KR100856698B1 - Direction jet-type dispenser that use air pressure and make-up tool that use this - Google Patents

Abstract

A direct jet-type dispenser using an air pressure and a make-up tool using the same are provided to quickly and precisely feed a fixed amount of content and to prevent leakage of the content. A dispenser includes: a storage container(10) for storing contents; a valve device(20) detachably coupled to a lower portion of the storage container to prevent leakage of the contents, and provided with a cutout portion(21) opened only by an external force; a discharge device(30) detachably coupled to a lower portion of the valve device to stably induce and discharge the contents jet through the valve device; and a jet device(40) for forcibly opening the cutout portion of the valve device by a compressed air pressure generated in a compressed air transfer tube(43) due to a pressing operation of a button(46) elastically installed on the storage container, and directly jetting and supplying the contents to the discharge device through the opened cutout portion.

Description

DIRECTION JET-TYPE DISPENSER THAT USE AIR PRESSURE AND MAKE-UP TOOL THAT USE THIS}

1 to 8 are diagrams showing the structure of the distributor of the first embodiment according to the present invention,

  1 is an assembled cross-sectional view showing the structure of a distributor according to the first embodiment,

  2 is a plan view showing a cut state of the valve mechanism;

  3 is a cross-sectional view in the line A-A of FIG.

  4 is a cross-sectional view of the assembled state of use state in which the button is pressed to inject the contents of the storage container into the discharge mechanism by using the dispenser of the first embodiment;

  5 is an assembly cross-sectional view showing a first modification of the injection mechanism in the injection mechanism of the first embodiment,

  6 is an assembled cross-sectional view showing a state of injection of the contents by the injection mechanism of FIG.

  7 is an assembled sectional view showing a second modified example of the injection mechanism in the injection mechanism of the first embodiment,

  FIG. 8 is an assembled sectional view showing an injection state of the contents by the injection mechanism of FIG. 7.

9 to 17 are diagrams showing the structure of a distributor of a second embodiment according to the present invention,

  9 is an assembled sectional view showing the structure of a distributor according to the second embodiment,

  10 is an exploded perspective view showing another embodiment of the valve mechanism;

  11A and 11B are an exploded perspective view and an assembled sectional view showing another embodiment of the valve mechanism;

  12 is an excerpt sectional view showing an example of the installation structure of the piston,

  13A and 13B are assembled cross-sectional views of a state in which a button is pressed to eject the contents of a storage container to a discharge mechanism by using a distributor according to a second embodiment, and a flat cross section in line B-B,

  14 is an assembled sectional view showing a first modification of the injection mechanism in the injection mechanism of the second embodiment,

  FIG. 15 is an assembled sectional view showing an injection state of the contents by the injection mechanism of FIG. 14;

  16 is an assembled sectional view showing a second modified example of the injection mechanism in the injection mechanism of the second embodiment;

  FIG. 17 is an assembled cross-sectional view showing an injection state of the contents by the injection mechanism of FIG. 16. FIG.

18 to 23 are assembled cross-sectional views showing an example of the toiletries employing the dispenser according to the present invention.

<Description of the symbols for the main parts of the drawings>

1,2: Dispenser 3-8: Cosmetic Tool

9: coating member 10: storage container

11: bottom 12: distribution hole

13: inner circumference 20: valve mechanism

21: cutout 23: elastic support plate

23a: elastic support 24: support ring

24a: through hole 30: discharge mechanism

31: holder 32: discharge port

40, 140, 240, 340, 440, 540: injection mechanism 41: support cap

42,142,442: seal 43,143,243,443,543: compressed air delivery pipe

44,144,244,444,544: Content inlet 45: Elastic body

46: button 47: piston rod

47a: open end 48: piston

The present invention provides a rapid injection and supply of the contents of various properties such as powder, liquid type, various cosmetics, and various fluid substances stored in the storage container directly to the discharge mechanism by the compressed air pressure generated by the operation of the injection mechanism. It relates to a direct injection dispenser and a cosmetic device using the same.

In general, dispensers for dispensing the contents of powders or liquids are already known. However, the conventionally known dispenser has not been able to perform the spray supply quickly and smoothly according to the type of the contents because the contents are indirectly distributed by the compressed air pressure. In addition, since the pressure of the compressed air is indirectly sprayed by indirectly transmitted to the contents and injected, there is a limitation in the assembly structure that the injection structure must be complicated. The complexity of the injection structure can not only act as a factor to increase the manufacturing cost of the product, but also causes a problem of significantly lowering workability and productivity. In addition, since the conventionally known distributor is a structure that is limited to a specific content in structure, it is impossible to receive and distribute the contents of various properties using a single distributor. For example, it is difficult to disperse a liquid containing liquid contents in a distribution structure for distributing powder. Therefore, according to the structure of the conventional distributor, it is very inefficient and uneconomical because it is inevitable to have each distributor according to the kind of contents.

As a conventional distributor having such a configuration, Korean Patent Publication No. 2002-79214, Korean Utility Model Registration No. 315277, and Korean Utility Model Registration No. 274588 may be exemplified.

Moreover, in the conventionally known dispenser, especially in the case of the distribution structure which discharges a liquid content from a container and uses it, since the content is pumped in the direction of the pressure pump provided in one side of the container from a container, it employs. Again, the pumping structure of the contents is very complicated, and a structure such as a piston structure or a drawing hose for pushing up or compressing the contents is required. Therefore, the pumping structure described above also has a limitation in that it does not overcome various structural problems such as the distribution structure of the contents becomes very complicated as described above.

Accordingly, the present invention has been invented to solve the above conventional problems, the first object of the present invention is to open the cutout of the valve mechanism by the compressed air pressure generated by the injection mechanism, the cutout portion The present invention provides a direct injection dispenser and a cosmetic appliance using the same, in which the contents of the storage container are injected and supplied to a direct discharge mechanism by compressed air pressure through an open space.

In addition, the second object of the present invention is to open the cutout of the valve mechanism by the open end of the piston rod of the injection mechanism, and the contents of the storage container through the injection space of the cutout formed in the opening process of the cutout. The present invention provides a direct injection dispenser and a cosmetic appliance using the same, by which the compressed air pressure is directly supplied to the discharge mechanism.

