KR102017318B1 - Dispenser pump - Google Patents

Abstract

The present invention relates to a dispenser pump, comprising: a head having a nozzle for discharging contents and provided to be elevated; A shaft which is provided to be elevated up and down with the head and is provided with a first inlet around a lower side thereof; A housing provided around the shaft to accommodate contents; A piston in close contact with an inner wall of the housing and an outer wall of the shaft; And a stem provided at a lower side of the shaft and having an upper end of the circumference in contact with the piston, and having a second inlet. Push up to open the first inlet.

Description

Dispenser pump

The present invention relates to a dispenser pump, and more particularly, to a dispenser pump having a structure for accumulating pressure.

A pump may be used to discharge various kinds of contents made of a liquid phase. The pump is coupled to the spout of the container, it is possible to discharge the contents stored inside the container to the outside by pressing the head.

For example, the pump may be composed of a housing that sucks the contents, a stem which is moved by the pressing of the head in the housing, an inlet is formed on the outside and communicates with the head, and a piston is provided around the stem and opens and closes the inlet. .

In such pumps, the stem is lowered with the head when the head is first pressed, with the inlet opening of the stem open as the piston does not lower in close contact with the inner wall of the housing. Then, when the head is pressed secondly, as the stem and the piston descend together while the inlet is opened, the internal pressure of the housing rises, and the contents can be discharged to the outside while being introduced into the stem through the inlet.

On the contrary, when the user releases the head, the head is raised upward by the spring. At this time, the stem is raised together with the head, but the piston is not raised in close contact with the inner wall of the housing to block the inlet. When the head and stem are further raised by the spring, the piston also rises with the stem, lowering the internal pressure of the housing. Therefore, the contents stored in the container flows into the housing.

However, there is a demand to spray the contents of the liquid in the form of a mist (mist), conventionally it may be provided with a nozzle having a very small hole inside the head to implement the contents injection in the form of mist while using such a pump. .

Since the holes in the nozzle are so small that they can change the contents into a mist form, the user can only take the contents by pressing the head with high pressure. However, women who have difficulty in pressing the head with a strong force have a problem that will cause discomfort, and if the user cannot press with a strong force, quality dissatisfaction often occurs as the contents are sprayed like a water gun rather than sprayed into a mist.

The present invention was created to solve the problems of the prior art as described above, and an object of the present invention is to provide a dispenser pump that can be used to conveniently spray the contents in the form of a mist by implementing a pressure accumulation structure. will be.

Dispensing pump according to an aspect of the present invention, the head having a nozzle for discharging the contents are provided to move up and down; A shaft which is provided to be elevated up and down with the head and is provided with a first inlet around a lower side thereof; A housing provided around the shaft to accommodate contents; A piston in close contact with an inner wall of the housing and an outer wall of the shaft; And a stem provided at a lower side of the shaft and having an upper end of the circumference in contact with the piston, and having a second inlet. Push up to open the first inlet.

Specifically, the stem may have a pressure reservoir, the upper end of which is surrounded by a circumferential wall that abuts the piston.

Specifically, the stem may have a protrusion coupled to the shaft at a central portion.

Specifically, the first elastic member to the upper side is in contact with the shaft and the lower side is in contact with the piston to provide a downward elastic force to the piston; And a second elastic member having an upper side contacting the stem and a lower side contacting the housing to provide an upward elastic force to the head through the stem.

In detail, the first elastic member may lower the piston when the shaft descends.

Specifically, the shaft may be provided with a ring frame for supporting the upper side of the first elastic member on the outer surface.

Specifically, the first elastic member may be compressed when the internal pressure of the pressure reservoir increases and the contents of the pressure reservoir push up the piston.

In detail, the first inlet may be opened by increasing the internal pressure of the pressure reservoir so that the contents of the pressure reservoir may push up the piston while compressing the first elastic member.

Specifically, the housing may be provided with an opening for sucking the contents below and a valve for opening and closing the opening.

