KR102292287B1 - Liquid pressure pump - Google Patents

Abstract

The present invention relates to a liquid pressing pump that discharges various liquid contents. More particularly, while simply improving a structure of the liquid pressing pump, a pump cap (10), a housing (20), a housing cover (30), a valve guide (40), a button (50), an elastic support part (60), a valve (70), a piston (80) and a non-return disk (90) that constitute the liquid pressing pump are manufactured using a plastic material other than metal, or the elastic support part is manufactured and assembled using an elastic rubber material or the like to provide stable elastic force, so that it is very eco-friendly, it is easy to separate and collect after recovery, it is reusable after collection, or reused as a raw material for the production of cosmetic-related subsidiary materials, and environmental pollution caused by unauthorized disposal is prevented.

Description

Liquid press pump {LIQUID PRESSURE PUMP}

The present invention is eco-friendly because all the parts constituting the press pump are manufactured without using metal while simply improving the structure of the press pump that discharges various liquid contents, and it is easy to separate and collect after collection, and reuse it after collection. Or, it relates to a liquid push pump that can be recycled as a raw material for the production of cosmetic-related subsidiary materials while preventing environmental pollution caused by unauthorized disposal.

In general, as a means for discharging and using an appropriate amount of liquid contents such as cosmetics, shampoo, detergents, etc. contained in various containers including cosmetic containers, a kind of liquid push pump is used.

However, in spite of the convenience of using the conventional liquid push pump, various problems exist. The reason for this is that, first, the structure of the pump is complicated and there are many parts, so there is a problem that assembly and productivity are remarkably reduced. Next, the basic manufacturing material constituting the pump is plastic, but the ball that opens and closes the content inlet hole of the housing constituting the pump and the spring that elastically supports it in connection with the operation piston are made of steel.

Therefore, according to the conventionally provided liquid push pump structure, when the liquid contents are used up and the container is thrown away, users disassemble the pump to separate the spring including the steel ball and other plastic material. Parts are also disposed of separately, or some are separately collected and reused. However, if the steel material is discarded as it is, it will adversely affect the environment, and dismantle the pressure pump and use it as a steel material. In order to separate the balls or springs made separately, the labor cost and separation time required for this are required, and the efficiency of separate collection and recycling is also increased due to various reasons such as an increase in manpower and cost due to unnecessary separation work. It had to be lowered that much.

In addition, in the case of a conventionally provided push pump, a transfer path or communication hole for supplying liquid contents to a push button or a discharge cap is vertically formed in an open top form with respect to the side wall of the working piston rod or piston unit. As it is formed to communicate with the flow path in a horizontal state, it is difficult to manufacture a mold for the working piston rod or piston unit to form the transfer path or communication hole, and it takes a lot of time or money to manufacture, and the productivity of parts is low. There are structural problems, such as losing.

1. KR200459637 Y1 (2012.04.12. Announcement) 2. KR102113970 B1 (2020.05.21. Announcement)

The present invention was invented to solve the problems raised by the conventional press pump as described above, and an object of the present invention is to simply improve the structure of the liquid press pump while manufacturing the parts constituting the press pump without using metal. To provide a liquid push pump that is eco-friendly, easy to separate and collect after collection, reuse after collection, or recycle as a raw material for production of cosmetic-related subsidiary materials, while preventing environmental pollution caused by unauthorized disposal. .

Another object of the present invention is to remarkably improve the structure of discharging the liquid contents of the valve constituting the press pump to facilitate mold manufacturing, and to improve the injection property of parts to provide excellent quality and improve productivity even in mass production. It is to provide a liquid push pump designed to do this.

Another object of the present invention is to provide a liquid pressure pump capable of preventing unauthorized discharge of liquid contents through a double hermetic structure of a valve and a piston, enabling more hygienic use, and ensuring high airtight stability.

According to an exemplary embodiment of the present invention for achieving the above object, there is provided a liquid push pump comprising: a pump cap detachably coupled to an inlet of a container; a housing coupled in a state of being supported on the upper surface of the inlet of the container by the pump cap and in which the content inlet hole of the temporary storage chamber is opened and closed by a unidirectional disk-shaped backflow prevention disk; a housing cover coupled to an open end of the temporary storage chamber for contents of the housing, and having one or more open grooves on an inner circumferential surface, and a locking step between each of the open grooves; At the same time that the lower end of the first support tube body is fitted into the housing cover, a second support tube body having a second assembly groove formed therein is extended to one side of the first support tube body, and the first support tube body and A through hole is formed in the inside of the second support tube body, and when the contents are discharged, the upper and lower guides are raised and lowered with respect to the open groove formed in the housing cover through the outer peripheral surface of the first support tube body, and when the contents are not discharged, the locking step is a valve guide in which a locking and releasing operation rib that is selectively caught on the rib is formed to protrude in the longitudinal direction; a button to which a connecting pipe body connected to a discharge hole is coupled to the second support pipe body of the valve guide; an elastic support portion having an elastic action portion for providing a resilient force according to the pressing action of the button and elastically installed between the housing cover and the valve guide; A piston rod is fitted and coupled into the first support tube body of the valve guide, and between the piston support positioned inside the temporary storage chamber of the housing and the housing cover to have a downward movement deviation through the lifting operation space (P). a valve in which a piston is coupled to the piston rod, and one or more slit grooves for discharging contents to a discharge hole of the button are divided in the longitudinal direction on an outer circumferential surface of the piston rod; Constructed to include, the inner peripheral surface of the open end of the content temporary storage chamber of the housing and the outer peripheral surface of the first engaging portion of the housing cover to further form a first engaging request and a first engaging frame to correspond in the circumferential circumferential direction so that they are engaged with each other In addition, airtight grooves and airtight rims are further formed to correspond in the circumferential circumferential direction to the upper surface of the flange of the housing and the lower surface of the support step of the first coupling part so that when the housing cover is coupled to the housing, these are configured to be airtightly coupled to each other. , Each upper surface and the corresponding lower surface of the airtight rim formed by the airtight groove formed by the upper surface of the flange of the housing and the lower surface of the support step of the first coupling part of the housing cover has a concave-convex surface to prevent them from turning when they are fitted. It is further formed and characterized as a load.

