KR200318834Y1 - Dispenser - Google Patents

Abstract

The present invention relates to a dispenser, in which the inlet of the contents of the housing is opened and closed through the clamping force of the shaft and the piston rod moved to the lower and upper portions by the pumping operation and release of the button, thereby introducing into the housing when the vacuum pressure is generated. The purpose is to make it possible to control the amount of the content to be uniform. The dispenser assembly of the present invention configured for this purpose includes a housing formed at the lower center of the contents suction port for sucking the contents filled in the container, a check valve for opening and closing the contents suction port through a shaft elastically supported by the lifting means, and the outside of the lifting means. Lifting means fixing member for fixing, piston rod for generating vacuum pressure and pressing force inside the housing by moving up and down, shaft clamping protrusion formed on the inner circumferential surface of the piston rod, sealing between the piston rod and the inner circumferential surface of the housing Sealing member, a housing cap coupled to the inner upper portion of the housing to limit the upward movement position of the sealing member through its lower end, a stem for communicating the piston rod and the nozzle, and installed between the housing cap and the stem to always return the stem to its original position. Springs and springs whose forces act in all directions Prevent the uneven distribution of the ring and fixed while the position comprises a spring fixing means for preventing rotation.

Description

Dispenser

The present invention relates to a dispenser, and more particularly, it is coupled to the upper end of a container for filling a cosmetic container, a bath product container and other contents to generate pressure and vacuum pressure through a pumping action to convert the contents inside the container to the pressure of the air. The present invention relates to a dispenser capable of discharging a predetermined amount by use thereof.

Generally, a dispenser is combined with an upper side of a cosmetic container for filling a liquid or gel cosmetic, a bath product container for filling a bath product such as a shampoo or a cleansing liquid, and a container for filling a container. It means a mechanism that can be used to discharge the contents by a predetermined amount by the pressure of the air.

On the other hand, the dispenser as described above sucks and discharges the contents by the tip tube and the dip tube method in which the same amount of air is introduced into the container and the airless method in which the piston rises to push up the contents as the inside of the container is in a vacuum state. It can be divided into. The following shows a conventional airless dispenser.

Figure 1 is a longitudinal sectional view showing a dispenser according to the prior art, Figure 2 is a longitudinal sectional view showing an operating state of the dispenser according to the prior art.

As shown in FIG. 1, the dispenser 10 according to the related art has a cap 12 coupled to an upper end of a container 30, and an inlet 14a is formed at one side thereof to maintain coupling to an inner lower portion of the cap 12. The housing 14, the inlet port 16a is formed at one side to maintain the piston rod 16 and the piston rod 16 installed in the upper portion of the housing 14 inside the housing 14, and the housing 14. Sealing member 18 for sealing between the inner circumferential surface and the piston rod 16, the stem 20, which is coupled to the pressure downward to guide the contents upward, the button 22 installed on the top of the stem 20 And a piston rod 16, a sealing member 18, and a stem 20 including a nozzle 24 installed at one side of the button 22 to discharge the contents to the outside, and a button 22 when the button 22 is depressurized. (26) and the opening and closing ball (28) for opening and closing the suction port (14a) is located in the inner lower portion of the housing (14) It consists of a.

In the conventional dispenser 10 configured as described above, the clearance A between the lower end of the stem 20 and the upper end of the sealing member 18 in a state where the sealing member 18 is located at the highest end. Is formed. This clearance A is opened between the piston rod 16 and the sealing member 18 when the stem 20 is moved downward by the clearance A by pressing the button 22 to open the contents inside the housing 14. This is to allow the inlet 16a of the piston rod 16 to flow into the piston rod 16.

Referring to the operation of the dispenser 10 according to the prior art configured as described above are as follows. First, when the button 20 is pressed by the user, the stem 20 is pressed downward to press the piston rod 16 and the sealing member 18. At this time, when the stem 20 and the piston rod 16 move by the clearance A, the inlet port 16a of the piston rod 16 is opened, and the inlet port 14a formed at the lower side of the housing 14 is opened and closed. It is closed by the ball 28.

On the other hand, when the piston rod 16 and the sealing member 18 is pressed downward by the pressing operation of the button 22 as described above, a large pressure is generated inside the housing 14, accordingly inside the housing 14 The contents of are discharged to the outside through the nozzle 24 via the inlet 16a of the open piston rod 16 and the inside of the piston rod 16 and the inside of the stem 20.

When the pressure of the button 22 is released in the above-described state, the piston rod 16 is pushed upward by the restoring force of the spring 26, so that the piston rod 16 and the sealing member 18 are separated. In close contact with the sealing member 18, the inlet 16a of the piston rod 16 is pushed upward and moved upward.

As described above, when the piston rod 16 and the sealing member 18 are pushed upward by the restoring force of the spring 26, a vacuum pressure is generated inside the housing 14, and accordingly, the inside of the container 30 is generated. The contents are sucked into the housing 14 through the suction port 14a at the bottom of the housing 14. At this time, the opening and closing ball 28 is lifted by the suction force of the contents, and when the vacuum pressure is removed, the opening and closing ball 28 is lowered by its own weight to close the suction port 14a inside the housing 14.