Specifically, the container body for receiving the contents; And a container coupling part for coupling the housing to the container body.

As the dispenser pump according to the present invention has a structure in which the contents are compressed, the contents may be evenly and smoothly sprayed even in a mist form even when the head is slowly pressed with a weak force, thereby increasing user satisfaction and convenience.

1 is a perspective view of a dispenser pump according to an embodiment of the present invention.
2 is a cross-sectional view of the dispenser pump according to an embodiment of the present invention.
3 is a cross-sectional view of the dispenser pump according to an embodiment of the present invention.
4 is a cross-sectional view of the dispenser pump according to an embodiment of the present invention.

The objects, specific advantages and novel features of the present invention will become more apparent from the following detailed description and the preferred embodiments associated with the accompanying drawings. In the present specification, in adding reference numerals to the components of each drawing, it should be noted that the same components as possible, even if displayed on different drawings have the same number as possible. In addition, in describing the present invention, if it is determined that the detailed description of the related known technology may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following, the up / down, the top / bottom, the top / bottom, etc. are only expressed based on the drawings, and are not necessarily limited to the top / bottom.

1 is a perspective view of a dispenser pump according to an embodiment of the present invention, and FIGS. 2 to 4 are cross-sectional views of the dispenser pump according to an embodiment of the present invention.

2 shows a state in which the head 20 is not pressed, FIG. 3 shows a state in which the head 20 is primarily pressed, and FIG. 4 shows a state in which the head 20 is pressed second.

1 to 4, the dispenser pump 1 according to an embodiment of the present invention, the container body 10, the head 20, the shaft 30, the housing 40, the piston 50, A stem 60, a first elastic member 70, a second elastic member 80, and a container coupling portion 90 are included.

The container body 10 accommodates contents. In the present embodiment, the contents may be cosmetics, for example, oral cleansers. However, the present embodiment does not specifically limit the type of the contents, but the contents may be a liquid material that is preferably sprayed in the form of a mist.

The container body 10 may be in the form of a cylinder, or the like, and may be made of a material such as metal or synthetic resin, and may be made of at least a part of a transparent / translucent material to show the remaining amount of the contents to the user.

The container body 10 may have an open top shape, and the upper periphery may protrude upward to form a spout (not shown). Spout is coupled to the container coupling portion 90 to be described later, the configuration of the housing 40, etc. can be seated on the container body (10). The outer wall of the spout and the inner wall of the container coupling portion 90 may be coupled to each other, the outer wall of the spout may be provided with an unlimited coupling structure such as a screw thread (not shown).

The head 20 is provided with a nozzle 21 for discharging the contents so as to be able to move up and down. In this case, the lifting means lifting and lowering based on the container body 10, and the lowering of the head 20 is made by the user's pressing and the raising of the head 20 is made by the second elastic member 80 which will be described later. Can be.

The head 20 has a discharge passage 23 in communication with the inside of the shaft 30 provided in a hollow form, has a discharge port 22 at an outer end of the discharge passage 23, and has a discharge passage 23 and a discharge hole. Through 22, the contents can be discharged to the outside. At this time, the nozzle 21 is provided in the discharge path 23 to reduce the cross section of the flow path through which the contents flow, so that the contents are sprayed in the form of mist.

One or more nozzles 21 may be provided in the discharge path 23, and the penetrated size of the nozzles 21 may gradually decrease from the upstream to the downstream based on the flow direction of the contents. Of course, the shape or arrangement of the nozzle 21 is not particularly limited, and may be provided in various ways to change the liquid contents into mist.

The head 20 is coupled to the shaft 30 at the lower side, the head 20 and the shaft 30 may be assembled and lifted integrally by a method such as interference fit. Of course, the head 20 and the shaft 30 may be assembled by screwing or the like.

