DE3712218A1 - LIQUID APPLICATOR WITH AN IMPROVED FEEDING DEVICE FOR THE LIQUID - Google Patents

Abstract

A liquid applicator has a valve unit between an application-liquid reservoir portion 8 and a liquid-application member 1, said valve unit being opened and closed by movement of a valve stem 5 biased by a valve spring 6, wherein said valve spring comprises a pair of spring components having different spring constants; the valve-opening area defined between a valve seat 4 and the valve stem produced when the valve stem is moved to a transition point at which the one of said spring components having the smaller spring constant is substantially fully compressed and before the other of said spring components having the larger spring constant substantially begins to be compressed, being smaller than the valve-opening area defined between the valve seat and the valve stem produced when the other of said spring components having the larger spring constant is being compressed. With such applicator, the feed rate of application liquid to the application member can be easily controlled. <IMAGE>

Description

The invention relates to a liquid applicator, such as a writing instrument in which liquid Ink is used and where it is for example around a marker pen or a Mar kierstift or the like., or a cosmetic Device in which a cosmetic liquid, such as for example, a nail polish and the like for use arrives in which a valve unit between the reser voir area for the liquid to be applied and a part for the application of the liquid, which on front end is provided and which it is for example around a spring core, a brush or Brush tip or the like. Is arranged.

So far, such liquid applicators an opening / closing operation of the valve unit of the Liquid applicator by a suitable manual Surgery, such as a push or push operation performed. With a conventional liquid This type of applicator is used when the valve unit is open, an opening area of the valve unit continuously during the entire stroke the pressure operation of the liquid applicator kept open. This leads to a persistent flow of one Displacement air of a liquid to be applied through the opening area of the valve unit  to step. In the case where an applied amount of liquid to be applied is increased so that it a supply amount of the to be applied is required Liquid that is used in part to apply the Liquid at the front end of the liquid applicator tors is to be fed, it is therefore required the valve unit during an out extended period of time by continuing the pushing opera tion of the liquid applicator to open. In which it is therefore conventional liquid applicator difficult to supply the amount of liquid to be applied to control so that an optimal value is obtained becomes.

The object of the present invention is therefore in creating a new liquid applicator which enables the user to create a Amount of liquid to be applied, which too a part for application to the front end of the liquid applicator from a reservoir area for the liquid to be applied is supplied in a easy to control so that an optimal value the amount of liquid to be applied easily can be obtained.

The invention relates to a liquid applicator, in which a liquid to be applied is forced or effective via a valve unit between one Reservoir area for the liquid to be applied and a part arranged for applying the liquid is supplied to the part for applying the liquid is, the valve unit by the movement of a valve tappet pressed by a valve spring net and is closed. This liquid applique gate is improved in that the valve spring a pair of spring components is constructed that  have different spring constants, and that a valve opening area between a valve seat and the valve lifter determined and at a time is produced when the valve lifter turns into a Moving point moves at one of the spring components ten, which has the smaller spring constant, their Compression stroke, which together with a movement of the Valve tappet is running while the other component of the spring components, the one has a larger spring constant, initially together is pressed, is smaller than an enlarged valve opening area between the valve seat and the Valve lifters determined and manufactured at a time will when the other component of the spring components, which has the larger spring constant, excl siv or squeezed alone.

As a device to enlarge the valve opening area between the valve seat and the valve plunger on a compression stroke where the spring component that has the larger spring constant, is squeezed exclusively or alone, after the transition point has passed is a Slot in a predetermined area of the valve tappet provided, the predetermined range passes through the valve seat when the spring com component that has the larger spring constant, starts after the transition point has passed, to be squeezed alone

The slot can be replaced by a hole or a groove will.

In the place of the above facility, at it is for example the slot, the hole or the groove acts, it is possible to use the predetermined  The area of the valve lifter is tapered or conical shape so that it takes a converging shape.

A coil spring is preferably used as the valve spring intended.

The invention and its configuration are described below mentions in connection with the figures tert. It shows:

Fig. 1 shows part of a longitudinal section through a front region of the Markierfeder according to the embodiment of the present invention in a state in which the valve stem of the valve assembly is seated on the valve seat;

Fig. 2 is an illustration similar to Fig. 1 in a state in which the valve lifter is moved to a transition point in which the spring component having the smaller spring force ends its compression stroke while the spring component having the larger spring constant begins to be squeezed;

. Fig. 3 is a representation similar to Figure 1 in a state in which the valve stem is moved to its innermost position; and

Fig. 4 shows a longitudinal section through the entire marking pen in its rest state.

Below is a marker pen or marker according to an embodiment of the present invention explained. However, the invention is not natural limited to this embodiment only.

