KR102145131B1 - Pump vessel - Google Patents

Abstract

The present invention relates to a pump container capable of easily sucking contents. According to the present invention, the pump container includes: a container; a pump body; a shoulder member; and a discharge nozzle, wherein the pump body includes a cylinder housing, a piston housing, a piston coupling member, a piston, an opening/closing packing member, a check valve, a cylindrical spring assembly, and a member, and the cylindrical spring assembly includes a first cylindrical spring and a second cylindrical spring coupled to an outer peripheral side of the first cylindrical spring to prevent first and second twisted parts from protruding to an outside when the first cylindrical spring is compressed.

Description

Pump vessel

The present invention relates to a pump container, and more particularly, the internal volume of the cylinder is reduced by the pressing operation of the discharge nozzle, and the contents are discharged to the outside. An eco-friendly plastic spring in the cylinder housing, that is, a first cylindrical spring Consisting of combining a second cylindrical spring to the outer periphery of the first cylindrical spring, when the first cylindrical spring is compressed, the first and second twisted portions are prevented from protruding outward through the second cylindrical spring, thereby doubling the compression and expansion force. It is related to an eco-friendly pump container because it is easy to suck in and has good pumping power and does not use a steel spring.

A hand-operated small pump is installed in a container that contains household goods in the form of a fluid that is widely used in everyday life, so the contents are discharged out by a certain amount by simply pressing the pump, so it can be used easily. Such a pump device is called a'dispenser', and when the pump is pressed, the contents contained in a chamber inside the pump are discharged to the outside through a nozzle. When the force pressing the pump is removed, the pump returns to its original state by the elastic force of the spring installed between the container and the pump, and the contents of the container are sucked into the chamber in the pump.

Such a dispenser is also widely used in shampoo containers, and is used to conveniently discharge and use a certain amount of shampoo solution contained in the shampoo container. In the past, a cap that was covered with a general lid and provided with an outlet through which the shampoo solution was discharged was used, but there was inconvenience such as having to pressurize the shampoo container. Due to the structural advantage of preventing the wastage of solution, it is installed and used in most of the sampoo containers.

There is a conventional dispenser 100 (for registration room 20-0428943) manufactured for the above purpose. Referring to FIG. 12, a container 20 in which a liquid is accommodated, a housing 22 fixed to the opening side of the container 20 and formed downward, and having a negative pressure hole, and a user in the housing 22 A hollow shaft (23) that moves up and down by pressing the piston (24) that is connected to the lower portion of the shaft (23) to pressurize or depressurize the interior of the housing (22), the shaft (23) And a nozzle head 31 fixed to the upper portion of the shaft 23 while communicating with and a chaflet 26 fixed to the upper end of the housing 22 and positioned between the housing 22 and the shaft 23 The spring 25 is located inside the housing 22 and has an upper end in contact with the lower end of the piston 24, and an outlet hole is formed between the shaft 23 and the chaflet 26 to secure the inflow and outflow of air. Is produced.

Such a conventional dispenser has to pull up the contents from the end of the tube 30 when pumping, that is, the lowermost end, so the pumping power is low and the probability of pumping failure is high. There is a problem that it is difficult to press the button and the discharge power of the steel material is lowered, and since the steel spring 25 is built into the housing 22, it is always in contact with the liquid inside the container. There is a risk of deterioration of the dispenser, there is a problem that the manufacturing cost is high due to the excessive number of parts constituting the dispenser, and there is a problem that it cannot be recycled when the dispenser is disposed of because the steel spring and plastic are assembled together.

The present invention was invented to meet the needs of the prior art described above, and the contents of the cylinder are reduced by the pressing operation of the discharge nozzle, and the contents are discharged to the outside. 1 Consisting of combining a second cylindrical spring to the outer periphery of the cylindrical spring, when the first cylindrical spring is compressed, the first and second twisted portions are prevented from protruding outward through the second cylindrical spring, thereby reducing compression and expansion forces. The purpose is to provide an eco-friendly pump container by doubling the contents so that it is easy to suck in, pumping power is good, and no steel spring is used.

In the pump container of the present invention, the cylindrical spring assembly is coupled to an outer peripheral side of the first cylindrical spring and the first cylindrical spring in the center so that the first and second twist portions do not protrude outward when the first cylindrical spring is compressed. It is characterized in that it is made of a second cylindrical spring that prevents it.