The shaft 30 is provided so that the shaft 20 can be elevated as one body. When the head 20 is lowered by the user's pressing, the shaft 30 is also lowered. When the head 20 is raised by the second elastic member 80, the shaft 30 is also raised.

Rather, the shaft 30 may be raised by the stem 60 that the second elastic member 80 pushes up rather than by the head 20, and the shaft 30 is raised to raise the head 20. By pushing up), the head 20 may be raised.

The shaft 30 has a hollow shape, and contents can flow therein. However, the lower end of the shaft 30 may have a sealed shape, and a first inlet 31 communicating with the inside of the shaft 30 may be provided around the lower side of the shaft 30.

The first inlet 31 may be provided in plural along the lower circumference of the shaft 30, and the first inlet 31 may be opened and closed by the piston 50. In this case, the opening and closing means being in communication with the interior of the housing 40 or isolated from the interior of the housing 40.

In the state in which the head 20 is not pressed, the first inlet 31 may be kept closed by the piston 50, and in the state in which the head 20 is primarily pressed by the piston 50. Can be set.

However, when the internal pressure of the stem 60 is increased while the head 20 is secondarily pressed, the first inlet 31 may be opened while the piston 50 is lifted by the contents trying to escape from the inside of the stem 60 to the outside. Can be.

That is, the first inlet 31 is not opened at the same time as the head 20 is pressed, but may be delayed until the pressure of the contents is sufficiently high during the pressing operation of the head 20. In this embodiment, even if the head 20 is pressed slowly, the contents can be discharged at a high pressure through the structural connection of the components.

The desired pressure at which the contents should be discharged may vary according to the composition of the contents, and the like, and the discharge pressure of the contents may be determined as the vertical position of the first inlet 31 is changed.

When the depth of the head 20 is primarily pressed as a first stroke and the depth at which the head 20 is pressed second is a second stroke, the total length of the head 20 depends on the vertical position of the first inlet 31. The ratio of the first stroke to the second stroke may be different from the stroke.

For example, the first stroke does not change according to the position of the first inlet 31, and the second stroke is changed. If the first inlet 31 is located at the lower side, the second stroke is shortened, and if the first inlet 31 is located at the upper side, the reverse is the opposite. Therefore, the vertical position of the first inlet 31 may be optimally determined in consideration of the composition of the contents, the characteristics of the user, and the like.

The annulus 32 is provided around the outer surface of the shaft 30, and the upper edge of the first elastic member 70 may contact the annulus 32. The first elastic member 70 is provided between the shaft 30 and the piston 50, and may push down the piston 50 when the shaft 30 is lowered.

However, when the contents escaped by the internal pressure rise of the stem 60 push the piston 50, the first elastic member 70 may be compressed in contact with the annulus 32 of the shaft 30, which will be described later. do.

The rod 33 is provided at the inner center of the shaft 30. The rod 33 may be provided inside the first inlet 31 in the shaft 30. The rod 33 reduces the cross-sectional area of the portion where the first inlet 31 is formed in the shaft 30, so that shear stress is generated on the contents introduced into the shaft 30 through the first inlet 31. You can do that.

The housing 40 is provided around the shaft 30 and accommodates the contents. The housing 40 may accommodate the contents by sucking the contents from the container body 10. For this purpose, an opening 41 for sucking the contents is provided at the lower side of the housing 40 protruding toward the inside of the container body 10. Prepared.

The opening 41 may be provided with a tube (not shown) extending toward the inner bottom of the container body 10, but the tube may be omitted depending on the specifications of the contents.

The opening 41 may be provided with a valve 42 for opening and closing the opening 41. The valve 42 opens the opening 41 in the direction in which the contents are sucked into the housing 40 from the inside of the container body 10, and then seals the opening 41 when the internal pressure of the housing 40 rises. You can.

That is, the valve 42 may be a one-way valve 42 that allows only suction of the contents and restricts discharge from the housing 40 toward the container body 10. For example, the valve 42 may be a ball valve 42. Etc. can be used. When the valve 42 is the ball valve 42, a protrusion 43 may be provided on the upper side of the valve 42 to prevent the ball valve 42 from being separated.