In the figures, reference numeral 1 designates a nib core. With 2 a stem or shaft sleeve is called. Reference numeral 3 denotes a holder or a carrier for a valve spring. 4 with a valve seat is designated. 5 denotes a valve tappet, while 6 denotes a valve spring or a coil spring. The stem sleeve 2 also serves as a reservoir area for the liquid to be applied or as a liquid container 8 . Both a valve unit and a front shaft 7 are mounted in a front end of the stem sleeve 2 . The valve unit consists of the valve seat 4 , the valve tappet 5 , the coil spring 6 and the carrier 3 for the valve spring.

The nib 1 , which can slide in the axial direction in the front shaft 7, rests against a front end of the valve lifter 5 . If a user presses against the spring core 1 during a pushing operation, the spring moves the valve tappet 5 in the axial direction to open the valve unit.

The valve lifter 5 is movably arranged in a position between the valve seat 4 and the carrier 3 for the valve spring. It is constantly pressed against the valve seat 4 by the Schraubenfe 6 , the coil spring 6 is in a position between the carrier 3 for the valve spring and the valve lifter 5 is angeord net. The coil spring 3 surrounds the valve lifter 5 .

A rear end portion of the valve lifter 5 is slidably inserted into a bore provided in the bracket 3 for the valve spring. A front end region of the valve lifter 5 , which is arranged in a position in front of a conical or tapering region 10 of the valve lifter 5 , is shaped into a tubular region 16 . The valve tappet 5 is seated on the valve seat 4 at the aforementioned tapered region 10 . The tubular region 16 of the valve plunger 5 has a diameter which is slightly smaller than the opening diameter of the valve seat 4 , so that the tubular region 16 extends forward through the valve seat 4 and with its front end at a rear end of the nib core 1 is present.

Provided in the tubular portion 16 of the valve lifter 5 are diametrically opposed a pair of slots 11 which extend axially rearward from the front end of the tubular portion 16 such that the rear ends of the slots 11 are able to be in positions are arranged, which correspond to a position of the valve seat 4 at a time when the valve lifter 5 reaches a transition point of a compression stroke of the helical spring 6 . The transition point will be described in more detail later.

The coil spring 6 is constructed in one piece from a pair of spring components, ie a region 12 which has a larger diameter and a smaller spring constant, and a region 13 which has a smaller diameter and a larger spring constant. When an external compressive force is applied to the coil spring 6 , mainly the portion 12 with the larger diameter of the coil spring 6 is compressed first and, after the compression of the portion 12 with the larger diameter of the coil spring 6 has ended, the portion 13 with the smaller one catches Diameter of the screw benfeder 6 to be compressed if one assumes that an additional external compression force is exerted on the coil spring 6 . In such a compression operation of the coil spring 6 , namely, the area 12 with the larger diameter and the area 13 with the smaller diameter differ from one another with regard to the load to which they are exposed. The user can feel this strain on or in his hand during use.

As shown in Fig. 2, the above rear ends of the slots 11 of the tubular portion 16 of the valve lifter 5 are arranged in positions corresponding to a position of the valve seat 4 at a time when the valve lifter 5 is pressed, so that it reaches the transition point of the compression stroke of the coil spring 6 . At this transition point, the compression of the area 12 with the larger diameter of the coil spring 6 is ended, while the area 13 with the smaller diameter of the coil spring 6 begins to be compressed.

The slots 11 may be the same in length. In addition, they can taper axially so that they assume forward converging shapes. It is also possible to provide suitable holes in the tubular region 16 of the valve lifter 5 at the location of the slots 11 .

The coil spring 6 can be constructed integrally or in one piece or consist of a pair of separate coil springs which have different diameters and are connected to one another. In addition, the coil spring 6 can also be produced by connecting a pair of separate coil springs, which differ from one another in terms of their filament or wire diameter, while they have the same coil diameter.

In addition, the valve spring 6 can also be constructed from any other element that has different spring constants.

The above embodiment of the marker pen according to the present invention is constructed so that the valve lifter 5 is slidably moved by the nib 1 which is provided in the front end portion of the marker pen. However, it is also possible to slide the valve tappet 5 using a suitable pressing member, provided that this pressing member is provided in a rear end region of the stem sleeve 2 of the marking pen. Such a pressing member can also be replaced by any other suitable device that can slide the valve plunger 5 in the marker pen.

In the figures, reference numeral 14 denotes a foam-like or sponge-like element which absorbs an excess liquid or ink to be applied, which has passed through the valve unit of the marking pen.

The operation or function of the marking pen according to the invention will now be explained in connection with FIGS. 1 to 3.

In a state in which core 1 is not pressed against the nib, the valve tappet 5 sits with its tapering region 10 hermetically sealing against the valve seat 4 in order to close the valve unit in the manner shown in FIG. 1. In the case where the nib 1 is pressed to open the valve unit so that displacement air and the ink supplied to the nib 1 pass through the valve unit, the valve or coil spring 6 is first in its Area 12 with the larger diameter, which has the smaller spring constant, is compressed. Fig. 2 shows a state in which the compression of the area 12 is completed with the larger diameter, which has the smaller spring constant, while the area 13, just begins with the smaller diameter having the greater spring constant, to the transition point the compression stroke of the coil spring 6 to be compressed. In the state shown in FIG. 2, the valve lifter 5 reaches a position that corresponds to the transition point. This position is also referred to below as the transition point.