The first cylindrical spring is made of a plastic material, an upper ring plate having a hole formed in the center, a first twist part that descends while rotating in a clockwise direction from a lower surface of one side of the upper ring plate), and A lower ring plate that is an annular member connecting the lower ends of the first and second twisted portions to the second twisted portion that descends while rotating in the same direction as the first twisted portion from the other lower surface, which is a symmetrical position with respect to one lower surface And, a lower ring plate formed to have a larger diameter at a regular interval at a lower portion of the lower ring plate, a plurality of tension pillars connected to the lower side of the lower ring plate at equal intervals, and a lower side of the plurality of tension pillars It consists of a connected lower circular ring; The second cylindrical spring descends while rotating downward from the outer upper ring plate coupled to the side surface of the upper ring plate of the first cylindrical spring and the outer upper ring plate, the first and second of the first cylindrical spring. A member of a ring plate shape connecting an outer twist portion that descends while rotating in a direction opposite to the rotation direction of the twist portion, and a lower end of the outer twist portion, the inner periphery of the lower ring plate and the lower ring plate of the first cylindrical spring It characterized in that the outer lower ring plate is inserted into the groove between.

According to the pump container of the present invention, the internal volume of the cylinder is reduced by the pressing operation of the discharge nozzle, and the contents are discharged to the outside. The second eco-friendly plastic spring in the cylinder housing, that is, the outer circumference of the first cylindrical spring. Consisting of combining cylindrical springs, the second cylindrical spring prevents the first and second twisted portions from protruding outward when the first cylindrical spring is compressed, thereby doubling the compression and expansion force to facilitate the suction of the contents, and pumping It has the effect of being eco-friendly because it has good power and does not use a steel spring.

1 is a cross-sectional view showing a container pump according to a first embodiment of the present invention,
2 is a cross-sectional view showing when the pump container according to the first embodiment of the present invention operates,
3 is a cross-sectional view showing a pump container according to a second embodiment of the present invention,
Figure 4 is a cross-sectional view showing the operation of the pump container according to the second embodiment of the present invention,
5 is a cross-sectional view showing a pump container according to a third embodiment of the present invention,
6 is a cross-sectional view showing when the pump container according to the third embodiment of the present invention is operated,
7 is an exploded perspective view showing a cylindrical spring applied to the first to third embodiments of the present invention,
Figure 8 is a cross-sectional view showing the assembly of the cylindrical spring assembly of Figure 7,
9 is a perspective view showing a check valve for a pump applied to the first, second and third embodiments of the present invention,
10 is a cross-sectional view showing a check valve for a pump applied to the first, second and third embodiments of the present invention,
11 is a bottom view showing a check valve for a pump applied to the first, second and third embodiments of the present invention,
12 is a cross-sectional view showing a conventional pump container.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings so that those of ordinary skill in the art can easily implement them. It should be noted that the reference numbers indicated in the configurations in the accompanying drawings use the same reference numbers as much as possible when indicating the same configuration in other drawings. In addition, in describing the present invention, if it is determined that a detailed description of a related known function or a known configuration may unnecessarily obscure the subject matter of the present invention, a detailed description thereof will be omitted. In addition, certain features presented in the drawings are enlarged, reduced, or simplified for ease of description, and the drawings and their components are not necessarily drawn to scale. However, those skilled in the art will readily understand these details.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In addition, in describing the present invention, when it is determined that a detailed description of a related known configuration or function may obscure the subject matter of the present invention, a detailed description thereof will be omitted.

[First embodiment]

1 is a cross-sectional view showing a container pump according to a first embodiment of the present invention, and FIG. 2 is a cross-sectional view showing a time when the pump container according to the first embodiment of the present invention is operated.

1 and 2, the pump container according to the first embodiment of the present invention includes a container 10 containing a liquid therein; A pump body 200 inserted and seated through the inner periphery of the upper opening 11 of the container 10, and a cylindrical member having upper and lower portions open, and the upper opening of the container 10 at the lower inner periphery A shoulder member 40 into which an upper end of the pump body 200 is inserted into an upper portion 42 which is formed with a threaded portion that is screwed to the lower portion 41 and is smaller than the lower portion 41; It is inserted into the upper end of the pump body 200 is made of a discharge nozzle 50 for discharging the contents of the container 10 to the outside by operating the pump body 200 by a pressing operation.