Direct injection dispenser according to the first embodiment of the present invention for achieving this object, the storage container is the contents are stored; A valve mechanism having a cutout portion detachably coupled to and supported by a lower portion of the storage container to cut off any leakage of contents and open only by external force; A discharge mechanism that is guided to discharge the contents injected through the valve mechanism safely and detachably coupled to the lower portion of the valve mechanism; And by forcibly opening the cutout of the valve mechanism by the compressed air pressure generated inside the compressed air delivery pipe by pressing a button elastically installed on the upper portion of the storage container, and simultaneously into the inside of the compressed air delivery pipe. An injection mechanism for controlling the injected contents to be directly supplied to the discharge mechanism through an open cutout of the valve mechanism; It is composed of points including.

Direct injection dispenser according to a second embodiment to achieve the object of the present invention, the storage container in which the contents are stored; A valve mechanism having a cutout portion detachably coupled to and supported by a lower portion of the storage container to cut off any leakage of contents and open only by external force; A discharge mechanism that is guided to discharge the contents sprayed through the valve mechanism safely and detachably coupled to a lower portion of the valve mechanism; And a pressurized operation of a button elastically installed on the upper portion of the storage container to generate compressed air pressure inside the compressed air delivery pipe, and at the same time, an open end of the piston rod operated in connection with the button forcibly cuts off the valve mechanism. An injection mechanism for directly injecting and supplying contents introduced into the compressed air transfer pipe to a discharge mechanism through an injection space formed at a periphery thereof during the opening of the furnace; It is composed of points including.

The cosmetic device for achieving the above object of the present invention is in that the first embodiment is configured to include a dispensing member and a coating member provided as a discharge mechanism of the dispenser.

Another cosmetic device for achieving the object of the present invention is in the configuration including the dispenser of the second embodiment and the coating member provided in the dispenser.

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

1 to 7 are diagrams showing the structure of the distributor 1 of the first embodiment according to the present invention. This embodiment has a structure in which the cutout portion of the valve mechanism is forcibly opened by the air compression force of the piston and the contents of the storage container are directly injected and supplied to the discharge mechanism. This will be described in more detail below.

1 to 4, the structure of the distributor 1 according to the first embodiment of the present invention will be described. First, referring to FIG. 1 and FIG. 2, the distributor includes: a storage container 10 in which contents are stored; A valve mechanism (20) having a cutout portion (21) detachably coupled to and supported by a lower portion of the storage container to block an arbitrary leakage of the contents and to be opened and operated only by an external force; A discharge mechanism 30 which is guided to discharge the contents injected through the valve mechanism safely and detachably coupled to the lower portion of the valve mechanism; The cutout portion 21 of the valve mechanism 20 is forcibly opened by the compressed air pressure generated inside the compressed air delivery pipe 43 by pressing a button 46 that is elastically installed on the upper portion of the storage container. And an injection mechanism 40 for controlling the injection of the contents introduced into the compressed air delivery pipe 43 into the discharge mechanism 30 through the open cutout portion 21 of the valve mechanism. It is composed.

The storage container 10 has a cylindrical shape opened in one direction, and the bottom portion 11 in which the distribution hole 12 penetrates the axial center is formed in the other direction. The inner circumferential surface 13 of the bottom portion 11 is formed to be inclined downward toward the distribution hole 12 to guide the contents stored in the storage container to be well collected in the direction of the distribution hole 12.

The storage container 10 may be sprayed to accommodate the contents of various properties (性狀). For example, a cosmetic powder (face poeder), powder or powder for other uses, cosmetic lotion, various cosmetics of liquid type, or various fluid substances according to the use of the dispenser Can be accommodated.

The valve mechanism 20 is made of a material having excellent elasticity in consideration of the function that the cutout portion 21 must be forcibly opened only when an external force such as air compression force is applied by its elasticity. The material of the valve mechanism 20 is preferably silicone rubber or natural or synthetic rubber.

In addition, the valve mechanism 20 is preferably configured in a single membrane form as shown in FIG. 1, but may be composed of a plurality of membranes in design. Configuring the valve mechanism 20 with a plurality of membranes may provide a higher barrier to the contents of the reservoir 10 than a single membrane.

On the other hand, the cutout portion 21 of the valve mechanism 20 can be cut in various forms, such as a date, cross, based on each cutout center as shown in (a) to (f) of FIG. have. At this time, the circumferential cut length (L) or the shape of the cutout portion 21 need not be particularly limited, and has a stable opening force by the air compression force of the injection mechanism 40 and a stable blocking force on the contents of the storage container 10. It is preferable to form in consideration of fats and oils comprehensively. According to the structure of the dispenser 1 of the first embodiment, the cutout shape of the cutout portion 21 may be most preferably cut into a cross shape (see FIG. 2C). And, the cut length is cut to the same size as the diameter of the distribution hole 12 formed by the bottom portion 11 of the storage container 10, it is configured to facilitate the injection supply of the contents through the distribution hole (13). This is preferred.

The discharge mechanism 30 is a holder 31 which is detachably coupled to be supported to simultaneously support the valve mechanism 20 in close contact with the lower portion of the storage container 10, and safely discharges the contents injected through the valve mechanism to the outside. And a discharge port 32 for guiding the discharge. The discharge port 32 is preferably provided separately from the holder 31 according to the use of the dispenser, but may be provided integrally (specific examples are not shown in the drawings).

The injection mechanism 40 includes a sealing portion 42 detachably seated and supported by the support cap 41 with respect to the open end of the storage container 10, and further includes an inner circumferential surface 13 of the bottom portion 11 of the storage container. Compressed air delivery pipe 43 is formed by partitioning a plurality of contents inlet 44 into a portion adjacent to (); A button 46 elastically supported by an elastic body 45 to be pressed on an upper portion of the compressed air delivery pipe; A piston rod 47 having one end connected and assembled to the button and the other end inserted into the compressed air delivery pipe 43 so as to be linked with the button; It is provided at the other end of the piston rod 47 which is operated in conjunction with the button generates a compressed air pressure for forcibly opening the cutout portion 21 of the valve mechanism 20 each time the button 46 is pressed. At the same time it consists of a piston 48 for directly supplying and supplying the contents of the storage container 10 sucked into the compressed air transfer pipe 43 through the open cutout 21 to the discharge mechanism 30 Lose.