However, the dispenser according to the related art, which is configured as described above, is opened and closed by the own weight of the opening and closing ball, so that the opening and closing ball is suspended by the contents when the inlet opening is floated by the contents. The problem arises that is open. Accordingly, since the contents inside the housing are lost into the container, a problem arises in that pumping is required several times during use.

In addition, the operation of opening and closing the inlet of the housing through the weight of the opening and closing ball is difficult to precisely control, there is a problem that the suction of the contents is not constant.

In addition, since the dispenser according to the related art is configured to contact the contents of the spring and the opening / closing ball of the metal inside the housing, there is a problem of lowering consumer reliability due to corrosion of the metal and the deterioration of the contents.

Since the dispenser according to the above-described problem and the conventional technique does not have a means for accurately fixing the spring, there is a problem in that the spring is inclined to one side or a malfunction occurs due to the rotation of the pump during the pumping operation. .

The present invention has been made to solve the above-mentioned problems, formed in the lower center of the housing through the clamping force of the shaft by the piston rod and the stem moved to the lower and upper by the pumping operation and release of the button to It is an object of the present invention to provide a dispenser capable of uniformly controlling the amount of the content introduced into the housing when a vacuum pressure is generated by opening and closing the content suction port through which the content is sucked.

Another object of the present invention is to open and close the inlet of the housing through the clamping force of the shaft and the piston rod which is moved to the lower and upper by the pumping operation and release of the button, so that the contents flowing into the housing when the vacuum pressure is generated In order to prevent the loss of back flow into the interior of the container.

Another object of the present invention is to improve the structure to prevent the contact between the contents and the metal material to prevent corrosion of the metal material or deterioration of the contents that may be caused by it.

Furthermore, the present invention forms a rib related to the inner diameter of the spring in addition to the above-described purposes to prevent the bias in one direction of the spring by fixing the position of the spring, while the rotation can prevent the spring rotation during the pumping operation of the button Through the configuration of the jaw to prevent the malfunction of the component or damage to the component.

1 is a longitudinal sectional view showing a dispenser according to the prior art;

Figure 2 is a longitudinal sectional view showing an operating state of the dispenser according to the prior art.

Figure 3 is an exploded perspective view showing a dispenser according to the present invention.

Figure 4 is a longitudinal sectional view showing a dispenser according to the present invention.

Figure 5 is a perspective view showing the cutoff valve of the dispenser according to the present invention.

Figure 6a is an operating state showing the operating state of the dispenser assembly during the initial pressurization of the dispenser according to the present invention.

Figure 6b is an operating state showing the operating state of the dispenser assembly upon full pressurization of the dispenser according to the present invention.

Figure 6c is an operating state showing the operating state of the dispenser assembly upon initial vacuum pressure generation of the dispenser according to the present invention.

Figure 6d is an operating state showing the operating state of the dispenser assembly upon the generation of the complete vacuum pressure of the dispenser according to the present invention.

** Description of symbols for the main parts of the drawing **

100. Dispenser 110. Dispenser Cap

120. Button 130. Nozzle

200. Dispenser assembly 210. Housing

214. Contents inlet 220. Check valve

222. Shaft 224. Support

226. Elastic pieces 230. Lifting means fixing member

240. Piston rod 242. Contents inlet

250. Sealing member 260. Housing cap

270. Stem 280. Elastic spring

290. Cap spring fixed rib 292. Cap side anti-rotation jaw

294. Spring support plate 296. Stem side spring retaining rib

298. Stem side anti-rotation jaw

The configuration of the present invention is configured to achieve the above object is as follows. That is, the dispenser according to the present invention is also provided with a dispenser cap coupled to and fixed to the contents filling opening at the top of the container, a button installed to be elevated on the upper side of the dispenser cap, and a nozzle installed at one side of the button to discharge the contents. And a dispenser assembly installed inside the dispenser cap to discharge the contents of the inside of the container through the nozzle by pressing a button and to suck the contents filled in the container into the container by the release of the button. .

However, the present invention has a configuration in which the dispenser assembly is formed at the lower center of the contents suction port for sucking the contents of the inside of the container is coupled to the inner lower portion of the dispenser cap; A check valve formed upright at a predetermined height and configured to support a lower portion of the shaft for opening and closing the contents suction port and an elevating means capable of moving up and down; Elevating means fixing members for fixing the elevating means outside of the check valve; A piston rod which is slidably coupled to the shaft and lifts the shaft when the vacuum pressure and the pressing force are generated inside the housing to open and close the contents inlet; A shaft pinching protrusion formed on the inner circumferential surface of the through hole of the piston rod with an inner diameter smaller than the outer diameter of the shaft to move as much as the lifting and lowering range of the shaft when the piston rod moves up and down; A sealing member for sealing between the piston rod and the inner circumferential surface of the housing; A housing cap coupled to the inner upper portion of the housing to limit an upward movement position of the sealing member through the lower end thereof; A stem coupled to an upper portion of the piston rod to form a predetermined gap between the upper end of the sealing member and a lower portion of the button through the upper side to communicate with the piston rod and the nozzle; An elastic spring installed between the housing cap and the stem, the force acting in a direction to always return the stem to the stem; And a spring fixing means for fixing the position while preventing the bias of the elastic spring and preventing rotation.