In the pump body 200, an upper outer flange 211 is coupled to a lower portion 42 of the shoulder member 40, and a cylindrical cylinder housing to which a hose 60 is coupled to the lower cylindrical tube 212 ( 210) and; The upper cylindrical portion 221 coupled to the lower inner periphery of the discharge nozzle 50, the expansion portion 222 extended to the lower end of the upper cylindrical portion 221, and the outer periphery of the expansion portion 222 A piston housing 220 comprising a contact plate 223 formed and in close contact with the upper inner periphery 213 of the cylinder housing 210 and a cylindrical protrusion 224 protruding downward in the middle of the expansion part 222 )and; A piston coupling member 230 having a valve plate 231 formed at an upper inner periphery as a cylindrical member coupled within the upper cylindrical portion 221 of the piston housing 220; As a cylindrical member coupled to the inner periphery of the lower end of the piston coupling member 230, the upper part is open and the lower part has a closing part 241 that closes it, and protrudes to the outside of the closure part 241 A piston 240 having a stone sulfa 242 formed therein and having a plurality of inlet holes 243 perforated on the upper outer periphery of the closing part 241; As a cylindrical member inserted into the outer periphery of the piston 240, the outer periphery is in close contact with the inner wall 214 of the cylinder housing 210 and moves upward while a plurality of inlet holes 243 of the piston 240 Opening and closing packing member 250 for opening and closing; A pump check valve 30 inserted into the lower inner periphery of the inner wall 214 of the cylinder housing 210; A cylindrical spring assembly 300 installed on the upper stepped surface 215 of the inner wall 214 of the cylinder housing 210; It consists of a member 280 surrounding the cylindrical protrusion 224 of the piston housing 220 from the bottom.

The enclosing member 280 protrudes obliquely on the inner periphery thereof and is in close contact with the inner periphery of the piston coupling member 230 to seal the outer periphery air into the cylinder housing 210 so that the sealing protrusion 281 is formed. Has been.

The cylindrical spring assembly 300 is coupled to the outer peripheral side of the first cylindrical spring 310 in the center and the first cylindrical spring 310, as shown in Figures 7 and 8, the first cylindrical spring ( It consists of a second cylindrical spring 320 that prevents the first and second twisted portions 312 and 313 from protruding outward during compression of 310).

The first cylindrical spring 310 is made of a plastic material, the upper ring plate 311 having a hole formed in the center, and a first twist descending while rotating in a clockwise direction from a lower surface of one side of the upper ring plate 311 A second twist portion 313 that descends while rotating in the same direction as the first twist portion 312 at a position symmetrical with respect to the lower surface of one side of the upper ring plate 311, The lower ring plate 314, which is an annular member connecting the lower ends of the first and second twisted portions 312 and 313, and the lower ring plate 314 have a larger diameter at a regular interval The formed lower ring plate 315, a plurality of tension pillars 316 connected to the lower side of the lower ring plate 315 at equal intervals, and a lower circular ring 317 connected to the lower side of the plurality of tension pillars 316 ).

The second cylindrical spring 320 rotates downward from the outer upper ring plate 321 coupled to the side of the upper ring plate 311 of the first cylindrical spring 310 and the outer upper ring plate 321 While descending, the outer twist portion 322 descending while rotating in a direction opposite to the rotation direction of the first and second twist portions 312 and 313 of the first cylindrical spring 310, and the outer twist portion ( As a member of the shape of a ring plate connecting the lower end of the 322, the inner periphery of the outer lower ring inserted into the groove between the lower ring plate 314 and the lower ring plate 315 of the first cylindrical spring 310 It consists of a plate 323.

9 to 11, the check valve 30 is a valve body that is a cylindrical member with open upper and lower portions inserted into the lower inner periphery of the inner wall 214 of the cylinder housing 210 ( 31), and a cylindrical check valve 33 that is connected via a connecting strip 32 connected to the side of the valve body 31 and fitted to the upper surface of the valve body 31 to be coupled.

The cylindrical check valve 33 is formed in the center of the cylindrical portion 33a with the upper and lower portions open and the cylindrical portion 33a to open and close the upper hole 31a of the valve body 31 ( 33b) and an S-shaped connecting portion 33c connecting a plurality of the outer periphery of the disc opening and closing portion 33b and the inner periphery of the cylindrical portion 33a.

Reference numeral 51, which is not described, denotes a discharge port of the discharge nozzle 50.

Next, the operation of the pump container according to the first embodiment of the present invention as described above will be described.

First, when the discharge nozzle 50 is pressed downward to use this pump container, the piston housing 220 and the piston coupling member 230 connected to the lower portion of the discharge nozzle 50 descend, and the piston connected to the lower portion thereof ( 240) descends.