In the injection mechanism 40 described above, the piston 48 provided on the piston rod 47 generates a strong compressed air pressure every time the button 46 is pressed, and the cutout portion 21 of the valve mechanism 20. In consideration of the stroke distance to provide a stable opening force for the) may be installed in a suitable position, it is preferable to be provided in the upper side adjacent to the contents intake port 44 formed by the compressed air transfer pipe 43 (Fig. 1).

Since the contents suction port 44 formed by the compressed air delivery pipe 43 is radially divided as shown in FIG. 3, the suction operation of the contents from the storage container 10 is quick and easy when the air is compressed by the piston 48. Can be done.

In the injection mechanism 40, the compressed air delivery pipe 43 extends integrally with the seal 42 to provide a good disassembly and assembly property during the filling operation of the contents for the storage container 10. Will be.

The elastic body 45 which supports the button 46 of the injection mechanism 40 so as to be elastically manipulated is not limited to a specific structure or shape, but a spring shape is preferable, for example, a compression spring, a conical spring, a bow. Spherical springs and the like can be used, and most preferred among them are elastic bodies in the form of compression springs. Such an elastic body 45 is stably interposed between the sealing part 42 and the lower end of the button 46.

According to the distributor 1 of the first embodiment, the support cap 41 for the storage container 10 and the holder 31 of the discharge mechanism 30 are preferably configured to be disassembled and assembled by a screw coupling method. In addition, various designs such as undercut structures will be possible. Sealing portion 41 of the injection mechanism 40 is preferably assembled by sealing the gap between the open end of the storage container 10 with the packing 50.

An operating state of the distributor 1 according to the first embodiment configured as described above will be described with reference to FIG. 4.

In the state of FIG. 1, when the button 46 of the injection mechanism 40 is pressed to inject the contents of the storage container 10, the piston rod 47 which is linked and operated at the same time is a predetermined distance. Will descend. As the piston rod 47 moves downward, the piston 48 strongly compresses the air present in the compressed air delivery pipe 43 while closely moving along the inner wall surface of the compressed air delivery pipe 43. At the same time, the cutout portion 21 of the valve mechanism 20 provided at the bottom thereof is forcibly opened by the air compression force of the piston 48 (see the enlarged view of FIG. 4), as well as the storage container 10. The contents stored in the) are further sucked into the compressed air delivery pipe 43 through the contents inlet 44. At this time, the contents sucked into the compressed air delivery pipe 43 are partially distributed back into the storage container 10 while the piston 48 passes the contents inlet 44, and some of the distribution holes ( 12, and only the amount present in the distribution hole 12 is disposed downwardly through the open cutout 21 of the valve mechanism 20 by the compressed air pressure of the piston 48. It is directly supplied to the discharge mechanism 30 by injection.

When the injection of the contents by the air compression force of the piston 48, the contents sucked into the inside of the compressed air delivery pipe 43 through the contents inlet 44 is inclined downward toward the distribution hole 12 (13) The suction operation to the distribution hole 12 is always performed smoothly without being accumulated in the bottom portion 11 by).

As described above, when the contents of the storage container 10 are supplied to the discharge mechanism 30 through the cutout portion 21 of the valve mechanism 20 by the compressed air pressure of the piston 48, the button 46 By releasing the pressing force with respect to), the button 46, the piston rod 47, and the piston 48 of the injection mechanism 40 are simultaneously raised and returned to the same state as shown in FIG. 1 by the reaction force of the elastic body 46. Lose. In addition, the cutout portion 21 of the valve mechanism 20 in the open state by the return operation is also closed as shown in FIG. 1 by its elastic force as the compression force of the air pressure by the piston 48 is released. Block the contents of (10).

On the other hand, during the return operation of the piston 48, the depressurization state in the storage container 10 is released due to a momentary inflow of external air into the storage container 10, and the contents of the storage container are stored by the return pressure of the piston. As the contents are dispersed through the inlets 44, precipitation or agglomeration may be prevented. In addition, since some of the contents flowing back along the compressed air delivery pipe 43 are blocked by the piston 48, outflow to the outside is prevented.

Therefore, according to the distributor 1 of the first embodiment described above, the cutout portion 210 of the valve mechanism 20 is caused by the air compression force of the piston 48 whenever the button 46 of the dividing mechanism 40 is pressed. Is forcibly opened and closed, and at the same time, only the quantity of the contents introduced into the distribution hole 12 of the storage container 10 can be directly injected and supplied to the discharge mechanism 30.

When the contents of the storage container 10 are to be filled, one of the storage containers 10 is opened by removing the support cap 41 from the storage container 10 and dismantling the injection mechanism 40. As a result, the filling operation of the contents becomes possible.

5 and 6 are assembly cross-sectional views of the injection mechanism 140 showing the first modification of the injector 40 in the distributor according to the first embodiment of the present invention. In this modification, the same components as those of the injection mechanism 40 of the first embodiment will be denoted by the same reference numerals, and similar components will be described with the same reference numerals.

Referring to FIG. 5, the injection mechanism 140 of the first modification includes a sealing part 142 detachably seated and supported by a support cap 41 with respect to the open end of the storage container 10, and compression. Separately formed air transfer pipe 143, but the compressed air transfer pipe 143 is formed integrally extending to the upper portion of the distribution hole 12 formed by the bottom portion 11 of the storage container by a predetermined height, and the bottom portion ( A plurality of contents suction ports 144 are divided into portions adjacent to the inner circumferential surface 13 of 11).

And the piston rod 47 penetrated and supported by the said sealing part 142 is comprised so that it may be guided up and down safely by the tubular packing body 51 interposed therebetween. In the case of the above embodiment, since the compressed air delivery pipe 143 is formed separately from the sealing part 142, it provides a structural advantage that can enlarge the internal volume of the storage container 10.