The liquid push pump of another embodiment of the present invention for achieving the above object is opened at both ends, and a coupling part coupled to the outer circumferential surface of the inlet of the container, and the elevating guide part connected to the coupling part, and the inner circumferential surface of the support hwanteok are formed a pump cap; a housing that is seated with a flange supported on the upper surface of the inlet port of the container, has a content temporary storage chamber, and has a content inlet hole formed at the bottom of the content temporary storage chamber; A support step that is covered by the open end of the content temporary storage chamber of the housing and is seated and supported on the upper surface of the flange; It is configured to include a second coupling part bent upwardly inward to provide an elastic demand through the connection part, and one or more open grooves are formed in the vertical direction at an appropriate interval on the inner circumferential surface of the second coupling part. A housing cover having a locking step formed therein; A first support tube body is fitted into the second coupling part of the housing cover, a second support tube body is formed extending from one side of the first support tube body, and a first support tube body is formed inside the first and second support tube bodies. and second assembly grooves are formed, respectively, and the first and second assembly grooves communicate with each other through a through hole formed in the wall between them, and extend further into the lower end of the first support tube body than the first assembly groove An elevating guide groove is formed in the form of an upper body, and when the contents are discharged on the outer circumferential surface of the first support tube, the elevating guide is guided with respect to the open groove formed in the second coupling part of the housing cover, and locking when the contents are not discharged. a valve guide in which locking and releasing operation ribs selectively caught on the step are formed to protrude in the longitudinal direction; a button having a connecting pipe body connected to a discharge hole with respect to a second reaming groove formed in the second support pipe body of the valve guide, and having an elevation guide part fitted to the elevation guide part of the pump cap; an elastic support portion having an elastic action portion for providing a resilient force according to the pressing action of the button and elastically installed between the housing cover and the valve guide; A piston rod is fitted into the first reaming groove of the valve guide, a piston support is formed on one side of the piston rod, and one or more slit grooves for discharging contents are divided in the longitudinal direction on the outer circumferential surface of the piston rod. valves made of; It is interposed between the valve guide and the valve and provides a downward compressive force in the temporary storage chamber of the contents when the contents are discharged, and the contents are discharged through the slit groove of the piston support and the upper gap of the piston support of the valve, which is generated by the downward movement deviation. In order to provide a suction force that allows the contents to be forcibly sucked from the container into the temporary storage chamber of the contents in reverse during non-discharge, the lower end of the inner wall is in close contact with the piston support of the valve and is coupled to the piston rod, The upper end of the inner wall is inserted into the lifting guide groove formed inside the first assembly groove of the first support tube of the valve guide in a state where the lifting operation space (P) is provided, and is formed to extend outside the inner wall of the housing a piston configured to include an outer wall that is raised and lowered in an elastically close contact with the inner circumferential surface of the temporary storage chamber; and a unidirectional disk-shaped non-return disk that opens and closes the contents inlet hole formed in the bottom of the housing and prevents the contents flowing into the temporary storage chamber of the housing from flowing back into the container. On the inner circumferential surface of the open end of the temporary storage compartment and the outer circumferential surface of the first coupling part of the housing cover, a first locking request and a first locking frame are further formed to correspond in the circumferential circumferential direction so that they are engaged with each other, and the flange upper surface of the housing and When the housing cover is coupled to the housing by further forming an airtight groove and an airtight rim on the lower surface of the support step of the first coupling part to correspond to the circumferential direction, these are configured to be airtightly coupled to each other, but formed by the upper surface of the flange of the housing Each upper surface and the corresponding lower surface of the airtight rim formed by the airtight groove and the lower surface of the support step of the first coupling part of the housing cover are characterized in that the concave-convex surface is further formed to prevent them from turning when they are fitted.

According to the present invention, the elastic support portion, the first support portion supported on the upper surface of the support step of the housing cover, is formed to extend to the upper portion of the first support portion so as to be compressed and restored at the same time as it spreads outward about the elastic action point. It is characterized in that it is configured to include an elastic acting portion elastically deformed, and a second support portion extending above the elastic acting portion and supported on the support step of the valve guide.

According to the present invention, the elastic support portion includes a first support portion supported on the upper surface of the support step of the housing cover, an elastic action portion formed so as to be resilient to an upper portion of the first support portion, and extend to the upper portion of the elastic action portion It consists of a formed second support portion, wherein the elastic action portion is characterized in that the elastic action space and the elastic action piece are continuously and repeatedly formed along the circumference so that the upper and lower elastic action is possible.

According to the present invention, an air hole is further formed in the temporary storage chamber of the contents of the housing.

According to the present invention, the locking step communicating with one side of each open groove of the housing cover has a horizontal support surface formed toward the non-communicating portion of the open groove, and the horizontal support surface and successively communicates with one side of the open groove It is characterized in that it is divided and formed by the inclined support surface formed on the part to be made.

According to the present invention, the inner circumferential surface of the second assembly groove formed inside the second support tube body of the valve guide and the corresponding outer circumferential surface of the connecting tube body provided in the button correspond to the second locking request and the second locking frame in the circumferential direction. It is formed so that arbitrary separation in the vertical direction is prevented by their interlocking coupling, and serrations are formed to correspond to the inner and outer circumferential surfaces of the second assembly groove and the connecting tube body, respectively. It is characterized in that it is configured such that the left and right rotation is integrally made by the mutual vertical combination of the.

According to the present invention, the inner circumferential surface of the first assembly groove formed in the first support tube body of the valve guide and the outer circumferential surface of the piston rod, a third locking frame and a third locking groove are formed to correspond to each other, and they are forced to engage with each other. It is characterized in that it is configured to prevent arbitrarily separating them from each other after the valve is assembled to the valve guide by being coupled to the valve guide.

According to the present invention, a wedge-shaped airtight support groove is further formed as the piston support of the valve, and the lower end of the inner wall of the piston is supported in a multi-adherence state with respect to the airtight support groove.

According to the present invention, the lower end of the inner wall of the piston, which is in multiple contact with the wedge groove-shaped airtight support groove formed by the piston support, includes at least the bottom surface and both end edges thereof. do it with

According to the present invention, a lifting guide groove is further formed on the inner peripheral surface of the second support part of the elastic support part at a position coincident with the open groove of the housing cover, and when the button is pressed, the locking formed by the outer peripheral surface of the first support tube body of the valve guide And the release operation rib is characterized in that it is configured to guide the lifting.

According to the present invention, the elastic support portion has at least one open groove on the inner peripheral surface of the lower end of the first support portion, a locking step is formed between each of the open grooves, and a cover on the open end of the temporary storage compartment for contents of the housing. It is characterized in that it is formed integrally with the housing cover to be coupled.

According to the present invention, the elastic support portion is made of a tubular body, and a first support portion supported on the upper surface of the support step of the housing cover, an elastic action portion formed so as to be resilient to the upper portion of the first support portion, and a valve; It is composed of a second support portion supported on the lower surface of the second support tube body of the guide, and the inner circumferential surface of the elastic action portion is configured to have a corrugated cross section for providing good elastic action force.

According to the present invention, assembly and productivity are very good according to the structural improvement of the push pump, and it is eco-friendly by constructing the press pump without using metal. and cost can be significantly reduced, so that the efficiency of separate collection can be greatly increased. Environmental pollution due to disposal can be greatly prevented.