At the same time, the opening and closing packing member 250 coupled to the outer periphery of the piston 240 is pushed to the lower end of the piston coupling member 230 and descends along the inner periphery of the inner wall 214 of the cylinder housing 210. . That is, the opening/closing packing member 250 is spaced apart from the bottom surface of the piston coupling member 230 by a certain distance, so that after the piston 240 first descends, the piston coupling member 230 moves the opening/closing packing member 250 Since it is pushed downward, the opening and closing packing member 250 descends later than the piston 240.

In this way, since the piston 240 descends earlier than the opening and closing packing member 250, the opening and closing packing member 250, which was in close contact with the upper portion of the stony jaw 242 of the piston 240, is spaced apart from this and the inlet hole 243 ) Is opened.

As the piston 240 and the opening/closing packing member 250 descend, the volume within the inner wall 214 decreases. As the volume decreases, the check valve 30 inserted in the lower inner periphery of the inner wall 214 is opened to allow the contents to flow into the inner wall 214 (FIG. 2).

The contents introduced into the inner wall 214 are introduced into the piston 240 through the inlet hole 243 and both sides of the dolsul jaw 242 of the piston 240, and through the piston connecting member 230, the discharge nozzle It is discharged through the discharge port 51 of (50).

When the pressing operation of the discharge nozzle 50 is stopped, the cylindrical spring assembly 300 inserted in the space between the inner wall 214 and the intermediate wall 215 of the cylinder housing 210 expands and the piston housing ( 220) will rise.

The cylinder housing 210, the piston 240, and the cylindrical spring assembly 300 are made of a plastic material, so they are environmentally friendly.

In addition, the second cylindrical spring 320 is coupled to the outer peripheries of the first and second twisted portions 312 and 313 of the first cylindrical spring 310, so that when the first cylindrical spring 310 is compressed, The outer twist portion 322 prevents the first and second twist portions 312 and 313 from protruding outward. That is, since the rotation formation direction of the first and second twist portions 312 and 313 and the rotation formation direction of the outer twist portion 322 are reversed, protrusion to the outer circumferential side during compression is prevented.

And, by combining the second cylindrical spring 320 has an effect of further reinforcing the compression and expansion force of the first cylindrical spring 310.

In addition, as the internal volume of the cylinder is reduced by the pressing operation of the discharge nozzle, the contents are discharged to the outside, and a second cylindrical spring (in the outer periphery of the first cylindrical spring 310) is an eco-friendly plastic spring in the cylinder housing. 320) are combined, so that when the first cylindrical spring 310 is compressed, the first and second twisted portions 312 and 313 protrude outwardly, the outer twisted portion 322 of the second cylindrical spring 320 By blocking it through, it has the effect of being eco-friendly because it doubles the compression and expansion force to make it easy to inhale the contents, to make the pumping power good, and do not use a steel spring.

[Second Example]

3 is a cross-sectional view showing a pump container according to a second embodiment of the present invention, and FIG. 4 is a cross-sectional view showing a pump container according to the second embodiment of the present invention when operating. For a description of the cylindrical spring assembly 300, refer to FIGS. 7 and 8.

3 and 4, a pump container according to a second embodiment of the present invention includes a container 10 containing a liquid therein; A pump body 200 inserted and seated through the inner periphery of the upper opening 11 of the container 10; A discharge nozzle (50) inserted into the upper end of the pump body (200) to operate the pump body (200) by a pressing operation to discharge the contents of the container (10) to the outside; As a cylindrical member with upper and lower portions open, a female screw portion 41 screwed to the upper opening 11 of the container 10 is formed at the lower inner periphery, and the lower end of the discharge nozzle 50 is formed at the upper portion. It consists of a shoulder member 40 formed with the insertion hole 42 to be inserted.

