a view showing a coating state, and shows a partial cross section.

 FIG. 3 is a view showing a non-coated state, and shows a partial cross section.

 FIG. 4 is a view showing another embodiment, and shows a partial cross section.

 FIG. 5 is also a perspective view showing components of another embodiment, and shows a partial cross section.

 As the best mode of the present invention, an embodiment in which a ball is used for a valve mover will be described in detail.

As shown in Fig. 1, fingers 1 and 2 press an elastic container 4 filled with a cream-like coating liquid 3. The ball 5, which is a valve mover, is used for the coating liquid. 3, and adheres to the valve sheet 8 near the opening 7 inside the nozzle 6. In this state, the coating liquid 3 does not flow out of the opening 7, but a part of the ball 5 is opened. It is exposed from the part _7.The amount of exposure is preferably 30% to 40% of the diameter of the ball 5.

 In the state shown in FIG. 1, when the exposed portion of the ball 5 is pressed against the surface 9 to be coated, a gap is formed between the valve sheet 8 and the ball of the ball 5. If the container 4 is tilted and moved in the direction in which the container 4 is slightly applied to the surface 9 to be coated, that is, in the direction of the arrow A, the application is started, as shown in FIG. The fact that the ball 5 has no mechanical contact other than the contact points 1 and 2 with the surface 9 to be coated and has extremely low resistance to rotation is explained by the Magnus effect according to Bernoulli's theorem. Since it is a complete fluid bearing, the ball 5 rotates in the direction of the arrow on any surface 9 to be coated, and the coating liquid 3 flows out of the gap 10 between the opening 7 and the surface 9 to be coated. To form the coating layer 1 1

 At the end of the application, if the container 4 is lifted while being pressed with the fingers 1 and 2, it returns to the state shown in Fig. 1. The coating liquid 3 does not flow out, and the pressing force by the fingers 1 and 2 is stopped. Due to the elastic restoring force of the container 4, the ball 5, which is a valve mover, is sucked together with the coating liquid 3 ′ .The ball 5 comes into close contact with the valve sheet 13 at the back of the nozzle 6, and the valve closes. Prevent inflow of garbage. Next, if the cover 14 is covered, the condition shown in Fig. 3 is reached.The coating liquid remaining in the nozzle opening 7 due to the outside air is prevented from drying and can be stored until the next coating. . When the viscosity of the coating liquid is from 150 to 250 cps, the inner diameter of the nozzle is 0.9 mm when the ball diameter is 0.8 mm, and the nozzle diameter is 0.9 mm when the ball diameter is 2.4 mm. Good results were obtained with an inner diameter of 2.6 mm. An appropriate space 15 between the ball 5 and the opening 7 is 1 Z 4 of the ball diameter.

The container 4 is a linear-polyethylene injection-molded product, and the upper part 16 is fused and sealed by ultrasonic wave. The nozzle 6 is formed by drawing stainless steel pipe to form the fixing part 17 and the valve sheet 13, insert the stainless steel bolt 17, and lower the opening 7 and the valve sheet 8. Fig. 4 shows an example in which the roller 5a is used as a valve mover. > Shows when container 4a is pressed> Nozzle 6a is an injection-molded product of polyacetal resin, has fixing part 17a and valve sheet 13a, and inserts stainless steel roller 5a The container 4a, which forms the opening 7a and the metal sheet 8a by thermal processing, is an injection-molded product of polypropylene resin, and is sealed with a tail plug 18. The example is only in the direction of rotation of the mouthpiece 5a. A wide coating layer is obtained, and the operation and effect are the same as those in the embodiment of Figs. 1, 2 and 3.

 In Fig. 5, an annular valve sheet 13b and a screw 19 are provided at the lower part of the container 4b. A valve mover having a hemispherical surface 5b, a part 5c of a square grid and an exposed plate 5d is provided. In the embodiment used, the nozzle 6b has a rectangular opening 7b and a valve sheet 8b, and is fixed to the screw 19 at the bottom of the container 4b by the upper screw 20. As in the example shown in FIG. 4, this embodiment is also for obtaining a wide coating layer, and the unevenness under the exposed plate 5d is for uniforming the coating layer. It can be manufactured by injection molding. In the case of this embodiment. Unlike the baud / roller and the roller, the valve mover does not rotate, so that the Magnus effect does not occur, but since the valve mover floats freely at the time of application, there is no problem in application. Will not come.

 The present invention provides an application control mechanism that extrudes an application liquid without mechanically stopping the floating of the valve slider from the surface to be coated. Therefore, the coating by the exposed portion of the valve slider is performed. If there is no liquid removal and it is dry, a clean coating layer can be formed on all surfaces. Industrial applicability

 As described above, the applicator according to the present invention can be applied to all surfaces such as leaves, stones, bricks, and metals, and can also be used for outdoor paints, so that it can be used in a wide range of fields such as agriculture, fishing, and industry. is there .

 In addition, those using paints and paints as coating liquids can be mixed and multi-colored, and can be used as drawing materials.

Claims

The scope of the claims 1. An opposing bar / reb sheet is provided near and behind the opening of the nozzle, and the valve mover is positioned between them. Only when a part of the valve mover presses the container. An extrusion-type applicator characterized by being exposed through an opening. 2. The applicator according to item 1, wherein the ball is used as a valve mover.  3. The applicator according to item 1, wherein a roller is used for the valve mover.  4. A valve mover that has a spherical, conical surface, polygonal pyramidal surface, spheroidal surface, etc. that has a portion that can be in close contact with the valve sheet and that has a portion that is exposed from the nozzle opening The applicator described in paragraph 1,