In the above-described configuration, the lifting means of the check valve may include a support having an outer diameter formed in a cylindrical shape with respect to the inner diameter of the lifting means fixing member while the contents sucked through the contents suction port of the housing flow into the housing; And an elastic piece that is elastically connected between the lower outer circumferential surface of the shaft and the inner circumferential surface of the support with a bent structure in a horizontal direction, but is formed to a thickness thinner than the upper and lower thicknesses of the support so that the force acts in the direction of always returning the shaft. Can be done.

The shaft of the above-mentioned check valve is lifted by the clearance between the upper surface of the elastic piece and the lower surface of the elevating means fixing member.

The spring fixing means of the above configuration is formed on the upper flange surface of the housing cap a plurality of equal intervals, the diameter of the circle connecting each of the cap-side spring fixing ribs are formed in relation to the inner diameter of the elastic spring; A cap side anti-rotation jaw formed integrally with each cap side spring fixing rib to prevent rotation by catching the lower end of the elastic spring; A spring support plate formed in a disc shape having a diameter larger than the outer diameter of the elastic spring on the outer peripheral surface of the stem to support the elastic spring between the housing cap and the housing cap; A stem-side spring fixing rib which is formed on the lower surface of the spring support plate at equal intervals and whose diameters of connecting circles are formed in relation to the inner diameter of the elastic spring; And a stem side anti-rotation jaw formed to protrude integrally with each stem side spring fixing rib so as to prevent rotation by catching the upper end of the elastic spring.

On the other hand, the play is maintained by the housing cap which limits the upward movement position of the sealing member in the state where the stem is in the original position. This clearance is eliminated or generated by pressing and releasing the button to allow the contents inlet of the piston rod to open and close by being spaced or contacted between the lower outer circumferential surface of the piston rod and the sealing jaw of the sealing member.

And, the coupling between the upper portion of the piston rod and the inner circumferential surface of the stem is a piston rod by the combination of a plurality of engaging grooves formed in the inner circumferential surface of the stem and a plurality of engaging projections formed in relation to the engaging groove on the upper outer peripheral surface of the piston rod. Is fixed to the stem.

Figure 3 is an exploded perspective view showing a dispenser according to the present invention, Figure 4 is a longitudinal sectional view showing a dispenser according to the present invention, Figure 5 is a cutaway perspective view showing a check valve of the dispenser according to the present invention.

3 to 5, the dispenser 100 according to the present invention has a dispenser cap 110 and a dispenser cap fixedly coupled to the contents filling hole 32 on the top of the container 30 as in the related art. The button 120 is installed on the upper side of the 110 to be elevated, the nozzle 130 is installed on one side of the button 120 to discharge the contents, the inner side of the dispenser cap 110 is pressed to press the button 120 Including a dispenser assembly (200) for discharging the contents of the inside through the nozzle 130 by the operation while the suction of the contents filled in the container 30 by the release operation of the button 120 to the inside; It is the same thing that happens. However, the dispenser 100 according to the present invention has a configuration of the dispenser assembly 200 different from the conventional technology.

Looking at the configuration of the dispenser assembly 200 according to the present invention. That is, the dispenser assembly 200 according to the present invention includes a housing 210 having a contents suction port 214 for sucking contents filled in the container 30 in a lower center thereof, and a shaft 222 elastically supported by lifting means. Check valve 220 for opening and closing the contents inlet 214 through, the lifting means fixing member 230 for fixing the lifting means outside, the piston rod to generate a vacuum pressure and a pressing force inside the housing 210 by moving up and down ( 240 is formed on the inner circumferential surface of the piston rod 240 to seal between the shaft pinching protrusion 240a, the piston rod 240, and the inner circumferential surface of the housing 210 to press the shaft 222 to force the clamping force. Sealing member 250, the housing cap 260, piston rod 240 and nozzle 130, which is coupled to the inner upper portion of the housing 210 to limit the upward movement position of the sealing member 250 through the lower end of the communication Stem 270, housing cap 260 and studs It is installed between the 270 to prevent the rotation of the elastic spring 280 and the elastic spring 280 and the spring acting in the direction to always return the stem 270 to the spring fixing means to prevent the rotation while fixing the position Is done. At this time, a clearance X of a predetermined gap is formed between the bottom of the stem 270 and the sealing member 250.

The dispenser assembly 200 according to the present invention configured as described above, when the button 120 is pressed to discharge the contents of the container 30 to the outside, the stem 270 is pressed downward while the piston rod 240 and The sealing member 250 is pressed downward, and thus pressure is generated in the housing 210. At this time, the content inlet 214 formed in the lower center of the housing 210 is in a closed state by the lower surface of the shaft 222 is pressed downward.

On the other hand, when the stem 270 is moved downward by the play X while the stem 270 moves downward according to the pressing operation of the button 120, and the play X disappears, the inner lower end of the sealing member 250 and the piston The outer peripheral surface of the lower side of the rod 240 is spaced apart, thereby opening the contents inlet 242 of the piston rod 240. As such, when the contents inlet 242 of the piston rod 240 is opened, the contents inside the housing 210 are formed by the pressure generated in the housing 210 and the outer peripheral surface of the lower side of the piston rod 240 and the sealing member 250. It enters the contents inlet 242 through the gap between the inner bottom and is finally discharged through the nozzle 130 via the piston rod 240 and the stem 270.