The pump body 200 includes a cylindrical cylinder 210 in which an upper flange 211 is seated at an upper end of the upper opening 11 of the container 10; As a pipe-shaped member inserted into the inside of the cylinder 210, a piston 220 having an upper opening coupled to the lower end of the discharge nozzle 50 and having a plurality of inlet holes 221 formed at the outer periphery of the closed lower end. )and; As a cylindrical member that is in close contact with the upper outer periphery of the piston 220 and the inner periphery of the cylinder 210, the outer flange 231 is over the upper flange 211 of the cylinder 210, the cylinder 210 ) A container airtight member 230 pressed by the shoulder member 40 from the upper end of the upper flange 211; A cylindrical spring assembly 300 inserted into a lower surface of a cylindrical protrusion 222 protruding in a cylindrical shape at an upper outer periphery of the piston 220; A cylindrical member that is a lower end of the cylindrical spring assembly 300 and is located between the outer periphery of the piston 220 and the inner periphery of the cylinder 210, the cylinder contact portion 241 in contact with the inner periphery of the cylinder 210 ), and the cylinder contact part 241 and the piston contact part 242 formed with an upper and lower part interposed therebetween and in contact with the outer periphery of the piston 220, and the piston moves up and down according to the elevation of the piston 220 An opening/closing packing member 240 for opening and closing a plurality of inlet holes 221 of 220; A pump check valve 30 inserted into the lower inner periphery of the cylinder 210; It consists of a dip tube 250 connected to the lower end of the cylinder 210 and spaced apart from the bottom of the container 10.

The cylindrical spring assembly 300 is coupled to the outer peripheral side of the first cylindrical spring 310 in the center and the first cylindrical spring 310, as shown in Figures 7 and 8, the first cylindrical spring ( It consists of a second cylindrical spring 320 that prevents the first and second twisted portions 312 and 313 from protruding outward during compression of 310).

The first cylindrical spring 310 is made of a plastic material, the upper ring plate 311 having a hole formed in the center, and a first twist descending while rotating in a clockwise direction from a lower surface of one side of the upper ring plate 311 A second twist portion 313 that descends while rotating in the same direction as the first twist portion 312 at a position symmetrical with respect to the lower surface of one side of the upper ring plate 311, The lower ring plate 314, which is an annular member connecting the lower ends of the first and second twisted portions 312 and 313, and the lower ring plate 314 have a larger diameter at a regular interval The formed lower ring plate 315, a plurality of tension pillars 316 connected to the lower side of the lower ring plate 315 at equal intervals, and a lower circular ring 317 connected to the lower side of the plurality of tension pillars 316 ).

The second cylindrical spring 320 rotates downward from the outer upper ring plate 321 coupled to the side of the upper ring plate 311 of the first cylindrical spring 310 and the outer upper ring plate 321 While descending, the outer twist portion 322 descending while rotating in a direction opposite to the rotation direction of the first and second twist portions 312 and 313 of the first cylindrical spring 310, and the outer twist portion ( As a member of the shape of a ring plate connecting the lower end of the 322, the inner periphery of the outer lower ring inserted into the groove between the lower ring plate 314 and the lower ring plate 315 of the first cylindrical spring 310 It consists of a plate 323.

The lower circular ring 318 pushes the cylinder contact portion 241 of the opening/closing packing member 240 downward, so that the piston contact portion 242 is in close contact with the protrusion 223 of the piston 220 so that the contents are not used. When the outside air does not come into contact with the contents.

Reference numeral 52, which is not described, is a cap inserted into the discharge port 51 of the discharge nozzle 50, and 99, the upper part of the upper opening 11 of the container 10 and the upper flange of the cylinder 210 ( It is a packing member inserted between the lower part of 211).

Next, the operation of the pump container according to the second embodiment of the present invention as described above will be described.

First, in order to use this pump container, the cap 52 is removed and the discharge nozzle 50 is pressed downward, and the piston 220 connected to the lower part of the discharge nozzle 50 descends.

At the same time, the opening and closing packing member 240 coupled to the outer periphery of the piston 220 descends along the inner periphery of the cylinder 210. The piston 220 first descends, and the opening/closing packing member 240 descends later.

In this way, since the piston 220 descends earlier than the opening and closing packing member 240, the opening and closing packing member 240, which was in close contact with the upper part of the protrusion 223 of the piston 220, is spaced apart from this and the inlet hole 221 ) Is opened.

As the piston 220 and the opening/closing packing member 240 descend, the volume in the cylinder 210 decreases. As the volume decreases, the check valve 30 inserted in the lower inner periphery of the cylinder 210 is opened, and the contents are introduced into the cylinder 210 through the dip tube 250. As described above, the cosmetic contents or other liquid contents introduced through the dip tube 250 are introduced through the inlet hole 221 and discharged through the discharge port 51 of the discharge nozzle 50.

When the pressing operation of the discharge nozzle 50 is stopped, the piston 220 is raised by expansion of the first and second cylindrical springs 310 and 280. When the piston 220 rises in this way, the opening and closing packing member 240 also rises, and the rise is limited by contact with the lower circular ring 318 of the first cylindrical spring 310.