In addition, the first locking request and the first locking frame configuration formed by the inner peripheral surface of the open end of the content temporary storage chamber of the housing and the outer peripheral surface of the first coupling part of the housing cover, the airtight formed by the upper surface of the flange of the housing and the lower surface of the support step of the first coupling part Through the configuration of the concave-convex surface formed in the groove and the airtight rim, it is possible to stably engage the housing and the housing cover, and at the same time provide the effect of preventing them from turning.

In addition, according to the present invention, the locking and release operation rib formed as the first support tube of the valve guide with respect to the open groove formed of the housing cap and the locking step is guided upward and downward with respect to the open groove of the housing cover when the contents are discharged, and When the contents are not discharged, the button is assembled in the locking direction without a separate overcap as it is selectively caught on the locking step, thereby providing the advantage that the arbitrary discharge of the contents can be prevented in the distribution process of the product.

In addition, since the structure of discharging the liquid contents of the valve constituting the press pump is improved, it is possible to make molds for related parts very easily. It is possible to provide and improve productivity.

In addition, the multi-tight structure of the valve and the piston prevents unauthorized discharge of liquid contents, enabling more hygienic use, and at the same time providing high airtight stability.

1 is an assembly cross-sectional view showing a structure of a push pump according to the present invention.
2 is a side cross-sectional view showing the structure of a pomp cap according to the present invention.
3 (a) (b) is a plan view and a side cross-sectional view of a housing according to the present invention.
4 (a) (b) (c) are a top view, a side cross-sectional view and a bottom view of the housing cover according to the present invention.
5 is a side cross-sectional view of a valve guide according to the present invention.
6 is a side cross-sectional view of a button according to the present invention;
7 (a) (b) is a plan view and a side cross-sectional view of the elastic support according to the present invention.
8 (a) (b) is a plan view and a side cross-sectional view of a valve according to the present invention.
9 is a side cross-sectional view of a piston according to the present invention;
Figure 10 (a) (b) is a side cross-sectional view and a plan view of the backflow prevention disk according to the present invention.
11 is a side cross-sectional view showing a state in which the button according to the present invention is assembled in a locked state.
12 is an enlarged excerpt of part “A” of FIG. 1 .
13 is an enlarged excerpt of part “B” of FIG. 1 .
14 is an enlarged excerpt of part “C” of FIG. 1 .
15 is an assembly side cross-sectional view showing a state of discharging the contents by pressing the button according to the present invention.
16 is a view showing the configuration of the elastic support portion of another embodiment structure according to the present invention.
17 (a) (b) (c) is a plan view, a front cross-sectional view, and a bottom view showing the configuration of the elastic support of another embodiment according to the present invention.
18 is a half-sectional perspective view showing another embodiment of the elastic support according to the present invention.
19 is an assembled cross-sectional view showing a mounting state of the elastic support shown in FIG. 18;

Hereinafter, a preferred embodiment according to the present invention will be described in more detail with reference to the accompanying drawings.

It should be understood that the embodiments described below are illustratively shown to aid understanding of the invention, and the present invention may be implemented with various modifications different from the embodiments described herein. However, in the description of the present invention, if it is determined that redundant descriptions of related known functions or components may obscure the gist of the present invention, detailed descriptions and specific illustrations thereof may be omitted. In addition, in the process of explaining the present invention, the thickness of the lines or the size of the components shown in the drawings may be exaggerated for clarity and convenience of explanation. In addition, the terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to intentions or customs of users and operators. Therefore, definitions of these terms should be made based on the content throughout this specification.

In addition, in describing the present invention, unless there are clear regulations and limitations, technical terms such as “installation”, “assembly”, “connection”, and “fixing” among technical terms should be broadly interpreted and understood. For example, “connection” may be a detachable connection, a fixed connection, or a mechanical connection, an electrical connection, a connection using an intermediate medium, or an internal connection of two parts. it may be These technical terms should be interpreted as those of ordinary skill in the relevant technical field interpret the technical terms according to the situation and understand the specific meaning.

1 to 15 , the liquid push pump 1 according to the present invention is a pump cap 10 that is detachably coupled to the inlet 110 of the container 100 containing the liquid content therein. class;

a housing 20 coupled in a state of being supported on the upper surface of the inlet of the container by the pump cap, and in which the contents inlet 22 of the temporary storage compartment 21 is opened and closed by the backflow prevention disk 90;

A second coupling part 32 is cover-coupled to the open end of the content temporary storage chamber 21 of the housing, and one or more open grooves 36 on the inner circumferential surface, and a locking step 37 between each of the opening grooves. The housing cover 30 is formed and;

A second support tube body ( 42) is extended, and a through hole 46a is formed inside the first support tube body and the second support tube body. A locking and unlocking operation rib 48 that is guided up and down with respect to the open groove 36 formed in the housing cover 30 and is selectively caught on the locking step 37 when the contents are not discharged is formed to protrude in the longitudinal direction. a valve guide 40;

a button 50 to which the connecting pipe body 52 connected to the discharge hole 51 is coupled to the second support pipe body 42 of the valve guide 40;

An elastic support part 60 that is elastically installed between the housing cover 30 and the valve guide 40 while having an elastic acting part 64 for providing a resilient force according to the pressing action of the button 50 and ;

The piston rod 71 is fitted and coupled into the first support tube body of the valve guide 40, and the piston support 72 and the housing cover 30 are positioned inside the temporary storage compartment 21 of the housing 20. A piston 80 is coupled to the piston rod 71 so as to have a downward movement deviation through the lifting and lowering working space P between and, and the contents are discharged through the discharge hole of the button 50 through the outer circumferential surface of the piston rod. One or more slit grooves 73 for discharging to 51 are divided in the longitudinal direction, the valve 70; It may be composed of

According to the present invention, each part constituting the liquid push pump 1 is all injection-manufactured with PP (polypropylene / polypropylene) plastic, or, during the pumping operation, the elastic support part 60 to provide a stable elastic force. ) only, or may be manufactured by mixing PP or PE in order to provide mechanical properties such as hardness to the elastic rubber material.

Therefore, according to the present invention, in composing the liquid pressurizing pump 1, it is eco-friendly because it is made of plastic or resin material without using any metal material as in the prior art, and it is necessary to separate collection according to the use of metal material. is not required, and additional manpower or cost for separate collection is also not increased. In addition, since it is possible to collect, reuse, or recycle, the reuse or recycling rate of resources can be greatly increased, and waste of resources can be prevented.

In more detail, the configuration of each component constituting the liquid push pump 1 according to the present invention is as follows.

Referring to FIG. 2 , the pump cap 10 is formed in the form of a tubular body open at both ends, and a coupling part 11 coupled to the outer circumferential surface of the inlet 110 of the container 100, and a lifting/lowering connection connected to the coupling part Consists of a guide portion 12, the inner peripheral surface of the boundary between the coupling portion and the elevating guide portion may be formed with a support hwanteok (13).