Next, the operation of the injection mechanism 140 of the first modification will be described briefly. In the case of the modification, the button 46 of the injection mechanism 140 is similar to the injection mechanism 40 of the first embodiment. By operating, the piston rod 47 is lifted and operated, and the piston mechanism for generating compressed air to the compressed air feed pipe 143 is simultaneously lifted and operated by the lifting and lowering operation of the piston rod. 6 is a section in which the cutout portion 21 of the storage container 10 which is forcibly opened as shown in FIG. 6 and is sucked into the compressed air delivery pipe 143 through the contents inlet 144 is in the open state. It is possible to quickly spray supply to the discharge mechanism 30 through the coupling portion 21, and only the contents introduced into the distribution hole 12 of the storage container 10 are discharged by the compressed air pressure of the piston 48. Since it is injected into the mechanism 30, This will be made possible.

On the other hand, in the case of the first modification, since the compressed air delivery pipe 143 is formed separately from the sealing part 142, the retraction pressure generated to the rear of the compressed air delivery pipe 143 during the ascending operation of the piston 48. By doing so that the contents of the storage container 10 are evenly mixed, precipitation of the contents can be prevented more effectively.

7 and 8 are assembled cross-sectional views showing the injection mechanism 240 of the second modified example of the injection mechanism 40 of the first embodiment according to the present invention. More specifically, the injection mechanism 140 of the first modified example. Another variant for. The same constitution as in the first modification is given the same reference numeral.

Referring to FIG. 7, the injection mechanism 240 of the second modification may separately separate the distribution hole 12 in which the compressed air delivery pipe 243 is formed at the bottom 11 of the storage container 10. It is constructed and assembled to be detachable from the lower portion of the bottom portion 11, and is substantially the same except that the contents suction port 244 is formed in a portion adjacent to the inner peripheral surface 13 of the bottom portion (11). .

As described above, the compressed air delivery pipe 243 may be separated from the distribution hole 12 formed as the bottom portion 11 of the storage container 10 so as to be separated, thereby separating the compressed air delivery pipe 243 as necessary. It is possible to replace it to provide maintenance and good assembly.

Next, referring to FIG. 8, the operation of the injection mechanism 240 of the second modified example will be described. Similarly to the injection mechanism 140 of the first modified example, the storage container 10 is operated by pressing the button 46. ) Is directly discharged through the cutout portion 21 of the valve mechanism 20 which is forcibly opened and operated by the air compression force of the piston 48 which is lifted and operated along the compressed air delivery pipe 243. The same effect is applied to the injection.

9 to 17 show the structure of the distributor 2 of the second embodiment according to the invention. Compared with the distributor 1 of the first embodiment, the distributor 2 of the second embodiment further has an open end in the piston rod, and an injection space is provided around the cutout of the valve mechanism by the open end. The contents of the storage container are injected and supplied directly to the discharge mechanism by the air compression force of the piston through the space, which will be described in more detail below. In describing the second embodiment, the same members as those of the distributor 1 of the first embodiment will be described with the same reference numerals.

First, referring to FIG. 9, the distributor 2 of the second embodiment includes a storage container 10 in which contents are stored; A valve mechanism (20) having a cutout portion (21) which is detachably coupled to and supported by a lower portion of the storage container to block an arbitrary leakage of contents and is opened and operated only by an external force; A discharge mechanism 30 which is guided to discharge the contents injected through the valve mechanism safely and detachably coupled to the lower portion of the valve mechanism; An open end of the piston rod 47 which is operated in conjunction with the button while generating compressed air pressure inside the compressed air delivery pipe 43 by pressing a button 46 elastically installed on the upper portion of the storage container. 47a discharges the contents introduced into the compressed air delivery pipe 43 through an injection space 21a formed around the cutout portion 21 of the valve mechanism 20 forcibly opening the cutout portion 21 of the valve mechanism 20. It is in that it comprises the injection mechanism 40 to be injected and supplied directly to the mechanism (30).

Here, since the configuration of the storage container 10, the valve mechanism 20, the discharge mechanism 30 is substantially the same as the corresponding components of the first embodiment, the detailed configuration thereof will be replaced with those described in the configuration of the first embodiment. Only different configurations will be described.

Unlike the distributor 1 of the first embodiment, in the distributor 2 of the second embodiment, the cutout portion 21 of the valve mechanism 20 is forced by the open end 47a of the piston rod 47. Because of its open operation, its various designs will be possible.

For example, as shown in FIG. 10, an elastic support plate 23 having a separate elastic support piece 23a formed therein may be further provided under the valve mechanism 20. Due to the support of the elastic support plate 23, the cutout portion 21 of the valve mechanism 20 is further reinforced with a supporting force, thereby preventing the cutout portion 21 from sagging downward regardless of the difference in specific gravity of contents. Of course, the quick and accurate opening and closing operation according to the lifting operation of the open end portion 47a of the piston rod 47 can be made more smoothly and quickly.

11A and 11B, the valve mechanism 20 may be composed of a plurality of membranes at regular intervals, and in this case, through-holes having the same size as the cutouts 21 between the valve mechanisms 20. It may be configured to be supported by the separate support rings 24 formed (24a). By constructing the valve mechanism 20 using a plurality of membranes using the support rings 24, it is possible to more effectively perform the airtightness increase and the inflow of the outside air according to the contents injection supply.

The injection mechanism 340 applied to the distributor 2 of the second embodiment includes a sealing portion 42 detachably seated and supported by the support cap 41 with respect to the open end of the storage container 10, and A compressed air delivery pipe 43 in which a plurality of contents inlets 44 are divided into portions adjacent to the bottom 11 of the storage container; A button 46 elastically supported by an elastic body 45 to be pressed on an upper portion of the compressed air delivery pipe; One end is connected and assembled to the button and the other end is inserted and supported inside the compressed air delivery pipe 43 while being connected to the button, and at the same time, the injection space 21a with respect to the cutout portion 21 of the valve mechanism 20. A piston rod (47) having an open end (47a) forcibly opening to be provided; Whenever the button is pressed, the contents of the storage container 10 sucked into the compressed air delivery pipe 43 through the contents suction port 44 are discharged through the injection space 21a of the cutout 21. It consists of the piston 48 for generating the compressed air pressure for the rapid and direct injection and supply to the 30.