That is, the upper end of the cylinder contact portion 241 of the opening/closing packing member 240 is pushed downward by the elastic force of the plurality of tension columns 316 and the lower circular ring 317 of the first cylindrical spring 310, so that the piston ( The piston contact portion 242 is in close contact with the stoneseoljaw 223 of 220). In this way, since the piston contact portion 242 is in close contact with the dolseol jaw 223 of the piston 220, outside air does not contact the contents when the contents of the container are not used.

A second cylindrical spring 320 is coupled to the outer peripheries of the first and second twisted portions 312 and 313 of the first cylindrical spring 310, so that when the first cylindrical spring 310 is compressed, the first And the outer twist portion 322 prevents the second twist portions 312 and 313 from protruding outward. That is, since the rotation formation direction of the first and second twist portions 312 and 313 and the rotation formation direction of the outer twist portion 322 are reversed, protrusion to the outer circumferential side during compression is prevented.

And, by combining the second cylindrical spring 320 has an effect of further reinforcing the compression and expansion force of the first cylindrical spring 310.

The cylinder 210, the piston 220, and the cylindrical spring 310 are made of plastic and are environmentally friendly, and the contents are not exposed to external air, so that the contents are not contaminated (oxidized).

In addition, since the piston 220 and the cylinder 210 of the pump body 200 are located at the bottom of the container 10, it is easy to suck the contents, and the contents can be used without leaving behind.

[Third Example]

5 is a cross-sectional view showing a pump container according to a third embodiment of the present invention, and FIG. 6 is a cross-sectional view showing a pump container according to the third embodiment of the present invention when operating. For a description of the cylindrical spring assembly 300, refer to FIGS. 7 and 8.

As shown in Figs. 5 and 6, a pump container according to a third embodiment of the present invention includes a container 10 in which a liquid is accommodated; A pump body 200 inserted and seated through the inner periphery of the upper opening 11 of the container 10; A discharge nozzle (50) inserted into the upper end of the pump body (200) to operate the pump body (200) by a pressing operation to discharge the contents of the container (10) to the outside; As a cylindrical member with upper and lower portions open, a female threaded portion 41 formed to be screwed to the upper opening 11 of the container 10 at the lower inner periphery, and the outer periphery of the discharge nozzle 50 at the upper portion. It comprises a shoulder member 40 consisting of an insertion hole 42 to be inserted and an intermediate flange portion 43 protruding inwardly in a cylindrical shape at the lower end of the insertion hole 42.

The pump body 200 is a cylindrical member having an open upper portion and a hole formed at a lower portion thereof, and a cylinder 210 coupled to the intermediate flange portion 43 of the shoulder member 40 by an upper engaging protrusion 211 )Wow; As a pipe-shaped member inserted into the inside of the cylinder 210, the central hole of the discharge nozzle 50 is coupled to the inner periphery of the upper opening, and a plurality of inlet holes 221 are formed on the outer periphery of the closed lower end. A piston 220 having a dolseol jaw 223 formed at a lower end of the inlet hole 221; A cylindrical spring assembly 300 inserted into a lower surface of a cylindrical protrusion 222 protruding in a cylindrical shape at an upper outer periphery of the piston 220; As a cylindrical member positioned between the outer periphery of the piston 220 and the inner periphery of the cylinder 210 while being the lower end of the cylindrical spring assembly 300, a cylinder contact portion 241 in contact with the inner periphery of the cylinder 210 ), and the cylinder contact part 241 and the piston contact part 242 which is formed between the upper and lower parts and is in contact with the outer periphery of the piston 220, and the piston moves up and down according to the elevation of the piston 220. An opening/closing packing member 240 for opening and closing a plurality of inlet holes 221 of 220; It consists of a pump check valve 30 inserted into the lower inner periphery of the cylinder 210.

The cylindrical spring assembly 300 is coupled to the outer peripheral side of the first cylindrical spring 310 in the center and the first cylindrical spring 310, as shown in Figures 7 and 8, the first cylindrical spring ( It consists of a second cylindrical spring 320 that prevents the first and second twisted portions 312 and 313 from protruding outward during compression of 310).

The first cylindrical spring 310 is made of a plastic material, the upper ring plate 311 having a hole formed in the center, and a first twist descending while rotating in a clockwise direction from a lower surface of one side of the upper ring plate 311 A second twist portion 313 that descends while rotating in the same direction as the first twist portion 312 at a position symmetrical with respect to the lower surface of one side of the upper ring plate 311, The lower ring plate 314, which is an annular member connecting the lower ends of the first and second twisted portions 312 and 313, and the lower ring plate 314 have a larger diameter at a regular interval The formed lower ring plate 315, a plurality of tension pillars 316 connected to the lower side of the lower ring plate 315 at equal intervals, and a lower circular ring 317 connected to the lower side of the plurality of tension pillars 316 ).