The upper end of the housing 40 may be coupled to the container body 10 through the container coupling portion 90, and of course, the container coupling portion 90 may be omitted and the housing 40 may be directly coupled to the container body 10. It is also possible. That is, the housing 40 may maintain the state coupled to the container body 10 using various methods.

The second elastic member 80 may be seated on the bottom surface of the housing 40. The lower side of the second elastic member 80 may be in contact with the periphery of the opening 41 in the housing 40, and the upper side thereof may be in contact with the stem 60. When the head 20 is compressed, the shaft 30 and the stem 60 are lowered, and the second elastic member 80 is compressed. On the contrary, when the pressure applied to the head 20 disappears, the second elastic member 80 pushes up the stem 60 upwards, so that the shaft 30 and the head 20 rise.

The piston 50 may abut against the inner wall of the housing 40, and the piston 50 may be lowered by the first elastic member 70 in contact with the inner wall of the housing 40, or may be in the stem 60. It is noted that the rise by the contents (hereinafter, the rise of the piston 50 in this specification is a rise of the shaft 30, not the housing 40, may be a fixed position on the inner wall of the housing 40). .)can do. As will be described later, due to the shape of the piston 50, the inner wall of the housing 40 is in contact with the piston 50 at least two points, such as at least the top and the bottom can be prevented leakage.

The piston 50 is in close contact with the inner wall of the housing 40 and the outer wall of the shaft 30. The piston 50 may have a form in which the outer surface is recessed inwardly, through which the outer surface of the piston 50 may be in close contact with the inner wall of the housing 40 at two or more points such as an upper end and a lower end.

In addition, the piston 50 may have a form in which the inner surface is also recessed outward, and thus the inner surface of the piston 50 may be in close contact with the outer wall of the shaft 30 at a plurality of points such as an upper end and a lower end.

Through the shape of the piston 50, the present embodiment, by implementing a line contact in place of the surface contact to prevent the loss of pressure and to effectively store the pressure, it is possible to prevent the leakage of leakage more stably.

However, since the recessed portion in the inner surface of the piston 50 constitutes a space communicating with the first inlet 31, the inner surface of the piston 50 is recessed outward but at least the first inlet of the inner surface of the piston 50. A portion opening and closing 31 may be provided so as not to be recessed or relatively less recessed.

The piston 50 may have an elongate shape and a cross section similar in shape to the X, but the shape is not limited as long as it can realize a plurality of line contacts on the inner wall of the housing 40 and the outer wall of the shaft 30. Do not.

The upper and lower surfaces of the piston 50 may also have a shape recessed toward the center of the piston 50 like the inner and outer surfaces of the piston 50. In this case, the upper surface of the piston 50 may have a first elastic member 70. The lower end of the) may be seated, and the upper end of the circumferential wall 62 of the stem 60 may be seated on the lower surface of the piston 50.

The piston 50 receives a downward elastic force by the first elastic member 70 in which the upper end abuts against the shaft 30. When the piston 30 descends, the piston 50 comes into close contact with the inner wall of the housing 40. It may not remain without, and can be lowered with the shaft 30. Therefore, the first inlet 31 is kept closed by the piston 50.

However, when the shaft 30 is further lowered, the pressure inside the stem 60 increases, and the piston 50 moves upward by the contents while the contents inside the stem 60 exit the circumferential wall 62. The first elastic member 70 may be compressed and the first inlet 31 may be opened.

The stem 60 is provided below the shaft 30, and the upper end of the circumference abuts the piston 50. Stem 60 may have a form that can temporarily store the contents therein, for example may be in the form of a cylinder or dish / bowl or the like.

The stem 60 is provided with a second inlet 61 at the bottom surface. The second inlet 61 may communicate the interior of the housing 40 with the interior of the stem 60. However, in the course of the relatively rapid movement of the dispenser pump 1, the interior of the stem 60 may exhibit a function similar to a closed system.