The coupling part 11 of the pump cap 10 coupled to the outer circumferential surface of the inlet 110 of the container 100 may employ various coupling methods such as a screw coupling method and an undercut coupling method.

Referring to FIG. 3 , the housing 20 has a content temporary storage chamber 21 in which the content introduced from the container through the content inlet hole 22 is temporarily stored, and a flange 23 formed to extend outward from the upper end of the pump It is assembled in a state of being supported on the bottom surface of the support hwanteok 13 of the cap 10 , and the lower surface of the flange is assembled in a state of being supported on the upper surface of the inlet 110 of the container 100 .

Accordingly, when assembling the housing 20 , substantially the remaining part except for the flange 23 is assembled in a state in which it is accommodated therein through the inlet 110 of the container 100 . That is, the content temporary storage chamber 21 of the housing 20 is accommodated in the container 100 .

And, referring to FIG. 15 , the lower end in which the contents inlet hole 22 of the housing 20 is formed is for inducing suction of the contents stored in the container 100 into the inside of the housing 20 according to the type of discharge of the contents. A separate suction pipe 25 may be inserted and used.

In addition, when the structure of the push pump 1 is of a type in which the suction pipe 25 is assembled to the lower end of the housing 20, the inlet 110 of the container 100 and the temporary storage chamber of the contents of the housing 20 ( 21), an air hole 24 for introducing or discharging air existing between the housings into or out of the housing may be further formed.

According to the present invention, the contents stored in the temporary storage compartment 21 of the contents of the housing 20 do not need to be particularly limited as long as the contents can be discharged to the outside by the structure of the push pump 10 of the present invention. It may include liquid contents, which can be regarded as comprehensively meaning cosmetics or medical liquids.

Referring to FIG. 4 , the housing cover 30 is assembled in an airtight state with respect to the open end of the content temporary storage chamber 21 of the housing 20 , and a portion of the upper surface of the housing 20 and A first coupling part 32 that is elastically coupled to the inner circumferential surface of the open end of the temporary storage compartment 21 of the contents of the housing 20 while having the support step 31 fitted to the support hwanteok 13 of the pump cap 10 ), and the second connecting portion 33 is bent inwardly upward to be connected to each other with respect to the first coupling portion, and at the same time, an elastic request 34 in the form of opening upward between them is formed. It is configured to include a coupling part 35, and at least one or more open grooves 36 are divided in the longitudinal direction so that at least one open groove 36 is disposed radially at an appropriate interval on the inner circumferential surface of the second coupling part 35, and each A locking step 37 communicating with one side of the open groove is formed on the upper surface between the open grooves 36 .

At this time, the locking step 37 communicating with one side of each open groove 36 of the housing cover 30 includes a horizontal support surface 37a formed toward the non-communicating portion of the open groove 36, and the It may be divided into a horizontal support surface (37a) and an inclined support surface (37b) formed in a portion communicating with one side of the open groove (36) in succession.

Therefore, in the case of the locking step 37, a stable locking support is possible by the horizontal support surface 37a, and the locking release operation is made to slide down well into the open groove 36 through the inclined support surface 37b. This can be done very reliably and quickly.

According to the present invention, the housing cover 30, which is cover-coupled to the open end of the contents temporary storage chamber 21 of the housing 20, prevents arbitrary opening and at the same time, the contents stored in the contents temporary storage chamber are intentionally opened through the open end. It is preferable to be coupled in an airtight manner to prevent leakage to the outside.

To this end, in the present invention, as shown in FIG. 12 , the inner peripheral surface of the open end of the temporary storage compartment 21 of the housing 20 and the outer peripheral surface of the first coupling part 32 of the housing cover 30 are first caught The request 21a and the first locking frame 32a are formed correspondingly in the circumferential circumferential direction so that they are engaged with each other, and the upper surface of the flange 23 of the housing 20 and the support of the first coupling part 32 On the lower surface of the step 31, an airtight groove 23a and an airtight rim 32b are formed to correspond in the circumferential circumferential direction so that when the housing cover 30 is coupled to the housing 20, they may be configured to be airtightly coupled to each other. have.

In addition, each upper surface of the airtight groove (23a) formed on the upper surface of the flange (23) of the housing (20) and the airtight rim (32b) formed by the lower surface of the support step (31) of the first coupling part (32) and corresponding The lower surface is formed with concave-convex surfaces 23a-1 and 32b-1 to prevent them from turning when they are fitted, so that the housing cover 30 is airtightly coupled to the housing 20 as well as the concave-convex surface. (23a-1) and (32b-1) do not rotate due to intermeshing coupling.

According to the present invention, the first locking request 21a formed by the inner peripheral surface of the open end of the temporary storage compartment 21 and the first locking frame 32a formed by the outer peripheral surface of the first coupling part 32, the housing 20 ), the airtight groove 23a formed on the upper surface of the flange 23 and the airtight rim 32b formed on the lower surface of the support step 31 of the first coupling part 32 may be formed on the opposite side by changing the positions of each other. .

Accordingly, the first coupling part 32 is coupled to the open end of the content temporary storage chamber 21 of the housing 20, so that the housing cover 30 is prevented from arbitrarily open and separated and airtight coupling is possible at the same time. It is possible to prevent the contents stored in the temporary storage compartment 21 from being unintentionally leaked through the open end.

On the other hand, according to the present invention, in order to prevent the housing cover 30 from being arbitrarily opened with respect to the housing 20 and to prevent the contents from leaking, the agent formed as the inner peripheral surface of the open end of the temporary storage chamber 21 for contents. A first locking frame (32a) formed on the outer peripheral surface of the first locking request (21a) and the first coupling part (32), and an airtight groove (23a) and a first coupling part formed on the upper surface of the flange (23) of the housing (20) The configuration of the airtight frame (32b) formed by the lower surface of the support step (31) of (32) may be an example, and there is no need to be particularly limited, and if the structure can achieve the same function, various implementations in addition to the above structure will be possible

As shown in FIG. 5 , the valve guide 40 is assembled in a state that the lower end of the first support tube body 41 is fitted into the second coupling part 35 of the housing cover 30 , It is configured to include a first support tube body 41 and a second support tube body 42 formed to extend to the outside of the upper end of the first support tube body so that the support jaw 43 is provided, and the inside of the first support tube body 41 A first assembling groove 44 is formed in the furnace, and an elevating guide groove 45 is extended on the inner peripheral surface of the lower end of the first assembling groove 44 , and into the inside of the second support tube body 42 . A second assembly groove 47 communicating with the first assembly groove 44 is formed through the through hole 46a formed in the liver wall 46 .