The second cylindrical spring 320 rotates downward from the outer upper ring plate 321 coupled to the side of the upper ring plate 311 of the first cylindrical spring 310 and the outer upper ring plate 321 While descending, the outer twist portion 322 descending while rotating in a direction opposite to the rotation direction of the first and second twist portions 312 and 313 of the first cylindrical spring 310, and the outer twist portion ( As a member of the shape of a ring plate connecting the lower end of the 322, the inner periphery of the outer lower ring inserted into the groove between the lower ring plate 314 and the lower ring plate 315 of the first cylindrical spring 310 It consists of a plate 323.

The lower circular ring 318 pushes the cylinder contact portion 241 of the opening/closing packing member 240 downward, so that the piston contact portion 242 is in close contact with the protrusion 223 of the piston 220 so that the contents are not used. When the outside air does not come into contact with the contents.

Reference numeral 270, which is not described, is a cover member that covers the outer side of the shoulder member 40, and 280, which is not described, is an exhausting piston installed on the bottom of the container 10. The burnt piston 280 is intended to increase as the contents of the container decrease, so that the contents such as cosmetics or sampu can be used without loss.

Next, the operation of the pump container according to the third embodiment of the present invention as described above will be described.

First, in order to use the pump container, the cover member 270 is removed, and then the discharge nozzle 50 is pressed downward, and the piston 220 connected to the lower part of the discharge nozzle 50 descends.

At the same time, the opening and closing packing member 240 coupled to the outer periphery of the piston 220 descends along the inner periphery of the cylinder 210. The piston 220 first descends, and the opening/closing packing member 240 descends later.

In this way, since the piston 220 descends earlier than the opening and closing packing member 240, the opening and closing packing member 240, which was in close contact with the upper part of the protrusion 223 of the piston 220, is spaced apart from this and the inlet hole 221 ) Is opened.

As the piston 220 and the opening/closing packing member 240 descend, the volume in the cylinder 210 decreases. As the volume decreases, the check valve 30 inserted into the lower inner periphery of the cylinder 210 is opened, and the contents are introduced into the cylinder 210 through the lower hole of the cylinder 210. As described above, the cosmetic contents or other liquid contents introduced through the hole and the check valve 30 are introduced through the inlet hole 221 and discharged through the discharge port 51 of the discharge nozzle 50.

When the pressing operation of the discharge nozzle 50 is stopped, the piston 220 is raised by the expansion of the cylindrical spring 310. When the piston 220 rises in this way, the opening and closing packing member 240 also rises, and the rise is limited by contact with the lower circular ring 318 of the cylindrical spring 310.

That is, since the upper end of the cylinder contact portion 241 of the opening/closing packing member 240 is pushed downward by the elastic force of the plurality of tension columns 316 and the lower circular ring 317 of the cylindrical spring 310, the piston 220 The piston contact portion 242 is in close contact with the dolseoljak 223 of the. In this way, since the piston contact portion 242 is in close contact with the dolseol jaw 223 of the piston 220, outside air does not contact the contents when the contents of the container are not used.

A second cylindrical spring 320 is coupled to the outer peripheries of the first and second twisted portions 312 and 313 of the first cylindrical spring 310, so that when the first cylindrical spring 310 is compressed, the first And the outer twist portion 322 prevents the second twist portions 312 and 313 from protruding outward. That is, since the rotation formation direction of the first and second twist portions 312 and 313 and the rotation formation direction of the outer twist portion 322 are reversed, protrusion to the outer circumferential side during compression is prevented.

And, by combining the second cylindrical spring 320 has an effect of further reinforcing the compression and expansion force of the first cylindrical spring 310.

The cylinder 210, the piston 220, and the cylindrical spring assembly 300 are made of plastic and are environmentally friendly, and the contents are not exposed to external air, so that the contents are not contaminated (oxidized).

As described above, specific embodiments have been described in the detailed description of the present invention, but it is apparent that the technology of the present invention can be easily modified by those skilled in the art, and these modified embodiments are included in the claims of the present invention. It will be included in the described technical idea.