According to the injection mechanism 340 according to the second embodiment, the piston 48 is conveyed by the piston rod 47 along the inner wall surface of the compressed air delivery pipe 43 while the compressed air delivery pipe 43 Although it is possible to generate the compressed air pressure in the interior of the, if necessary, as shown in FIG. 12 is provided in the lower portion of the button 46 as moving along the outer wall surface of the compressed air delivery pipe 43, the compressed air delivery pipe 43 It may be configured to generate compressed air inside the. The installation configuration of the piston 48 is possible because the cutout portion 21 of the valve mechanism 20 is opened and operated by the open end portion 47a of the piston rod 47, so that the same strong piston as in the first embodiment. This is because pressure does not have to be applied.

In view of the above, the piston 48 of the injection mechanism 340 according to the second embodiment of the storage container 10 through the injection space 21a formed by the cutout portion 21 of the valve mechanism 20. If the position that can generate the air compression force to the extent that the contents can be injected and supplied to the discharge mechanism 30 will not need to be limited to a specific position.

On the other hand, the open end portion 47a formed in the piston rod 47 has a diameter whose diameter is smaller than the length L of the cutout portion 21 of the valve mechanism 20 as shown in FIG. Ø) is preferably configured such that the injection space 21a can be formed around the cutout 21 opened by the open end 21a.

The operation of the distributor 2 of the second embodiment configured as described above will be described. 13A and 13B, when the button 46 of the injection mechanism 340 is pressurized as shown in FIG. 13A in order to inject the contents of the storage container 10 into the discharge mechanism 30, As the piston rod 47 is simultaneously pressed, the open end 47a is gradually forced through the cutout 21 of the valve mechanism 20 via the distribution hole 13 formed in the bottom 12 of the storage container 10. The cutout portion 21 is opened so that a plurality of injection spaces 21a are provided around the periphery by the smaller open end portion 47a as shown in FIG. 13B. Accordingly, the contents sucked through the contents suction port 44 are discharged from the discharge mechanism 30 of the discharge mechanism 30 positioned below the through the injection space 21a of the cutout portion 21 by the air compression force of the piston 48. 31 can be injected directly into the supply.

On the other hand, the contents of the storage container 10 in the process of the injection of the contents by the bottom portion 11 configuration of the inclined inner peripheral surface 13 is easily made suction operation to the contents suction port 44 having the same height. .

Therefore, the contents of the storage container 10 are pushed by the above-described button 46, so that the open end 47a of the piston rod 47 starts to open the cutout 21 of the valve mechanism 20. Since it is injected into the discharge mechanism 30 through the injection space 21a of the notch 21 only as much as the amount introduced into the compressed air transfer pipe 43 from the time point, it is possible to supply a fixed amount.

When the injection of the contents to the discharge mechanism 30 is completed and the pressing force applied to the button 46 is released through the above-described process, the button 46 is again driven by the reaction force of the elastic body 45. The piston rod 47 and the piston 48, which are quickly returned as described above and simultaneously operated in conjunction with each other, are also returned and operated, and the notch 21 opened by the open end 47a of the piston rod 47. The injection space 21a is also quickly retracted while being released again by the elastic return force of the cutout portion 21.

On the other hand, in the retraction operation of the piston rod 47, the air partially flowed back by the retreat pressure of the piston 48 that is retracted together is blocked by the piston 48 to be inside the compressed air delivery pipe 43. The external leakage of the contents is blocked, and the contents may be prevented from sinking or solidifying due to a phenomenon in which some contents are reflowed back into the storage container 10 through the contents suction port 42.

Therefore, according to the structure of the dispenser 2 according to the second embodiment of the present invention, the user holds the storage container 10 with one hand and repeatedly presses the button 46 of the injection mechanism 340. The cutout portion 21 of the valve mechanism 20 is opened and closed in a state where the injection space 21a is provided by the open end 47a of the piston rod 47, and at the same time, the air compression force of the piston 48 Since the contents of the storage container 10 are directly injected into the discharge mechanism 30 through the injection space 21a of the cutout portion 21, the injection and supply of the contents can always be made quickly and accurately, and It becomes possible.

14 and 15 are assembled cross-sectional views of the injection mechanism 440 showing the first modification of the injector 340 in the distributor 2 according to the second embodiment of the present invention. In this modification, the same components as those of the injection mechanism 340 of the second embodiment will be denoted by the same reference numerals, and similar components will be described with the same reference numerals.

Referring to FIG. 14, the injection mechanism 440 of the first modification includes a sealing part 442 that is detachably seated and supported by a support cap 41 with respect to the open end of the storage container 10, and a compression. Separately forming the air transfer pipe 443, the compressed air transfer pipe 443 is integrally formed by a predetermined height to the upper portion of the distribution hole 12 formed as the bottom portion 11 of the storage container, and the bottom portion ( A plurality of contents suction ports 444 are formed in portions adjacent to the inner circumferential surface 13 of 11).

And the piston rod 47 penetrated and supported by the said sealing part 442 is comprised so that it may be guided up and down safely by the tubular packing body 51 interposed therebetween. In the case of the above embodiment, since the compressed air delivery pipe 443 is formed separately from the sealing part 442, it provides a structural advantage that can enlarge the internal volume of the storage container 10.

Next, the operation of the injection mechanism 440 of the first modified example will be described briefly. In the case of the modification described above, the button 46 of the injection mechanism 440 may be pressed in the same manner as the injection mechanism 340 of the second embodiment. By operating, the piston rod 47 is lifted and operated, and the piston mechanism for generating compressed air to the compressed air feed pipe 443 is lifted and operated at the same time by the lifting and lowering operation of the piston rod. 15, the cutout 21 of which is forcibly opened as shown in FIG. 15 and the contents of the storage container 10 sucked into the compressed air delivery pipe 143 through the contents inlet 444 are in the open state. Through the injection space 21a of the coupling portion 21 (see FIG. 13B for the configuration of the injection space 21a), it is possible to be jetted and supplied to the discharge mechanism 30 quickly, and the distribution hole of the storage container 10 can be obtained. Only the contents introduced into the (12) by the air pressure of the piston 48 Since it is injected into the discharge mechanism 30, it is possible to supply a fixed amount.