As described above, when the contents of the interior of the housing 210 are discharged through the nozzle 130 by the pressing action of the button 120, and then the button 120 is released, the stem is restrained by the restoring force of the elastic spring 280. 270 is moved upward, whereby the piston rod 240 is attracted by the stem 270 to move upward and the lower outer peripheral surface of the piston rod 240 and the inner lower end of the sealing member 250 is in close contact and eventually The content inlet 242 of the piston rod 240 is closed.

As described above, when the stem 270, the piston rod 240, and the sealing member 250 move upward according to the restoration of the elastic spring 280, a vacuum pressure is generated in the housing 210. At this time, the piston rod 240 is pressed in the shaft 222 of the check valve 220 through the shaft pressing projection 240a in the process of moving upward while lifting the shaft 222 to the limited range upward. The contents inlet 214 of the housing 210 to be opened. When the contents suction opening 214 is opened as described above, the contents of the container 30 are sucked into the housing 210 through the contents suction opening 214 by the vacuum pressure generated in the housing 210.

On the other hand, when the elastic spring 280 is completely restored and the stem 270, the piston rod 240 and the sealing member 250 are returned to their original positions, the shaft 222 is restored to the original position by the restoring force of the lifting means of the check valve 220. To close the contents inlet 214 of the housing 210 through its lower surface. As such, the contents suction port 214 of the housing 210 is closed by the shaft 222 to prevent the contents sucked into the housing 210 from being lost to the container 30 again.

As can be seen in the configuration as described above, the dispenser 100 according to the present invention is the contents of the inside of the housing 210 by the pressure generated inside the housing 210 according to the pressing action of the button 120, the nozzle 130 Through the discharge, the contents filled in the container 30 by the vacuum pressure generated in the housing 210 according to the release of the button 120 is sucked into the housing 210. Therefore, it can be seen that the contents discharged through the nozzle 130 are the contents sucked into the housing 210.

Referring to the dispenser 100 according to the present invention in more detail as follows. First, the dispenser cap 110 is for fixing and fixing the dispenser 100 of the present invention to the upper filling hole of the container 30, the upper portion of the dispenser cap 110, the space for installing the button 120 112 is formed, and a fixing flange 114 for fixing and holding the dispenser assembly 200 to be described later is formed in the lower portion of the space 112.

The button 120 is an external pressurizing mechanism for generating pressure in the housing 210 when the contents are to be discharged. The button 120 is disposed on the upper space 112 of the dispenser cap 110. Installed in the spring is released from the space 112 by the restoring force of the elastic spring 280 and the pressure of the user.

The nozzle 130 is for discharging the contents to the outside by pressing the button 120, the nozzle 130 is installed laterally on one side of the button 120 to communicate with the stem 270 to be described later The contents raised from the inside of the housing 210 via the piston rod 240 and the stem 270 are discharged to the outside.

On the other hand, the dispenser assembly 200 discharges the contents inside the housing 210 to the outside through the pressure generated inside the housing 210 when the button 120 is pressed, the elasticity when the button 120 is released The assembly of components for allowing the contents of the interior of the container 30 to be sucked into the interior of the housing 210 through the vacuum pressure generated inside the housing 210 by the restoring force of the spring 280. The components of the dispenser assembly 200 will be described in more detail as follows. First, the housing 210 is for temporarily storing the contents of the container 30 in the inside thereof, and the housing 210 has an inner space 212 formed with an upper side opened, and a lower portion thereof. A content suction port 214 is formed at the center to suck the contents inside the container 30, and a sealing jaw 214a is formed at the top surface of the content suction port 214. The fixing protrusion 216 protrudes from one side of the inner circumferential surface of the housing 210.

The housing 210 configured as described above has its upper side coupled and fixed on the inner fixing flange 114 of the dispenser cap 110. As such, the housing 210 fixedly coupled to the fixing flange 114 of the dispenser cap 110 is inserted into the lower portion of the container 30 to be in direct contact with the contents.

Meanwhile, when pressure is generated in the housing 210 as described above, the contents of the housing 210 are discharged through the contents inlet 242 of the piston rod 240, and when the vacuum pressure is generated in the housing 210. The contents inside the container 30 are sucked into the housing 210 through the contents suction port 214. As such, it can be seen that the contents of the housing 210 are discharged and sucked by the generation of pressure and vacuum pressure, thereby filling a predetermined amount of contents at all times.

The check valve 220 opens the contents suction port 214 of the housing 210 to allow the contents of the container 30 to be sucked into the interior of the housing 210, while closing the contents suction port 214 to close the housing 210. In order to prevent the contents of the interior from being lost to the interior of the container 30, the check valve 220 is formed upright at a predetermined height to open the shaft 222 and the lower portion of the shaft 222 opening and closing the contents inlet 214. It consists of lifting means for supporting the lifting up and down.

The check valve 220 configured as described above is installed such that the shaft 222 faces upward in a state in which the lifting means is seated on the inner lower portion of the housing 210. At this time, the lifting means for supporting the lower portion of the shaft 222 to move up and down, the outer diameter of the support 224 and the lower portion of the shaft 222 is formed in a cylindrical shape relative to the inner diameter of the lifting means fixing member 230 It is made of an elastic piece 226 that the force acts in the direction to elastically connect between the side outer circumferential surface and the inner circumferential surface of the support 224 to always return the shaft 222.