10: container
11: upper opening
30: check valve
40: shoulder member
50: discharge nozzle
200, 300: pump body
210, 310: cylinder housing
214: inner wall
314: lower cylinder
220, 320: piston housing
230, 330: piston coupling member
240, 340: piston
250, 350: opening and closing packing member
300: cylindrical spring assembly
310: first cylindrical spring
311: upper ring plate
312, 313: first and second twisted portions
314: lower ring plate
315: lower ring plate
316: multiple tension pillars
317: upper circular ring
320: second cylindrical spring
321: outer upper ring plate
322: outer twist part
323: outer lower ring plate

Claims (5)

A container 10 in which the liquid is accommodated; A pump body 200 inserted and seated through the inner circumference of the upper opening 11 of the container 10, and a cylindrical member having an upper and lower part open, and an upper opening of the container 10 at a lower inner circumference A shoulder member 40 into which an upper end of the pump body 200 is inserted into an upper portion 42 which is formed with a threaded portion that is screwed to the lower portion 41 and is smaller than the lower portion 41; It is inserted into the upper end of the pump body 200 is made of a discharge nozzle 50 for discharging the contents in the container 10 by operating the pump body 200 by a pressing operation;
In the pump body 200, an upper outer flange 211 is coupled to the lower portion 42 of the shoulder member 40, and a cylindrical cylinder housing to which a hose 60 is coupled to the lower cylindrical pipe 212 ( 210) and; The upper cylindrical portion 221 coupled to the lower inner periphery of the discharge nozzle 50, the expansion portion 222 extended to the lower end of the upper cylindrical portion 221, and the outer periphery of the expansion portion 222 A piston housing 220 comprising a contact plate 223 formed and in close contact with the upper inner periphery 213 of the cylinder housing 210 and a cylindrical protrusion 224 protruding downward in the middle of the expansion part 222 )and; A piston coupling member 230 having a valve plate 231 formed at an upper inner periphery as a cylindrical member coupled within the upper cylindrical portion 221 of the piston housing 220; As a cylindrical member coupled to the inner periphery of the lower end of the piston coupling member 230, the upper part is open and the lower part has a closing part 241 that closes it, and protrudes to the outside of the closure part 241 A piston 240 having a stone sulfa 242 formed therein and having a plurality of inlet holes 243 perforated on the upper outer periphery of the closing part 241; As a cylindrical member inserted into the outer periphery of the piston 240, the outer periphery is in close contact with the inner wall 214 of the cylinder housing 210 and moves upward while a plurality of inlet holes 243 of the piston 240 Opening and closing packing member 250 for opening and closing; A pump check valve 30 inserted into the lower inner periphery of the inner wall 214 of the cylinder housing 210; A cylindrical spring assembly 300 installed on the upper stepped surface 215 of the inner wall 214 of the cylinder housing 210; In the pump container consisting of a member 280 surrounding the cylindrical protrusion 224 of the piston housing 220 from the bottom,
The cylindrical spring assembly 300 is made of a plastic material, the upper ring plate 311 having a hole formed in the center, and a first twist portion descending while rotating in a clockwise direction from a lower surface of one side of the upper ring plate 311 (312), a second twist portion 313 descending while rotating in the same direction as the first twist portion 312 at a position symmetrical with respect to one bottom surface of the upper ring plate 311, the The lower ring plate 314, which is an annular member connecting the lower ends of the first and second twisted portions 312 and 313, and the lower ring plate 314 are formed to have a larger diameter at regular intervals. The lower ring plate 315, a plurality of tension pillars 316 connected to the lower side of the lower ring plate 315 at equal intervals, and a lower circular ring 317 connected to the lower side of the plurality of tension pillars 316 A central first cylindrical spring 310 made of;
As a member that is coupled to the outer circumference side of the first cylindrical spring 310 to prevent the first and second twisted portions 312 and 313 from protruding outward when the first cylindrical spring 310 is compressed, the first The outer upper ring plate 321 coupled to the side of the upper ring plate 311 of the cylindrical spring 310 and descending while rotating downward from the outer upper ring plate 321, the first cylindrical spring 310 A ring plate-shaped member connecting the lower end of the outer twist portion 322 and the outer twist portion 322 descending while rotating in a direction opposite to the rotation direction of the first and second twist portions 312 and 313 of As, the second cylindrical spring 320 made of an outer lower ring plate 323 whose inner periphery is inserted into a groove between the lower ring plate 314 and the lower ring plate 315 of the first cylindrical spring 310 ) Pump container, characterized in that consisting of.











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