On the other hand, in the case of the first modification, since the compressed air delivery pipe 443 is formed separately from the seal 442, the retraction pressure generated to the rear of the compressed air delivery pipe 443 during the ascending operation of the piston 48. By doing so that the content of the contents of the storage container 10 is evenly mixed can be more effectively prevented from settling the contents.

16 and 17 are assembled cross-sectional views showing the injection mechanism 540 of the second modification to the injection mechanism 340 of the second embodiment according to the present invention, and more specifically, the injection mechanism 440 of the first modification. Another variant for.

Referring to FIG. 16, the injection mechanism 540 of the second modified example may be separately separated from the distribution hole 12 in which the compressed air delivery pipe 543 is formed at the bottom 11 of the storage container 10. It is configured and assembled to be detachable from the lower portion of the bottom portion 11, and is substantially the same except that the contents suction port 544 is formed in a portion adjacent to the inner peripheral surface 13 of the bottom portion (11).

As described above, the compressed air delivery pipe 543 is separately detachable with respect to the distribution hole 12 formed as the bottom portion 11 of the storage container 10, thereby separating the compressed air delivery pipe 543 as necessary. It is possible to replace it to provide maintenance and good assembly.

Next, referring to FIG. 17, the operation of the injection mechanism 540 of the second modified example will be described. Similarly to the injection mechanism 440 of the first modified example, the storage container 10 is operated by pressing the button 46. The injection space 21a is formed by the cutout portion 21 of the valve mechanism 20 forcibly opened and operated by the air compression force of the piston 48 which is lifted up and down along the compressed air delivery pipe 543. The overall action of spraying and supplying directly to the discharge mechanism 30 through the same is the same (see FIG. 13B for the configuration of the injection space 21a).

18 to 23 are assembling cross-sectional views illustrating the cosmetic utensils 3 to 8 using the dispenser 1 and 2 of the direct pressure injection method according to the present invention, respectively. In these drawings, the structure of the distributors 1 and 2 of the first and second embodiments is the same as that shown in Figs. 1 to 17, and detailed construction and operation thereof will be replaced for convenience.

In each of the cosmetic utensils 3 to 8 shown in FIGS. 18 to 23, first, the cosmetic utensil 3 shown in FIG. 18 is an injection mechanism 40 employed in the dispenser 1 of the first embodiment. ) Is a combined configuration, the cosmetic appliance 4 is a configuration in which the injection mechanism 140 employed in the dispenser 1 of the first embodiment is coupled, the cosmetic appliance 5 is connected to the dispenser 1 of the first embodiment. Adopted injection mechanism 240 is a combination, the cosmetic appliance 6 is a combination of the injection mechanism 340 employed in the dispenser 2 of the second embodiment, the cosmetic appliance 7 is a second embodiment The injection mechanism 440 employed in the dispenser 2 of the example is combined, and the cosmetic device 8 is a combination of the injection mechanism 540 employed in the dispenser 2 of the second embodiment.

The cosmetic utensils (3) (4) (5) is characterized in that the coating member (9) is coupled to the discharge mechanism (30) provided as the storage container (10) of the dispenser (1).

In addition, the cosmetic utensils 6, 7 and 8 are characterized in that the application member 9 is coupled to the discharge mechanism 30 provided as the storage container 10 of the dispenser 2.

Therefore, as described above, the cosmetic tools 3 to 8 are configured to be coupled, so that the piston rod through the operation of the button 46 of the injection mechanism 40, 140, 240, 340, 440, 540. By the air compression action of the piston 48 provided in the 47, the cutout portion 21 of the valve mechanism 20 is directly opened or the storage container through the injection space 21a formed around the cutout portion 21. The contents of 10 can be supplied by injection to the discharge mechanism 30 directly.

According to the present invention, the coating member 9 may be installed in various assembly manners with respect to the discharge mechanism 30. For example, a method of further extending the support tube 9a with respect to the holder 31 of the discharge mechanism 30 and installing the application member 9 thereon may be taken.

The coating member 9 may be employed in various ways according to the makeup application and function. For example, a puff or sponge may be provided as well as a brush in the form of a brush. In addition, the application member 9 may have a variety of shapes depending on the function.

Therefore, the cosmetic utensils 3 to 8 according to the present invention distribute the contents of the storage container 10 which is blocked by the valve mechanism 20 with respect to the application member 9 of the dispenser 1 and 2. It is possible to make-up while directly spraying and supplying by using the air compression force.

In FIGS. 18 to 23, reference numeral 9b is a slide tube which is provided to move up and down along the outer circumferential surface of the storage container 10 to protect the coating member 9, and 9c is a lid that is covered by the slide tube. .

For reference, each of the injection mechanisms 40, 140, 240, 340, 440, 540 employed in the dispenser 1, 2, or cosmetics (3) to (8) according to the present invention. The button 46 has a shape protruding outward in the drawing, but it is of course designed to be protected by a separate safety cap (not shown) so as not to be pressed arbitrarily during use.

On the other hand, the dispenser (1) (2) of the present invention, as well as a cosmetic device is not limited to this can be applied to various technical fields. For example, it may be widely used for the spray supply of contents in the food field, pharmaceutical field, and stationery field.

According to the present invention as described above, it is possible to provide a dispenser having a very simple injection structure of the contents and a cosmetic tool using the same, and the valve mechanism which blocks the contents in the storage container by pressing a button has a strong air compression force of the piston. , Or by being forced by the piston rod and being directly injected into the discharge mechanism through the cutout of the valve mechanism by the strong pressure of the compressed air, the supply of the contents can be performed quickly and accurately and quantitatively. It can provide the effect.

In addition, according to the present invention, since the contents in the storage container are always blocked before the valve mechanism is opened by the piston rod, it is possible to keep the airtight, and there is an effect that can be prevented from the usual unintended leakage.

In addition, since the amount of the content to be sprayed every single operation of the button is limited, there is an effect that can prevent the waste of the content due to excessive injection supply.