In the configuration of the lifting means as described above, the support 224 is a structure that is opened up and down so that the contents sucked through the contents inlet 214 of the housing 210 can enter the interior of the housing 210, the elastic As shown in FIG. 5, the piece 226 is formed in a bent structure several times in the horizontal direction, and each end is connected to the lower outer peripheral surface of the shaft 222 and the inner peripheral surface of the support 224. At this time, the elastic piece 226 is formed to a thickness thinner than the vertical thickness of the support 224 is connected to the upper and lower center of the inner peripheral surface of the support 224.

As described above, the elastic piece 226 connected to the upper and lower centers of the inner circumferential surface of the support 224 has its restoring force (elastic force) when the shaft 222 is supported to be movable up and down and the force for moving the shaft 222 upward disappears. Return the shaft 222 through

The elevating means fixing member 230 is to fix the support 224 of the check valve 220 while limiting the upward movement position of the shaft 222, the elevating means fixing member 230 is the bottom is open It is formed in a cylindrical shape, the suction hole is formed through the periphery of the through hole 232 and the through hole 232 through which the shaft 222 penetrates at the center of the upper surface to allow the contents to pass through the interior of the housing 210. 234 is formed.

The lifting means fixing member 230 configured as described above is seated and fixed to the inner lower portion of the housing 210 in a state of being fitted to the shaft 222 through the through hole 232. At this time, the support means 224 of the check valve 220 is fixed to the inside of the elevating means fixing member 230, the elevating means fixing member 230 on the inner bottom surface and the inner peripheral surface of the housing 210; The fixing protrusion 216 is fixed by the fixing protrusion 216 between the protrusions.

Meanwhile, as described above, the elevating means fixing member 230 is seated and fixed to the inner bottom surface of the housing 210, so that the upper surface of the elastic piece 226 of the check valve 220 and the inner lower portion of the elevating means fixing member 230 are fixed. A gap Y is formed between the surfaces at a predetermined interval, and this gap Y is a range in which the shaft 222 can be elevated. That is, the shaft 222 is raised and lowered only within the clearance Y range between the upper surface of the elastic piece 226 and the inner lower surface of the lifting means fixing member 230 during the lifting.

The piston rod 240 is for causing pressure and vacuum pressure to be generated inside the housing 210 together with the sealing member 250. The piston rod 240 is formed in the form of a pipe that is vertically penetrated to the shaft 222. Is slidably inserted while the shaft 222 is raised and lowered when the vacuum pressure and the pressing force are generated inside the housing 210 to open and close the contents inlet 214.

The piston rod 240 as described above is formed through the one side and the contents inlet 242 through which the contents inside the housing 210, the sealing surface 244 formed as an inclined surface on the outer peripheral surface of the lower side of the piston rod 240 And a coupling protrusion 246 formed to protrude in a band shape on the outer circumferential surface of the upper side of the piston rod 240. In addition, the inner circumferential surface of the lower side of the through hole of the piston rod 240 is formed to have an inner diameter smaller than the outer diameter of the shaft 222 so as to force the shaft 222 to fit and move up and down the shaft 222 when the piston rod 240 moves up and down. The shaft pinching protrusion 240a which moves up and down through the clamping force by the range is comprised.

The shaft 222 of the check valve 220 is inserted into the lower inner side of the piston rod 240 configured as described above to be slidably fitted to the shaft pinching protrusion 240a formed on the inner circumferential surface. As such, when the piston rod 240 is moved downward in the state in which the shaft 222 is slidably fitted to the piston rod 240, the shaft 222 is pressed downward by the pinching protrusion 240a of the piston rod 240. Accordingly, the bottom surface of the shaft 222 closes the content inlet 214 of the housing 210. On the other hand, when the piston rod 240 is moved upward, the shaft 222 is led upward by the shaft pinching protrusion 240a of the piston rod 240, and thus the lower surface of the shaft 222 is the housing 210. The content suction port 214 is spaced apart from the sealing jaw 214a of the content suction port 214.

Of course, the case in which the piston rod 240 is pushed downward while pressing the shaft 222 downward is to discharge the contents inside the housing 210 to the outside, and the shaft rod 222 while the piston rod 240 is moved upward. ) Is a case in which the contents of the container 30 are sucked into the housing 210.

The above-described contents inlet 242 is that when the pressure is generated in the housing 210, the contents inside the housing 210 are introduced into the piston rod 240, and the contents inlet 210 is the sealing member 250. It is opened and closed by space and close contact with each other. Detailed description will be made below when describing the sealing member 250. In addition, the sealing surface 244 and the engaging projection 246 will also be described in the following description of the sealing member 250 and the stem 270.

Sealing member 250 is for sealing between the piston rod 240 and the inner circumferential surface of the housing 210, the sealing member 250 is a piston rod 240 through the piston rod 240 in the center upwardly The sliding jaw 252 is slidably fitted to the outer circumferential surface of the sealing jaw, and a sealing jaw 252 for opening and closing the contents inlet 242 through close contact with or spaced from the sealing surface 244 formed on the lower outer circumferential surface of the piston rod 240. Is formed.