And, on the outer peripheral surface of the first support tube body 41 of the valve guide 40, the lower end thereof is caught in the locking step 37 of the housing cover 30 during the locking operation, that is, during the content non-discharging action. The locking and release operation ribs 48 that are supported and are respectively positioned in the opening grooves 36 and guided up and down while being rotated along the locking steps during the opening operation, that is, during the contents discharging action, are formed to protrude in the longitudinal direction. .

Preferably, the locking and unlocking operation ribs 48 formed on the outer peripheral surface of the first support tube body 41 of the valve guide 40 are formed at the same spacing and number as the opening grooves 36 formed in the housing cover 30 . do.

Referring to FIG. 6 , the button 50 is a part for discharging the contents stored in the temporary contents storage chamber 21 of the housing 20 by pressing the upper portion of the user from the outside during the contents discharging operation, and the discharge hole 51 ) in communication with and at the same time being fitted into the second assembly groove 47 formed inside the second support tube body 42 of the valve guide 40 and coupled to each other, the connecting tube body 52 and the connecting tube body 52 outside is configured to include a lifting guide 53 assembled so that the open lower end is disposed inside or outside the lifting guide 12 of the pump cap 10 .

According to the present invention, the length of the discharge hole 51 of the button 50 may be long and short depending on the discharge capacity or use.

The connecting tube body 52 of the button 50 fitted in the second assembly groove 47 formed in the second support tube body 42 of the valve guide 40 is lifted and lowered together with the valve guide, and locking and Preferably, they are forcedly coupled to be rotatable together during the opening operation.

To this end, the inner peripheral surface of the second assembly groove 47 formed inside the second support tube body 42 of the valve guide 40 and the corresponding outer peripheral surface of the connection tube body 52 provided in the button 50 are shown in Fig. 13, the second locking request (47a) and the second locking frame (52a) are formed to correspond in the circumferential direction so that arbitrary separation in the vertical direction is prevented by their mutual locking coupling, and , In addition, serrations (47b, 52b) are respectively formed to correspond to the inner and outer peripheral surfaces of the second assembly groove 47 and the connecting tube body 52, so that left and right rotation is performed by their mutually vertical coupling. It may be configured to be integrally formed.

According to the present invention, it is formed by the corresponding outer circumferential surface of the connecting pipe body 52 provided in the second locking request 47a and the button 50 formed on the inner circumferential surface of the second assembly groove 47 of the second support pipe body 42 . The second locking frame 52a may be formed on opposite sides of each other by changing the position.

Accordingly, the button 50 coupled to the valve guide 40 has the above-described second locking request (47a) and second locking frame (52a) configuration and serrations (47b) and (52b) structures during the discharge operation. Through the assembly method, it may be operated under pressure together with the valve guide 40 , and may be rotated together during locking and unlocking operations, and may be forcibly separated from the valve guide 40 if necessary.

On the other hand, according to the present invention, when assembling the connecting tube body 52 of the button 50 with respect to the second assembly groove 47 formed inside the second support tube body 42 of the valve guide 40, they are not separated from each other. The configuration to be assembled so as not to be, the coupling configuration consisting of the second locking request (47a) and the second locking frame (52a) configuration and the serration (47b, 52b) structure described above may be an example, and the same There is no need to be limited to a specific structure as long as the coupling method can achieve the purpose, and of course, various assembly methods such as a screw coupling method or an adhesive method can be devised.

Next, a description will be given of the elastic support part 60 for the pressing operation of the button 50 according to the discharge of the contents with reference to FIG. 7 . The elastic support part 60 is interposed between the valve guide 40 and the housing cover 30 to provide an elastic support force when the button 50 is pressed.

The elastic support part 60 replaces the function of a metal material used in a conventional press pump. In the present invention, as already mentioned above, only a plastic material can be used to replace a conventional metal spring. However, the elastic support part 60 is made of an elastic rubber material to provide a stable elastic force during the pumping operation, or PP to provide mechanical properties such as hardness for the elastic rubber material. It can be manufactured by mixing or PE.

The elastic support portion 60 of the present invention, if it is possible to achieve the function, including the configuration mentioned below, other various modifications will be possible.

As an example, the elastic support part 60 of the present invention is interposed between the second support tube body 42 of the valve guide 40 and the housing cover 30 to help the elastic pressing action of the button 50, As illustrated in FIG. 7 , it may be composed of a hollow tubular body with an empty interior as a whole, and a first support part 61 whose lower surface is seated on the upper surface of the support step 31 of the housing cover 30, and the It is formed to extend to the upper end of the first support part 61 and is formed so that the cut thickness becomes thinner as it goes toward the upper elastic action point 63. The elastic acting part 64, which is elastically deformed to be elastically compressed and restored at the same time, is bent stepwise inside the upper inner side of the elastic action point 63, and is supported on the support step 43 of the valve guide 40. It may be configured to include a second support portion (65).

In addition, an elevation guide groove 65a is further formed at a position coincident with the open groove 36 of the housing cover 30 on the inner circumferential surface of the second support part 65, so that when the button 50 is pressed, The locking and releasing operation ribs 48 formed on the outer peripheral surface of the first support tube body 41 of the valve guide 40 may be configured to be guided in a stable manner.

On the other hand, according to the present invention, the elastic action portion 64 of the elastic support portion 60 is designed to be smaller than the inner diameter of the lifting guide 53 of the button 50 when the maximum compression diameter is deformed by compression. Preferably, only then can the lifting guide 53 of the button freely move up and down without any interference within the lifting guide 12 of the pump cap 10 .

Therefore, since the elastic support part 60 is interposed between the housing cover 30 and the support step 43 of the valve guide 40, when the button 50 is pressed, the valve guide moves downward integrally therewith. As it is forcibly pressed by (40) and at the same time as the elastic action part (64) is compressed around the elastic action point (63), which is formed thinly, it causes a deforming action that opens outward, and the button (50) When the pressing force is released, the valve guide 40 and the button 50 naturally and quickly move upwards by the return force of the elastic acting part 64 that has been elastically compressed to the outside.

In addition, the elastic support part 60 according to the present invention may be implemented differently as illustrated in FIG. 16 , the first support part 61 supported on the upper surface of the support step 31 of the housing cover 30 . and an elastic acting part 64 formed so as to be resilient to the upper part of the first support part, and a second support part 65 extending to the upper part of the elastic acting part, wherein the elastic acting part 64 is formed. may have a configuration in which the elastic action space 64a and the elastic action piece 64b are continuously and repeatedly formed along the circumference to enable the vertical and elastic action.

Here, although the elastic action space 64a and the elastic action piece 64b formed in the elastic action portion 64 are shaped like an “S” in the drawing, they are of a form such that the compression/elastic action is performed smoothly. , it is not necessary to be limited thereto, and if the button 50 is in a form capable of up-and-down elastic action when pressing, it will be possible to carry out deformation in various forms.