Although the present invention has been described with reference to the accompanying drawings, there can be many modifications and changes without departing from the scope of the following claims, and it is natural that simple design changes of such structures will fall within the claims of the present invention. Do. For example, the shape of the piston 48 in the entirety of the present invention is not limited to a specific shape and can be variously designed such as an oil ring shape if the air compression action is possible.

Claims (33)

In the dispenser for direct injection and supply of the contents using the pressure of the compressed air, the distributor, A storage container in which contents are stored; A valve mechanism having a cutout portion detachably coupled to and supported by a lower portion of the storage container to cut off any leakage of contents and open only by external force; A discharge mechanism that is guided to discharge the contents sprayed through the valve mechanism safely and detachably coupled to a lower portion of the valve mechanism; And The pressurized operation of the button elastically installed on the upper portion of the storage container forcibly opens the cutout of the valve mechanism by the compressed air pressure generated inside the compressed air delivery pipe and simultaneously flows into the compressed air delivery pipe. An injection mechanism for controlling the injected contents to be directly supplied to the discharge mechanism through the open cutout of the valve mechanism; Direct injection dispenser, characterized in that configured to include. In the dispenser for direct injection and supply of the contents using the pressure of the compressed air, the distributor, A storage container in which contents are stored; A valve mechanism having a cutout portion detachably coupled to and supported by a lower portion of the storage container to cut off any leakage of contents and open only by external force; A discharge mechanism that is guided to discharge the contents sprayed through the valve mechanism safely and detachably coupled to a lower portion of the valve mechanism; And The compressed air pressure is generated inside the compressed air delivery pipe by pressing a button that is elastically installed on the upper portion of the storage container, and the open end of the piston rod operated in connection with the button forcibly cuts off the valve mechanism. An injection mechanism for directly injecting and supplying contents introduced into the compressed air transfer pipe to a discharge mechanism through an injection space formed around the same in an opening process; Direct injection dispenser, characterized in that configured to include. The method according to claim 1 or 2, The storage container is a direct injection dispenser, characterized in that it is configured in one open cylindrical shape, the other side is further composed of a bottom portion through which the distribution hole is passed through the axial center. The method of claim 3, And an inner circumferential surface of the bottom portion is formed to be inclined downwardly toward the distribution hole so as to guide the contents stored in the storage container toward the distribution hole. The method according to claim 1 or 2, The valve mechanism is a direct injection dispenser, characterized in that made of a material excellent in the elastic restoring force of the notch. The method of claim 1, wherein the injection mechanism, A compressed air delivery pipe including a sealing part detachably seated and supported by a support cap with respect to an open end of the storage container, and having a plurality of contents inlets formed in a portion adjacent to an inner circumferential surface of the bottom of the storage container; A button elastically supported by an elastic body to be pressed on an upper portion of the compressed air delivery pipe; A piston rod having one end connected and assembled to the button and the other end inserted into the compressed air delivery pipe so as to be linked with the button; Compressed air transfer pipe is provided at the other end of the piston rod which is operated in conjunction with the button to generate compressed air pressure for forcibly opening and operating the cutout portion of the valve mechanism whenever the button is pressed. Direct injection dispenser, characterized in that consisting of a piston for direct injection and supply of the contents of the storage container sucked into the discharge mechanism. The method of claim 6, The sealed part of the injection mechanism and the compressed air delivery pipe are formed separately, and the compressed air delivery pipe is integrally formed by a predetermined height to the upper portion of the distribution hole formed as the bottom part of the storage container and is adjacent to the inner circumferential surface of the bottom part. Direct injection dispenser, characterized in that the plurality of contents inlet is divided into. The method of claim 7, wherein The compressed air transfer pipe of the injection mechanism, the direct injection dispenser, characterized in that configured to be detachable to the distribution hole formed in the bottom portion. The method according to claim 1 or 2, Wherein said valve mechanism comprises a single membrane or a plurality of membranes. The method of claim 2, The valve mechanism is a direct injection dispenser, characterized in that the elastic support piece is further supported by a partitioned elastic support plate. The method of claim 2, Said valve mechanism is composed of a plurality of membranes, and between them are supported at regular intervals by separate bearing rings formed with through holes. The method of claim 2, wherein the injection mechanism, A compressed air conveying pipe including a sealing part detachably seated and supported by a support cap with respect to an open end of the storage container, and having a plurality of contents inlets divided into a portion adjacent to the bottom of the storage container; A button elastically supported by an elastic body to be pressed on an upper portion of the compressed air delivery pipe; One end is connected and assembled to the button so as to be linked to the button, and the other end is inserted and supported in the inside of the compressed air delivery pipe and has an open end forcibly opening so that an injection space is provided for the cutout of the valve mechanism. Piston rod; And Piston for generating a compressed air pressure for quickly supplying and supplying the contents of the storage container sucked into the compressed air transfer pipe through the contents inlet port to the discharge mechanism through the injection space of the cutout every time the button is pressed. Direct injection dispenser, characterized in that consisting of. The method of claim 12, The sealed part of the injection mechanism and the compressed air delivery pipe are formed separately, and the compressed air delivery pipe is integrally formed by a predetermined height to the upper portion of the distribution hole formed as the bottom part of the storage container and is adjacent to the inner circumferential surface of the bottom part. Direct injection dispenser, characterized in that the plurality of contents inlet is divided into. The method of claim 13, The compressed air transfer pipe of the injection mechanism, the direct injection dispenser, characterized in that configured to be detachable to the distribution hole formed in the bottom portion. The method according to any one of claims 12 to 14, And a piston of the injection mechanism is configured to generate compressed air inside the compressed air delivery pipe while moving along the inner wall or outer wall surface of the compressed air delivery pipe. The method according to any one of claims 2 and 12 to 14, The open end formed in the piston rod, the direct injection dispenser, characterized in that the diameter is configured to have a diameter (Ø) less than the cutout length (L) of the valve mechanism. In constructing a cosmetic appliance using a dispenser which sprays and supplies the contents of the storage container directly to the discharge mechanism by the air compression force: The cosmetic device includes a valve mechanism having a storage container in which contents are stored and a cutout part detachably coupled to and supported by a lower portion of the storage container to block an arbitrary leakage of contents and