The sealing member 250 configured as described above opens the contents inlet 242 by moving the lower sealing jaw 252 from the sealing surface 244 of the piston rod 240 when the piston rod 240 moves downward. do. As such, the contents inlet 242 is opened so that the contents inside the housing 210 are introduced into the piston rod 240 through the contents inlet 242. This case is an action of discharging the contents.

On the other hand, when the sealing jaw 252 and the sealing surface 244 of the piston rod 240 is in close contact by the upward movement of the piston rod 240, the contents inlet 242 is closed. This is the case according to the generation of the vacuum pressure inside the housing 210.

The housing cap 260 is for limiting the upward movement position of the sealing member 250 through the lower end thereof. Such a housing cap 260 is coupled to the inner upper portion of the housing 210 so that the lower end and the sealing member 250 are closed. Through contact with the outer peripheral surface of the upper side of the sealing member 250 to prevent the upward rise further.

In addition, the housing cap 260 as described above prevents the sealing member 250 from further rising upward through its lower end so that the clearance X is formed between the lower end of the stem 270 to be described later. It will also function. This description will be made in the description of the stem 270 described below.

On the other hand, the stem 270 to be described later through the center of the housing cap 260 described above is penetrated up and down to be coupled to the upper side of the piston rod 240.

The stem 270 transmits the force of pressing the button 120 to the piston rod 240 while allowing the piston rod 240 and the nozzle 130 to communicate with each other. An upper side of the stem 270 is a button. It is connected to the inner lower portion of the 120 is in communication with the nozzle 130, the lower side is coupled to the upper side of the piston rod 240 through the housing cap 260 is in communication with the inner side of the piston rod 240. At this time, the piston rod 240 is inserted into the bottom through the lower side of the stem 270 is fixed.

As described above, the stem 270 is connected between the nozzle 130 and the piston rod 240 to communicate with each other so that the contents introduced through the contents inlet 242 of the piston rod 240 during the discharge action of the contents are piston rods. It is discharged to the outside through the nozzle 130 via the 240 and the stem 270.

On the other hand, the coupling fixing of the piston rod 240 and the stem 270 is related to the plurality of coupling grooves 272 formed on the inner circumferential surface of the stem 270 and the coupling groove 272 on the outer peripheral surface of the upper side of the piston rod 240. It is made by the combination of a plurality of coupling protrusions 246 are formed. At this time, the stem 270 is installed such that a clearance X of a predetermined interval is formed between the lower end of the stem 270 and the upper end of the sealing member 250. This means that a gap X is formed between the lower end of the stem 270 and the upper end of the sealing member 250 while the stem 270 and the sealing member 250 are in the original position.

In addition, the clearance X as described above may be said to be maintained by the housing cap 260 which limits the upward movement position of the sealing member 250 in the state in which the stem 270 is in the original position. This clearance (X) disappears or is generated by pressing and releasing the button 120 so that the piston rod is spaced or contacted between the lower outer circumferential surface of the piston rod 240 and the sealing jaw 252 of the sealing member 250. It functions to open and close the contents inlet 242 of 240.

The elastic spring 280 is to return it according to the release of the button 120, the elastic spring 280 is installed between the housing cap 260 and the stem 270 to always return the stem 270 The force acts in the direction.

In addition, the aforementioned spring fixing means is to prevent the bias of the elastic spring 280 to fix the position while preventing the rotation, the spring fixing means is supported between the stem 270 and the housing cap 260 The elastic spring 280 is prevented from biasing to one side to facilitate the downward movement of the stem 270.

Looking at the configuration of the above-described spring fixing means is formed on the upper flange surface 262 of the housing cap 260 in a plurality at equal intervals, the diameter of the circle connecting each is formed in relation to the inner diameter of the elastic spring 280 The spring fixing rib 290 and the cap side spring fixing rib 290 are formed integrally with the cap side rotation preventing jaw 292 and the stem 270 to prevent rotation by engaging the lower end of the elastic spring 280. Spring support plate 294, Spring support plate 294 is formed in a disk shape of a larger diameter than the outer diameter of the elastic spring 280 on the outer peripheral surface of the spring to support the elastic spring 280 between the housing cap 260 The stem-side spring fixing ribs 296 and the respective stem-side spring fixing ribs 296, which are formed at equal intervals on the lower surfaces of the stems, are formed in relation to the inner diameter of the elastic spring 280, respectively. And work It is formed of a stem-side anti-rotation jaw 298 formed to protrude into a sieve to prevent rotation by engaging the upper end of the elastic spring 280.

The spring fixing means configured as described above is prevented from biasing the elastic spring 280 only by the elastic spring 280 is supported between the cap side spring fixing rib 290 and the stem side spring fixing rib 296. The upper and lower surfaces of the elastic spring 280 are caught by either of the cap side anti-rotation jaw 292 and the stem side anti-rotation jaw 298 to prevent rotation of the elastic spring 280.

Looking at the assembly of the dispenser assembly 200 according to the present invention configured as described above as shown in Figure 3, the check valve 220 is installed on the inner lower portion of the housing 210, the shaft of the check valve 220 ( The lifting means fixing member 230 is fitted through the 222 to be fixed to the inside of the housing 210. Subsequently, the sealing member 250 is fitted to the outer circumferential surface of the piston rod 240 to be fitted into the shaft 222 inside the housing 210 through the lower inner side of the piston rod 240. As such, after the check valve 220, the lifting means fixing member 230, the piston rod 240, and the sealing member 250 are installed in the housing 210, the housing cap 260 is mounted on the upper portion of the housing 210. The upper side of the piston rod 240 is coupled to the inner side of the stem 270 in a state in which the elastic spring 280 is fitted to the outer circumferential surface of the stem 270 to complete the dispenser assembly 200.