In addition, according to the present invention, the elastic support portion 60 illustrated in FIG. 16 may be differently modified as shown in FIG. 17 .

That is, at the lower end of the first support part 61 of the elastic support part 60, one or more open grooves 36 as an inner circumferential surface, and a locking step 37 are formed between each of the open grooves, and the housing ( 20) may be configured to be integrally formed with the housing cover 30, which is cover-coupled to the open end of the temporary storage chamber 21 of the contents.

Here, the configuration of the housing cover 30, basically, FIG. 4 may be sufficiently referenced, and as it is integrally molded with the elastic support part 60, the omission of some configurations may be made. For example, the elastic request 34 and the second coupling part 35 in the form of being bent inwardly upward so as to be connected to each other through the lower connection part 33 and opened upwardly between them at the same time may be omitted. .

As illustrated in FIG. 17 , when forming the elastic support part 60 , the number of parts can be reduced by integrally injection-molding the housing cover 30 and the injection-injected separately into a single part, and mold manufacturing accordingly It may be possible to achieve a reduction in cost or assembly process.

As illustrated in FIGS. 16 and 17 , in the elastic support part 60 , the second support part 65 is supported on the lower surface of the second support tube body 42 of the valve guide 40 to elastically press the button 50 . It can be assembled to provide

In addition, the elastic support part 60 according to the present invention is made of a hollow tubular body shape as illustrated in FIG. 18 , and a first support part 61 supported on the upper surface of the support step 31 of the housing cover 30 . ), an elastic action portion 64 formed to be resilient to the upper portion of the first support portion, and a second support portion 65 supported on the lower surface of the second support tube body 42 of the valve guide 40 ) The inner circumferential surface 64-1 of the elastic acting part 64 may be configured to have a corrugated cross-section for providing good elastic action force.

Therefore, according to the configuration of the elastic support part 60 illustrated in FIG. 18 , since the inner circumferential surface 64-1 of the elastic acting part 64 is corrugated, when the button 50 is pressed and pumped, the elasticity is more smooth and stable. It is possible to exert the working force.

The elastic support part 60 of the present invention shown in each embodiment as described above is interposed between the valve guide 40 and the housing cover 30, and through the elastic deformation action of the elastic acting part 64, the button 50 ), the elastic pressing operation can be made quickly, smoothly, and stably.

Referring to FIG. 8 , the valve 70 includes a piston rod 71 having an upper end inserted into the first assembly groove 44 formed in the first support tube body 41 of the valve guide 40 and assembled thereto, and the piston rod The piston support 72 provided at the lower end of the and the outer circumferential surface of the piston rod 71 to guide the contents of the temporary storage compartment 21 of the housing 30 to be discharged to the discharge hole 51 of the button 50 . It is configured to include one or more slit grooves 73 divided in the longitudinal direction.

According to the present invention, a slit groove 73 for inducing discharge of the contents of the temporary storage chamber 21 to the discharge hole 51 of the button 50 is formed in the longitudinal direction with respect to the outer circumferential surface of the piston rod 71 of the valve 70 . Compared to the conventional valve structure in which a discharge path is provided in the interior of the piston rod and a hole is formed to discharge the contents by forming the By improving the structure so that the slit groove 73 is formed in the longitudinal direction with respect to the outer circumferential surface of 62), mass production of the valve 70 is possible, as well as providing technical and economic advantages that enable the production of valves of superior quality can do.

The valve 70 is not arbitrarily separated from the first assembly groove 44 formed in the first support tube body 41 of the valve guide 40 so that the piston rod 71 is operated to be lifted and lowered together with the valve guide 40. It needs to be fitted in a forced assembly method to avoid it.

To this end, the present invention, as shown in Figure 13, the inner peripheral surface of the first assembly groove 44 formed in the first support tube body 41 of the valve guide 40 and the outer peripheral surface of the piston rod 71, After the valve 70 is assembled to the valve guide 40 by forming the third locking frame 44a and the third locking groove 71a correspondingly and coupling them to each other in a forced locking manner, they are arbitrarily mutually exclusive. It can be configured to prevent separation.

At this time, the third locking frame 44a formed on the inner peripheral surface of the first assembly groove 44 formed in the first support tube body 41 and the third locking groove 71a formed on the outer peripheral surface of the piston rod 71 are It may be formed on the opposite side by changing the positions of each other.

And, the configuration of the third locking frame 44a and the third locking groove 71a provided in the present invention to prevent arbitrary separation and separation of the valve 70 with respect to the valve guide 40 is an example It may be, and as long as it is a coupling method capable of achieving the same purpose, it is not necessary to be limited to a specific structure, and of course, various assembly methods such as a screw coupling method may be devised.

9, the piston 80 is interposed between the valve guide 40 and the valve 70 to provide a downward compressive force in the temporary storage chamber 21 of the contents when the contents are discharged, and is opened by the downward movement deviation. This allows the contents to be discharged through the gap between the upper gap of the piston support 72 of the valve 70 and the slit groove 73 of the piston rod 71, and in the case of non-discharging, the contents are temporarily stored from the container 100 in reverse. (21) will provide a suction force to force the contents to be sucked.

To this end, the piston 80 is configured to include an inner wall 81 and an outer wall 82 formed at a predetermined distance to the outside with respect to the inner wall, and the inner wall 81 is the piston rod 71 . The lower end (81a) of which is fitted on the outer circumferential surface is seated and supported on the upper surface of the piston support (72), and the upper end (81b) of the first support tube body (41) of the valve guide (40) is formed as an inner circumferential surface of the lower end of the elevating guide. It is coupled to provide an elevating working space P between the grooves 45, and the outer wall 82 is coupled so as to be in elastic close contact with the inner circumferential surface of the temporary storage compartment 21 of the housing 20. (See FIG. 1) )

Accordingly, the piston 80 is coupled so that the inner wall 81 is fitted to the piston rod 71, the lower end 81a is seated and supported on the piston support 72, and the upper end 81b is the valve guide. (40) As a part of the second support pipe body 41 is coupled in a state where a part is fitted through the elevating guide groove 45 which is extended and formed to the inner circumferential surface of the lower end, the elevating operation space P is provided. , before the button 50 is pressed, the slit groove 73 formed in the piston rod 72 of the valve 70 is always blocked by the lower end of the inner wall 81 that is in close contact with the upper surface of the piston support 72, In addition, only when the button 50 is pressed to discharge the contents, the piston 80 descends later than the piston rod 71 of the valve 70 by the lifting working space P due to the descending movement deviation. As the lower end 81a of the inner wall 81, which was in close contact with the upper part of the piston support 72, is spaced apart, the contents can be discharged through the gap and the slit groove 73 of the piston rod 71. . (see Figures 1 and 15)

Meanwhile, according to the present invention, the inner wall 81 lower end 81a of the piston 80 seated on the piston support 72 of the valve 70 has a slit groove 73 formed on the outer peripheral surface of the piston rod 71 . ) can be supported in a multiple airtight structure with respect to the piston bearing 72 in order to provide high airtightness.