being opened and operated only by external force; The compressed air delivery pipe through the push operation of the discharge mechanism and the button elastically installed on the upper portion of the storage container and detachably coupled to the lower portion of the valve mechanism while at the same time guided safely discharge the contents injected through the valve mechanism The inside of the compressed air delivery pipe through an injection space is formed around the opening in the process of forcibly opening the cutout of the valve mechanism for generating a compressed air pressure therein and in conjunction with the button to open the cutout of the valve mechanism A dispenser comprising a spray mechanism for spraying and supplying the contents introduced into the discharge mechanism; And a coating member provided as a discharge mechanism of the dispenser. In constructing a cosmetic appliance using a dispenser which sprays and supplies the contents of the storage container directly to the discharge mechanism by the air compression force: The cosmetic device includes a valve mechanism having a storage container in which contents are stored and a cutout part detachably coupled to and supported by a lower portion of the storage container to block an arbitrary leakage of contents and being opened and operated only by external force; The discharge of the compressed air delivery pipe through the operation of pressing the button is installed elastically installed on the upper portion of the storage container and the discharge mechanism that is detachably coupled to the lower portion of the valve mechanism while at the same time guided safely discharge the contents injected through the valve mechanism The inside of the compressed air delivery pipe through an injection space is formed around the opening in the process of forcibly opening the cutout of the valve mechanism for generating a compressed air pressure therein and in conjunction with the button to open the cutout of the valve mechanism Dispenser consisting of a dispensing mechanism for direct injection and supply of the contents introduced into the discharge mechanism ; Cosmetic device using a direct injection dispenser characterized in that it comprises a coating member provided as a discharge mechanism of the dispenser. The method of claim 17 or 18, The storage container is a cosmetic container using a direct injection dispenser, characterized in that it is configured in one open cylindrical shape, and the other side is further composed of a bottom portion through which a distribution hole penetrates an axial center. The method of claim 19, The inner peripheral surface of the bottom portion cosmetic device using a direct injection dispenser characterized in that the contents stored in the storage container is formed to be inclined downward toward the distribution hole in order to guide the well in the direction of the distribution hole. The method of claim 17 or 18, The valve mechanism is a cosmetic device using a direct injection dispenser, characterized in that made of a material having excellent elastic restoring force of the notch. The method of claim 17, wherein the injection mechanism, A compressed air delivery pipe including a sealing part detachably seated and supported by a support cap with respect to an open end of the storage container, and having a plurality of contents inlets formed in a portion adjacent to an inner circumferential surface of the bottom of the storage container; A button elastically supported by an elastic body to be pressed on an upper portion of the compressed air delivery pipe; A piston rod having one end connected and assembled to the button and the other end inserted into the compressed air delivery pipe so as to be linked with the button; Compressed air transfer pipe is provided at the other end of the piston rod which is operated in conjunction with the button to generate compressed air pressure for forcibly opening and operating the cutout portion of the valve mechanism whenever the button is pressed. Cosmetic device using a direct injection dispenser characterized in that it consists of a piston for direct injection and supply of the contents of the storage container sucked into the discharge mechanism. The method of claim 22, The sealed part of the injection mechanism and the compressed air delivery pipe are formed separately, and the compressed air delivery pipe is integrally formed by a predetermined height to the upper portion of the distribution hole formed as the bottom part of the storage container and is adjacent to the inner circumferential surface of the bottom part. Cosmetic device using a direct injection dispenser, characterized in that the plurality of contents inlet is divided into. The method of claim 23, wherein Compressed air transfer pipe of the injection mechanism, cosmetic equipment using a direct injection dispenser, characterized in that the removable material is configured to be detachable with respect to the distribution hole formed in the bottom portion. The method of claim 17 or 18, Cosmetic device using a direct injection dispenser, characterized in that the valve mechanism is composed of a single membrane or a plurality of membranes. The method of claim 18, The valve mechanism is a cosmetic device using a direct injection dispenser, characterized in that the elastic support piece is further supported by the elastic support plate formed partitioned. The method of claim 18, The valve mechanism is a cosmetic device using a direct injection dispenser, characterized in that it is composed of a plurality of membranes, between them are supported at regular intervals by separate bearing rings formed with through holes. The method of claim 18, wherein the injection mechanism, A compressed air conveying pipe including a sealing part detachably seated and supported by a support cap with respect to an open end of the storage container, and having a plurality of contents inlets divided into a portion adjacent to the bottom of the storage container; A button elastically supported by an elastic body to be pressed on an upper portion of the compressed air delivery pipe; One end is connected and assembled to the button so as to be linked to the button, and the other end is inserted and supported in the inside of the compressed air delivery pipe and has an open end forcibly opening so that an injection space is provided for the cutout of the valve mechanism. Piston rod; And Piston for generating a compressed air pressure for quickly supplying and supplying the contents of the storage container sucked into the compressed air transfer pipe through the contents inlet port to the discharge mechanism through the injection space of the cutout every time the button is pressed. Cosmetic device using a direct injection dispenser, characterized in that consisting of. The method of claim 28, The sealed part of the injection mechanism and the compressed air delivery pipe are formed separately, and the compressed air delivery pipe is integrally formed by a predetermined height to the upper portion of the distribution hole formed as the bottom part of the storage container and is adjacent to the inner circumferential surface of the bottom part. Cosmetic device using a direct injection dispenser, characterized in that the plurality of contents inlet is divided into. The method of claim 29, Compressed air transfer pipe of the injection mechanism, cosmetic equipment using a direct injection dispenser, characterized in that the removable material is configured to be detachable with respect to the distribution hole formed in the bottom portion. The method according to any one of claims 28 to 30, The piston of the injection mechanism cosmetic device using a direct injection dispenser characterized in that it is configured to generate compressed air inside the compressed air delivery pipe while moving along the inner wall or outer wall surface of the compressed air delivery pipe. The method according to any one of claims 18 and 28 to 30, The open end formed in the piston rod, a cosmetic device using a direct injection dispenser, characterized in that the diameter is configured to have a diameter (Ø) less than the cut-out length (L) of the valve mechanism. The method of claim 17 or 18, The application member is a cosmetic device using a direct injection dispenser, characterized in that any one of a brush-shaped cosmetic brush, puff, sponge form.

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