The stem 60 has a circumferential wall 62 whose upper end is in contact with the piston 50. The circumferential wall 62 may vary depending on the shape of the shaft 30, but the cross section forms a closed loop, for example, a ring. It may be in the form.

The inner side of the circumferential wall 62 may be referred to as a pressure reservoir 63. The pressure reservoir 63 is defined as the inner portion of the stem 60 surrounded by the circumferential wall 62 and the contents are transferred from the housing 40 to the pressure reservoir 63 via the second inlet 61. do.

When the head 20 is lowered, the internal pressure of the housing 40 is increased while the stem 60 and the piston 50 are also lowered. At this time, the contents of the housing 40 gradually enter the pressure storage unit 63. As a result, the internal pressure of the pressure reservoir 63 is increased. That is, the pressure storage unit 63 may be configured to store the pressure of the contents until immediately before the contents are discharged.

When the head 20 is primarily pressed, the contents are primarily compressed in the housing 40, and the contents are secondarily compressed while the contents are gradually introduced into the pressure storage unit 63 through the second inlet 61. . However, secondary compression may be finer than primary compression. This may be similar to the adjustment of the coarse and fine screw of a microscope. That is, in the present embodiment, the pressure may be largely stored through the interior of the housing 40, and the pressure may be stored in a small unit through the pressure storage unit 63.

Then, when the pressure is accumulated in the pressure storage unit 63 above the predetermined pressure, the head 20 is pressed secondarily, the piston 50 is slightly raised to open the first inlet 31, and the contents of the shaft 30 are opened. It is introduced into the inside, in which the shear stress is generated as the contents are rapidly introduced through the narrow space around the rod 33, so that the mist can be evenly discharged through the discharge port 22.

In other words, when the stem 60 is lowered by the shaft 30, the internal pressure increases to allow the contents of the inner side (the pressure reservoir 63) to push up the piston 50 to open the first inlet 31. The pressure of the contents may be stored until the contents of the pressure storage unit 63 push up the piston 50.

In this embodiment, the contents can be discharged only at a predetermined pressure or higher while storing the pressure, so that the mist can be smoothly sprayed without pressing the head 20 quickly and strongly.

The stem 60 has a projection 64 that abuts the shaft 30 at the central portion. The center of the lower end of the shaft 30 may have a shape protruding downward to correspond to the protrusion 64, and the periphery of the protrusion 64 in the stem 60 forms the pressure storage 63. Therefore, the volume of the pressure reservoir 63 may vary according to the height of the protrusion 64.

The protrusion 64 is configured to secure the volume of the pressure storage unit 63 while allowing the stem 60 to be coupled with the shaft 30. The shape of the stem 60 may be defined by the shaft (even without the protrusion 64). If it can be combined with the 30 and there is no problem in securing the volume of the pressure reservoir (63), the projection (64) can be omitted.

The first elastic member 70, the upper side abuts the annulus frame 32 of the shaft 30 and the lower side abuts the piston 50 to provide a downward elastic force to the piston 50. The first elastic member 70 may be a spring or the like, and may lower the piston 50 when the shaft 30 is lowered.

In general, the piston in the pump is provided to open the inlet opening while the lowering is limited by the friction force, unlike the conventional embodiment, as the piston 50 is given the elastic force by the first elastic member 70, the head ( When 20 is pressed, it can move downward with the shaft 30.

In this case, the piston 50 may maintain the sealed state of the first inlet 31 provided in the shaft 30. However, when the head 20 is secondarily compressed, the internal pressure of the pressure reservoir 63 of the stem 60 rises, so that the contents of the pressure reservoir 63 push up the piston 50. 70 may be compressed.

That is, since the pressure stored in the pressure storage unit 63 may vary according to the elastic force of the first elastic member 70, the specifications of the first elastic member 70 are similar to the position of the first inlet 31 described above. This may be variously determined according to the pressure to be discharged.