To this end, in the present invention, as shown in FIG. 14 , a wedge-shaped airtight support groove 72a is further formed as the piston support 72 of the valve 70, and the airtight support groove 72a is The inner wall 81 of the piston 80 is configured such that the lower end 81a is supported in a multi-adherence state to provide high airtightness to the slit groove 73 of the piston rod 71 .

In more detail, as the airtight support groove 72a formed of the piston support 72 is formed in a wedge groove shape, the inner wall 81 lower end 81a of the piston 80 fitted thereto is at least the bottom surface and both ends thereof. Since parts of both sides adjacent to each other, including corners, are supported in a state of being in close contact with each other, multiple contact support is possible.

Referring to FIG. 10 , the backflow prevention disk 90 is coupled to open and close the contents inlet hole 22 formed in the bottom of the contents temporary storage chamber 21 of the housing 20, and the backflow prevention disk is a unidirectional disk. As an example, when the contents in the container 100 are introduced into the temporary contents storage chamber 21 of the housing 20 through the contents inlet hole 22 and the backflow prevention disk, the liquid contents flow back into the container 100 again. ) has a structure that cannot be entered, and through this, when the button 50 is pressed, the discharging action of the contents stored in the contents temporary storage chamber 21 can be made smoothly.

Each component of the push pump 1 according to the present invention configured as described above is assembled as shown in FIG. 1 , and may be used in combination with the inlet 110 of the container 100 .

At this time, in the process of product distribution, for example, in order to prevent the button 50 from being arbitrarily pressed before the product is finally supplied to the consumer and used, the button 50 is used to prevent the contents from being discharged to the outside. The locking and release operation rib 48 formed on the first support tube body 41 of the valve guide 40 coupled to the locking step 37 of the housing cover 30, in particular, is caught on the horizontal support surface 37a The button 50 is rotated and assembled to the closed position so as to be supported. In this case, the closed position of the button may be appropriately displayed on the upper surface of the button. Then, the button 50 is prevented from being arbitrarily pressed by the locking support of the locking and releasing operation rib 48 during the distribution process, and at the same time, arbitrary discharge of the contents can also be prevented. (See FIG. 11 )

And, when assembling the liquid pressure pump 1 according to the present invention, the inner wall 81 of the piston 80, the upper end 81a of the piston rod 71 and the first support tube body of the valve guide 40 ( 41) The elevating operation space (P) is inserted into the elevating guide groove 45 formed by the lower inner circumferential surface and assembled in a state where it is provided.

In addition, the elastic support part 60 interposed between the valve guide 40, the support step 43 and the housing cover 30 maintains the state in which the elastic action part 64 is extended to the maximum, through which the valve The valve 70 in which the piston valve 71 is fitted inside the first assembly groove 44 of the first support tube body 41 of the guide 40 maintains a state of moving upward of the temporary storage chamber 21 of the contents. At the same time, the piston 80 also maintains the upwardly supported state, and at this time, the inner wall 81 of the piston 80, the lower end 81a blocks the upper surface of the piston support 72, so the piston Discharge of the contents is prevented through the slit groove 73 of the rod 71 .

Therefore, in the product on which the liquid pressure pump 1 of the present invention is mounted, in the distribution process, as described above, the button 50 is the first of the valve guide 40 with respect to the locking step 37 of the housing cover 30 . Since the locking and unlocking operation ribs 48 formed on the support tube body 41 are stably supported and maintained in a locked state, discharging of the contents is not possible.

A state in which a consumer purchases a product and uses the product by discharging the contents to the outside in this state will be described with reference to FIG. 15 as follows.

First, in order to discharge the contents, the button 50 assembled in the locked state is rotated to the open position. In this case, the open position of the button may also be appropriately displayed on the upper surface of the button. When the button 50 is rotated to the open position as described above, the valve guide 40 and the elastic support 60 integrally coupled thereto, or the valve 70 coupled to the valve guide 40, It is rotated in the same direction, and at the same time, the locking and unlocking operation rib 48 formed on the first support tube body 41 of the valve guide rotates along the locking step 37 of the housing cover 30, while the opening groove 36 ) is moved to position.

When the button 50 is pressed in this state, the valve guide 40 coupled to the first support tube body 41 of the button moves downward, and at the same time, the piston moves against the first support tube body 41 of the valve guide. The valve 70 to which the rod 71 is coupled also moves downward. In addition, when the button is pressed, the elastic support part 60 interposed between the support step 43 of the valve guide 40 and the housing cover 30 is also elastically operated to open outward. That is, the elastic action portion 64 of the elastic support portion 60 undergoes an elastic deformation in which the lower end is gradually opened outwardly and compressed around the elastic action point 63 having a thin thickness. And, in the process of the piston rod 71 of the valve guide 40 and the valve 70 moving downward together, the piston 80 is provided inside the lower end of the first support pipe 41 of the valve guide 40 When the upper end 81b of the inner wall 81 is fitted with respect to the elevating guide groove 45, since the elevating working space P is provided in the state where it is fitted, the valve guide 40 by the elevating working space P The first support tube body 41 of the downward movement does not move downward until it is forcibly moved. That is, since it has a downward movement deviation as much as the lifting working space P, the piston support 72 is blocked by the upper surface of the piston support 72 of the valve 70 and the inner wall 81 of the piston 80 and the lower end 81a ( 72), a gap is generated on the upper surface. In this state, the valve 70 and the piston 80 move downward together, and in this process, the outer wall 82 of the piston 80 is in elastic contact with the inner circumferential surface of the content temporary storage chamber 21 in which the content is stored. The contents are compressed while moving, and the contents stored in the contents temporary storage chamber 21 through the downward compression action of the piston 80 are opened according to the deviation of the downward movement distance of the piston 80 . The contents are introduced into the gap on the upper surface of the piston support 72 of the 40) is discharged to the outside through the through hole 46a formed in the partition wall 46, the connector body 52 of the button 50, and the outlet hole 51 of the button 50 connected to the connector body 52, will lose

In addition, when the discharging of the contents is completed and the press on the button 50 is released, the elastically acting part 64 of the elastic support part 60, which was elastically deformed in a compressed state, quickly returns to its original state by its own elastic force. The button 50, the valve guide 40, and the valve 70 are simultaneously moved upward by the elastic restoring force of the elastic action part, and the piston 80 is also forcibly upward by the upward movement of the valve. As it moves, the slit groove 73 is blocked by the lower end 81a of the inner wall 81 being in close contact with the upper surface of the piston support 72 of the valve 70 . And according to the upward movement of the piston 80, a suction force is generated in the interior of the contents temporary storage chamber 21 according to the rise of the piston, and the contents contained in the container through the suction force are transferred to the contents inlet hole 22 and countercurrent flow. The contents are forcibly sucked into the temporary storage chamber 21 through the prevention disk 90 . The suction process of the contents is performed until the button 50 is released and the elastic action part 64 of the elastic support part 60 returns to its original position.