Figure 6a is an operating state showing the operating state of the dispenser assembly during the initial pressurization of the dispenser according to the present invention, Figure 6b is an operating state diagram showing the operating state of the dispenser assembly when fully pressing the dispenser according to the present invention, Figure 6c FIG. 6D is an operational state diagram showing an operating state of the dispenser assembly upon generation of a complete vacuum pressure of the dispenser according to the present invention. FIG.

Referring to the operation of the dispenser 100 according to the present invention as follows. First, when the button 120 is pressed as shown in FIG. 6A while the button 120 is not pressed as shown in FIG. 4, the stem 270 is pushed downward to press the piston rod 240 downward. . At this time, when the stem 270 is moved downward by the clearance X, the sealing surface 244 of the piston rod 240 and the sealing jaw 252 of the sealing member 250 are spaced apart to inlet the contents of the piston rod 240. 242 is opened. This state is a state in which the contents inside the housing 210 may be introduced into the piston rod 240 through the contents inlet 242.

On the other hand, when the piston rod 240 is moved downward by the downward movement of the stem 270 as described above, the content inlet 214 formed in the lower center of the housing 210 is pressed downward by the piston rod 240 It is in a closed state by the lower surface of the shaft 222 under pressure.

As shown in FIG. 6A, the stem 270 is moved downward by the clearance X so that the pressing operation of the button 120 continues as shown in FIG. 6B while the contents inlet 242 of the piston rod 240 is opened. The piston rod 240 and the sealing member 250 are moved downward by the pressure of the ground button 120 to generate pressure in the housing 210.

As described above, the pressure generated inside the housing 210 pushes the contents inside the housing 210 to the contents inlet 242 of the piston rod 240, and the contents introduced into the contents inlet 242 are pressure-induced. During operation, it is discharged to the outside through the nozzle 130 via the interior of the piston rod 240 and the stem 270.

On the other hand, as described above, the action of discharging the contents inside the housing 210 is the piston from the moment the content inlet 242 of the piston rod 240 is opened while the clearance (X) is removed by the downward movement of the stem 270 It continues until the bottom of the rod 240 is moved completely downward to the bottom of the interior of the housing 210. That is, while pressure is generated by the downward movement of the piston rod 240 and the sealing member 250, the discharge of the contents inside the housing 210 is continuously performed.

Of course, in order to generate pressure in the housing 210, the contents inlet 214 formed in the lower portion of the housing 210 should be closed while the piston rod 240 and the sealing member 250 are moved downward. .

As described above, when the contents of the interior of the housing 210 are discharged through the nozzle 130 by the pressing action of the button 120 and then the button 120 is released, the elastic spring as shown in FIG. 6C ( The stem 270 is moved upward by the restoring force of 280 to lead the piston rod 240 upward. At this time, when the piston rod 240 is moved upward by the interval between the sealing surface 244 of the piston rod 240 and the sealing jaw 252 of the sealing member 250, the sealing surface 244 of the piston rod 240 Between the sealing jaw 252 of the sealing member 250 and the contents inlet 242 of the piston rod 240 is closed.

When the piston rod 240 is moved upward, the shaft 222 of the check valve 220 which is slidably coupled to the piston rod 240 is lifted by the piston rod 240 as shown in FIG. 6C. Thus, the content inlet 214 of the housing 210 closed by the bottom of the shaft 222 is slightly open.

When the piston rod 240 and the sealing member 250 are moved upward while the contents inlet 242 is closed by the restoring force of the elastic spring 280 as shown in FIG. Vacuum pressure is generated in the interior of the shaft 222, the lower surface of the elevating means fixing member 230 is raised to the lifting limit range to completely open the contents suction port 214. Accordingly, the contents of the container 30 are sucked into the housing 210 through the contents suction port 214. As such, the process of suctioning the contents of the container 30 into the interior of the housing 210 is continued while there is a vacuum pressure inside the housing 210.

Meanwhile, when the elastic spring 280 is completely restored and the contents are completely sucked into the housing 210, the shaft 222 is lowered by the elastic force of the elastic piece 226 to lower the contents suction port 214 under the housing 210. ).

As described above, according to the present invention, it is possible to uniformly control the discharge amount of the contents, to prevent the contents inside the housing from flowing back to the inside of the container, and also to prevent the contents from being deteriorated.

The present invention is not limited to the above-described embodiments and can be carried out in various modifications within the range allowed by the technical idea of the present invention.

As described above, according to the present invention is formed in the lower center of the housing through the clamping force of the shaft and the piston rod which is moved to the lower and upper by the pumping operation and release of the button, the contents intake in which the contents inside the container is sucked By opening and closing the effect of uniformly controlling the amount of the contents introduced into the housing when the vacuum pressure is generated.

Another effect of the present invention is to open and close the inlet of the housing through the clamping force of the shaft and the piston rod which is moved to the lower and upper by the pumping operation and release of the button, the contents flowing into the housing when the vacuum pressure is generated It is possible to prevent the case from being flowed back to the inside of the container and lost.