The second elastic member 80, the upper side abuts the stem 60 and the lower side abuts the housing 40 to provide an upward elastic force to the head 20 through the stem 60. The second elastic member 80 pushes up the stem 60 by using an elastic force, and the shaft 30 and the head 20 may be raised through the stem 60.

On the other hand, when the head 20 is pressed, the second elastic member 80 may be compressed while the shaft 30 and the stem 60 are lowered. The second elastic member 80 may be a spring or the like like the first elastic member 70.

The container coupling portion 90 couples the housing 40 to the container body 10. The container coupling portion 90 may be combined with the upper circumference of the housing 40 to be integrated with the housing 40, and may be coupled to the spout of the container body 10 by using a thread 91 provided on the inner wall.

Of course, the manner in which the container coupling portion 90 is coupled to the container body 10 is not particularly limited, and when the housing 40 is directly coupled to the container body 10, the container coupling portion 90 may be omitted. As described above.

The container coupling portion 90 may be provided so that the upper side surrounds the periphery of the head 20, thereby forming a neat appearance. In addition, by covering the coupling portion of the head 20 and the shaft 30, leakage of the contents can be further prevented.

Hereinafter, the pumping operation of the present embodiment will be described in detail with reference to FIGS. 2 to 4.

Referring to FIG. 2, in which the head 20 is not pressed first, as the stem 60 and the piston 50 are positioned upward, the inside of the housing 40 may be in an uncompressed state. The elastic member 80 is placed in a relatively uncompressed state compared to FIGS. 3 and 4.

At this time, the piston 50 in close contact with the inner wall of the housing 40 is in a position to seal the first inlet 31 formed in the shaft 30. Therefore, the contents in the dispenser pump 1 may be separately contained within the housing 40, the pressure storage 63, and the shaft 30. Of course, this is after the contents are first discharged, and when the contents are first discharged, the pressure storage unit 63 may be empty.

3, the head 20 is first pressed, the head 20 is lowered by the first stroke compared to FIG. 2, and the shaft 30 is also lowered by the same distance. At this time, since the lower end of the shaft 30 is in contact with the protrusion 64 of the stem 60, the stem 60 is also lowered in the same manner.

When the head 20 is pressed down, the shaft 30 is pushed down to push down the upper end of the first elastic member 70. The first elastic member 70 is less than a frictional force between the inner wall of the housing 40 and the piston 50. As the elastic force of the larger is formed, the piston 50 in close contact with the inner wall of the housing 40 is lowered without maintaining its position.

Therefore, the piston 50 continuously maintains the state in which the first inlet 31 is sealed. However, when the piston 50 is also lowered when the stem 60 is lowered, the internal pressure is increased because the interior of the housing 40 is closed while the volume is reduced.

When the internal pressure of the housing 40 rises, the contents stored in the housing 40 may flow into the pressure reservoir 63 through the second inlet 61 provided in the stem 60. That is, when the head 20 first descends, the internal pressure of the housing 40 is increased and the internal pressure of the pressure reservoir 63 is finely increased.

The pressure reservoir 63 is placed in a closed state except for the second inlet 61 by the circumferential wall 62 at which the upper end is in contact with the piston 50, and thus the pressure reservoir during the first lowering of the head 20. The internal pressure of 63 increases gradually.

4, the head 20 is pressed secondarily, the head 20 is further lowered by a second stroke compared with FIG. 3, and the internal pressure of the pressure storage unit 63 exceeds a preset value. According to the island, the contents of the pressure reservoir 63 push up the piston 50 while compressing the first elastic member 70.

In this case, the piston 50 moves upward with respect to the shaft 30 (as described above, the position may be fixed in the housing 40), and the first inlet 31 has been blocked. The piston 50 is shifted upwards from the first inlet 31. Therefore, the first inlet 31 is opened due to the increase in the internal pressure of the pressure reservoir 63.