If the spring core 1 is further subjected to an additional pressing operation in the state shown in FIG. 2, as shown in FIG. 3, the flow amounts of the displacement air and the ink supplied to the nib 1 increase Amounts that correspond to a total cross-sectional area of the opening areas of the slots 11 and an inner bore area of the tubular area 16 of the valve tappet 5 because the areas of the rear end edges of the slots 11 of the valve tappet 5 enter the liquid container 8. This enlargement occurs in addition to the flow rates that were generated before the valve lifter 5 reached the above point. In order to increase the flow rate of the ink to be fed to the nib 1 , it is necessary to use the area 13 with the smaller diameter, which has the larger innerspring constant of the coil spring 6 , using an additional strain or compressive force that is greater than the compressive force , which is required to compress the area 12 with the larger diameter of the coil spring 6 . Because the pushing operation changes stepwise with respect to the effort at the transition point, the user can feel the transition point of the compression stroke of the screw spring of FIG. 6 on his hand. This enables him to control the pressing operation of the nib 1 of the marker pen in use in a proper manner to obtain an optimal supply amount of the liquid or ink to be applied.

According to the present invention, it is possible for a user to feel the transition point of the compression stroke of the valve spring, that is, the coil spring 6, on his hand so that he can easily control the pressing force or effort applied when pressing against the nib core 1 of the marker pen to control the To optimize the flow rate of the liquid or ink to be applied, which is supplied from the liquid container 8 via the valve unit to the nib 1 . This is an effect that the marker pen has according to the embodiment of the present invention.

The invention relates to a liquid applicator in which a liquid to be applied is effectively supplied to a part 1 for applying the liquid via a valve unit which is opened or closed by the movement of a valve tappet 5 which is acted upon by a valve spring 6 . In the liquid applicator, the valve spring 6 consists of a pair of spring components which differ from one another with regard to their spring constants. A valve opening area, which is determined between a valve seat 4 and the valve tappet 5 and is produced at a time when the valve tappet 5 moves to a transition point, is smaller than an enlarged valve opening opening, which determines and closes between the valve seat 4 and the valve tappet 5 is generated at a time when the other of the spring components, which has the larger spring constant, is compressed alone. In the transition point one of the spring components, which has the smaller spring constant, ends its compression stroke, which is carried out together with the movement of the valve tappet 5 , while the other spring component, which has the larger spring constant, begins to be compressed.

Claims (6)

1. Liquid applicator for effectively supplying a liquid to be applied to a part ( 1 ) for applying the liquid via a valve unit which is arranged between a reservoir region ( 8 ) for the liquid to be applied and the part ( 1 ) for applying the liquid, wherein the Ventilein unit is opened and closed by the movement of a valve tappet ( 5 ) pressed by a valve spring ( 6 ), characterized in that the valve spring ( 6 ) consists of a pair of spring components having different spring constants, and that a between a valve seat ( 4 ) and the valve lifter ( 5 ) determined and at a time when the valve lifter ( 5 ) moves to a transition point in which one of the spring components, which has the smaller spring constant, ends its compression stroke, which together with one movement of the valve lifter ( 5 ) while the other of the spring components, which has a larger spring force onstante, begins to be compressed, generated valve opening area is smaller than an enlarged valve opening area, which is determined between the valve seat ( 4 ) and the valve lifter and is manufactured at a time when the other of the spring components, which has the larger spring constant, exclusively together is pressed. 2. Applicator according to claim 1, characterized in that a slot ( 11 ) is provided in a predetermined area ( 16 ) of the valve lifter ( 5 ), that the predetermined area ( 16 ) passes through the valve seat ( 4 ) at a time, when the spring component with the larger spring constant begins to be compressed exclusively after passing through the transition point. 3. Applicator according to claim 1, characterized in that a hole is provided in the predetermined area ( 16 ) of the valve lifter ( 5 ), and that the predetermined area ( 16 ) passes through the valve seat ( 5 ) at a time when the Spring component with the larger spring constant begins to be compressed exclusively after passing through the transition point. 4. Applicator according to claim 1, characterized in that a groove is provided in a predetermined area ( 16 ) on the outer peripheral surface of the valve lifter ( 5 ), and that the predetermined area ( 16 ) through the valve seat ( 4 ) at a time passes through, to which the spring component with the larger spring constant begins to be compressed exclusively after passing through the transition point. 5. Applicator according to claim 1, characterized in that a predetermined area ( 16 ) of the valve lifter ( 5 ) is tapered so that it assumes a forward converging shape, and that the predetermined area ( 16 ) through the valve seat ( 4 ) passes at a time when the spring component with the larger spring constant starts to be exclusively compressed after passing through the transition point. 6. Applicator according to one of claims 1 to 5, characterized in that a coil spring ( 6 ) is provided as a valve spring.