Another effect of the present invention is to improve the structure to prevent the contact between the contents and the metal material can prevent the corrosion of the metal material or the deterioration of the contents that may be caused by it.

Further, the present invention forms a rib related to the inner diameter of the spring in addition to the above-described effects to prevent the bias in one direction of the spring by fixing the position of the spring, while the rotation to prevent the rotation of the spring during the pumping operation of the button Through the configuration of the jaw, it is possible to prevent malfunction of the component or damage of the component.

Claims (7)

A dispenser cap fixedly coupled to the contents filling opening at the top of the container, a button installed on an upper side of the dispenser cap so as to be elevated, a nozzle installed at one side of the button to discharge the contents, and installed inside the dispenser cap. And a dispenser assembly for discharging the contents of the inside of the container through the nozzle while pressing the button and sucking the contents filled in the container into the container by the pressing of the button. In The dispenser assembly may include: a housing having an inner space formed at an upper side thereof and having a content suction port through which a content inside the container is sucked at a lower center thereof, the housing being coupled to the inner lower portion of the dispenser cap; A check valve installed at an inner lower portion of the housing and formed upright at a predetermined height, the check valve including a shaft for opening and closing the contents suction port of the housing and a lifting means for supporting a lower portion of the shaft to move up and down a predetermined range; An elevating means fixing member fixed to an inner lower portion of the housing through an outer circumferential surface of the check valve to fix the elevating means of the check valve; The inside of the housing is slidably coupled to the shaft through the lower inner side of the through hole penetrated up and down, while a content inlet for introducing the contents of the inside of the housing is formed on one side, so that the vacuum pressure and the pressing force inside the housing. A piston rod for elevating the shaft to generate the contents inlet opening and closing when it occurs; A shaft clamping protrusion formed on an inner circumferential surface of the lower side of the through-hole of the piston rod with an inner diameter smaller than the outer diameter of the shaft to forcibly fit the shaft while moving up and down by the lifting range of the shaft when the piston rod is moved up and down; A sealing member formed on an outer circumferential surface of the piston rod to seal between the piston rod and an inner circumferential surface of the housing, and a sealing jaw formed at an inner lower end thereof to open and close the contents inlet through close contact and separation with a lower outer circumferential surface of the piston rod; A housing cap coupled to and fixed to an inner upper portion of the housing in a state where the piston rod penetrates to restrict an upward movement position of the sealing member through a lower end thereof; A stem coupled to an upper portion of the piston rod so as to form a clearance gap X between the upper end of the sealing member and a lower inner portion of the button through an upper side to communicate with the piston rod and the nozzle; An elastic spring installed between the housing cap and the stem so that the force acts in a direction to always return the stem to the stem; And Dispensing, characterized in that it comprises a spring fixing means for preventing the rotation of the elastic spring to fix the position while preventing rotation. The support of claim 1, wherein the lifting means of the check valve has a cylindrical shape in which the outer diameter is formed in relation to the inner diameter of the fixing means fixing member, and the contents sucked through the contents suction port of the housing flow into the housing. ; And Elasticity between the outer peripheral surface of the lower side of the shaft and the inner circumferential surface of the support is elastically connected in a horizontally bent structure, but is formed to a thickness thinner than the upper and lower thicknesses of the support, so that the force acts in the direction to always return the shaft Dispenser, characterized in that consisting of pieces. The dispenser according to claim 2, wherein the shaft of the check valve is lifted by a clearance Y between an upper surface of the elastic piece and a lower surface of the elevating means fixing member. The method of claim 1, wherein the spring fixing means is formed on the upper flange surface of the housing cap a plurality of equal intervals, the diameter of the circle connecting each of which is formed in relation to the inner diameter of the elastic spring cap; A cap side anti-rotation jaw formed integrally with the respective cap side spring fixing ribs to prevent rotation by catching the lower end of the elastic spring; A spring support plate formed in a disc shape having a diameter larger than an outer diameter of the elastic spring on an outer circumferential surface of the stem to support the elastic spring between the housing cap and the housing cap; A stem-side spring fixing rib which is formed on the lower surface of the spring support plate at equal intervals and whose diameters of connecting circles are formed in relation to the inner diameter of the elastic spring; And And a stem side anti-rotation jaw formed integrally with each of the stem side spring fixing ribs to prevent rotation by catching the upper end of the elastic spring. The clearance X formed between any one of claims 1 to 4, wherein the clearance X formed between the lower end of the stem and the upper end of the sealing member limits the upward movement position of the sealing member when the stem is in the original position. A dispenser characterized by being held by a housing cap. 6. The contents of the piston rod according to claim 5, wherein the clearance (X) disappears or is generated by pressing and releasing the button so as to space or contact the lower peripheral surface of the piston rod and the sealing jaw of the sealing member. Dispenser to open and close the inlet. The method of claim 6, wherein the coupling between the upper portion of the piston rod and the inner circumferential surface of the stem has a plurality of engaging grooves formed in the inner circumferential surface of the stem and a plurality of engaging grooves formed in the upper circumferential surface of the piston rod in relation to the engaging groove. Dispensing, characterized in that the piston rod is fixed to the stem by the coupling of the engaging projection.