At this time, the contents of the predetermined pressure stored in the pressure storage unit 63 flow into the shaft 30 along the first inlet 31, and the rod 33 is provided in the shaft 30, so that the rod 33 ) Content flows quickly through the narrow space around it. Thereafter, the contents may be discharged through the discharge port 22 through the discharge passage 23 and the nozzle 21 of the head 20.

Therefore, the contents may be compressed in the pressure reservoir 63 until the piston 50 opens the first inlet 31, and as the first inlet 31 is opened by the sufficiently compressed contents, the contents may be It can be sprayed evenly at a constant pressure.

As described above, the present embodiment has the advantage that the mist is evenly sprayed even when the head 20 is slowly pressed by allowing the contents to be discharged only by a predetermined pressure while the pressure is stored when the contents are discharged by pumping.

The present invention has been described above with reference to the embodiments of the present invention. However, the present invention is only an example, and is not intended to limit the present invention. Those skilled in the art will not depart from the essential technical details of the present embodiment. It will be appreciated that various combinations or modifications and applications which are not exemplified in the embodiments are possible in scope. Therefore, technical matters related to modifications and applications easily derivable from the embodiments of the present invention should be interpreted as being included in the present invention.

1: dispenser pump 10: container body
20: head 21: nozzle
22: discharge port 23: discharge path
30: shaft 31: first inlet
32: Fante 33: Lord
40: housing 41: opening
42: valve 43: protrusion
50: piston 60: stem
61: second inlet 62: circumferential wall
63: pressure reservoir 64: protrusion
70: first elastic member 80: second elastic member
90: container coupling portion 91: thread

Claims (10)

As a pump for spraying the contents in the form of a mist,
A head provided to be movable up and down with a nozzle for discharging the contents;
A shaft which is provided to be elevated up and down with the head and is provided with a first inlet around a lower side thereof;
A housing provided around the shaft to accommodate contents;
A piston in close contact with an inner wall of the housing and an outer wall of the shaft; And
A stem provided below the shaft and having an upper end of the circumference in contact with the piston, the second inlet being provided;
The stem, when lowered by the shaft, the internal pressure rises to cause the inner contents to push up the piston to open the first inlet,
The nozzle is provided in a discharge path for discharging the contents from the head to reduce the cross section of the flow path so that the contents are sprayed in the form of a mist,
And a rod provided inside the first inlet at an inner center of the shaft to reduce a cross-sectional area inside the shaft. The method of claim 1, wherein the stem,
A dispenser pump, characterized in that the upper end has a pressure reservoir surrounded by a circumferential wall which abuts the piston. The method of claim 1, wherein the stem,
Dispenser pump, characterized in that the central portion has a protrusion coupled to the shaft. The method of claim 2,
A first elastic member having an upper side contacting the shaft and a lower side contacting the piston to provide a lower elastic force to the piston; And
And a second elastic member having an upper side contacting the stem and a lower side contacting the housing to provide an upward elastic force to the head through the stem. The method of claim 4, wherein the first elastic member,
Dispensing pump, characterized in that for lowering the piston lowers the piston. The method of claim 4, wherein the shaft,
Dispenser pump, characterized in that the outer frame is provided on the outer frame for supporting the upper side of the first elastic member. The method of claim 4, wherein the first elastic member,
Dispensing pump, characterized in that the pressure is increased when the internal pressure rises the contents of the pressure reservoir to push up the piston. The method of claim 7, wherein the first inlet,
The internal pressure of the pressure reservoir is increased so that the contents of the pressure reservoir is opened by pushing up the piston while compressing the first elastic member. The method of claim 1, wherein the housing,
A dispenser pump, characterized in that an opening is provided on the lower side and has a valve for opening and closing the opening. The method of claim 1,
A container body accommodating the contents; And
Dispenser pump further comprises a container coupling portion for coupling the housing to the container body.

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