On the other hand, in the process of discharging the contents, the button 50, the valve guide 40, and the valve 70 have a locking and unlocking operation rib 48 formed on the outer circumferential surface of the first support tube body 41 of the valve guide 40 in the housing. As it moves up and down along the open groove 36 formed vertically on the inner circumferential surface of the second coupling part 35 of the cover 30, a stable discharging operation of the contents is possible.

Therefore, according to the liquid pressure pump 10 according to the present invention, the elastic support part 60 acts as an elastic deformation in conjunction with this by providing or releasing a pressing force to the button 50, and the Through the elastic deformation action of the elastic support portion 60, the button 50, the valve guide 40, the valve 70, and the piston 80 move up and down while moving the contents of the temporary storage compartment 21 once or several times. It becomes possible to continuously and repeatedly discharge the contents, and at the same time, it is possible to forcibly suck the contents stored in the container 100 into the contents temporary storage chamber 21 of the housing 20 .

Although the present invention has been described with reference to the accompanying drawings, the present invention is not limited thereto, and it is natural that many modifications and changes may be made within the scope of the following claims.

10: pump cap 11: coupling part
12: elevating guide 13: support ring jaw
20: housing 21: contents temporary storage room
21a: first jamming request 22: contents inlet hole
23: flange 23a: airtight groove
24: air hole 30: housing cover
31: support step 32: first coupling part
32a: first catch frame 32b: airtight frame
33: bottom connection 34: elastic demand
35: second coupling part 36: open groove
37: locking step 37a: horizontal support surface
37b: inclined bearing surface 40: valve guide
41, 42: first and second support tube 43: support step
44,47: first and second assembly groove 44a: third locking frame
45: elevating guide groove 46: bulkhead
46a: through hole 47a: second jamming request
47b, 52b: Serration 48: Locking and unlocking operating ribs
50: button 51: discharge hole
52: connector body 52a: second locking frame
53: elevating guide part 60: elastic support part
61: first support part 63: elastic action point
64: elastic action portion 64a: elastic action space
64b: elastic action piece 65: second support portion
65a: elevating guide groove 70: valve
71: piston rod 71a: third locking groove
72: piston support 72a: airtight support groove
73: slit groove 80: piston
81: inner wall 81a, 81b: bottom and top of the inner wall
82: outer wall 90: non-return disk
100: container 110: inlet
P: Lifting working space

Claims (14)

a pump cap 10 detachably coupled to the inlet 110 of the container 100;
The housing ( 20) and;
A second coupling part 32 is cover-coupled to the open end of the content temporary storage chamber 21 of the housing 20, and one or more open grooves 36 on the inner circumferential surface, and a locking step ( 37) and the housing cover 30 is formed;
The lower end of the first support tube body 41 is fitted into the housing cover 30, and at the same time, a second support tube body 42 having a second assembly groove 47 formed therein on one side of the first support tube body. ) is extended, and a through hole 46a is formed inside the first support tube body and the second support tube body. A valve in which a locking and release operation rib 48 that is guided up and down with respect to the open groove 36 formed in the cover 30 and is selectively caught on the locking step 37 when the contents are not discharged is formed to protrude in the longitudinal direction. a guide 40;
a button 50 to which the connection pipe body 52 connected to the discharge hole 51 is coupled to the second support pipe body 42 of the valve guide 40;
An elastic support part 60 that is elastically installed between the housing cover 30 and the valve guide 40 while having an elastic acting part 64 for providing a resilient force according to the pressing action of the button 50 and ;
The piston rod 71 is fitted into the first support tube body 41 of the valve guide 40 and is coupled, and the piston support 72 and the housing cover are positioned inside the temporary storage chamber 21 of the housing 20 . A piston (80) is coupled to the piston rod (71) to have a downward movement deviation through the lifting/lowering working space (P) between (30) and the button (50) at least one slit groove 73 for discharging to the discharge hole 51 of the valve 70 is divided in the longitudinal direction; consists of,
The inner peripheral surface of the open end of the content temporary storage chamber 21 of the housing 20 and the outer peripheral surface of the first coupling part 32 of the housing cover 30 have a first locking request 21a and a first locking frame 32a circumferentially. They are further formed to correspond in the circumferential direction so that they are engaged with each other, and the upper surface of the flange 23 of the housing 20 and the lower surface of the support step 31 of the first coupling part 32 are airtight grooves 23a and When the housing cover 30 is coupled to the housing 20 by further forming the airtight rim 32b to correspond to the circumferential circumferential direction, they are configured to be airtightly coupled to each other,
The airtight groove (23a) formed on the upper surface of the flange (23) of the housing (20) and the airtight rim (32b) formed by the lower surface of the support step 31 of the first coupling part (32) of the housing cover (30) Each upper surface and the corresponding lower surface are further formed with concavo-convex surfaces (23a-1) and (32b-1) to prevent them from turning when they are fitted. A pump cap 10 that is open at both ends and has a coupling portion 11 coupled to the outer circumferential surface of the inlet 110 of the container 100, an elevation guide 12 connected to the coupling portion, and a support hwanteok 13 as the inner circumferential surface. )class;
The flange 23 is seated in a state supported by the upper surface of the inlet port of the container, has a content temporary storage chamber 21, and the bottom of the content temporary storage chamber 20 has a content inlet hole 22 formed therein; ;
A support step 31 that is covered by the open end of the content temporary storage chamber 21 of the housing 20 and is seated and supported on the upper surface of the flange 23, and the content temporary storage chamber 21 so as to be in close contact with the inner circumferential surface. It is configured to include a first coupling part 32 to be fitted and a second coupling part 35 bent upward inward so that an elastic request 34 is provided through a lower connection part 33 with respect to the first coupling part, a housing cover 30 having one or more open grooves 36 formed in a vertical direction at appropriate intervals on the inner circumferential surface of the second coupling part and having a locking step 37 formed between the opening grooves;
A first support tube body 41 is fitted into the second coupling part 35 of the housing cover 30, and a second support tube body 42 is extended to one side of the first support tube body, and the second support tube body 42 is formed. First and second assembly grooves 44 and 47 are respectively formed in the interior of the first and second support tubes, and the first and second assembly grooves have through-holes 46a formed in the partition wall 46 therebetween. communicated with each other through, and inside the lower end of the first support tube body 41, an elevating guide groove 45 of a form that extends further than the first assembly groove is formed, and the contents are on the outer peripheral surface of the first support tube body During the discharging action, the elevating guide is guided with respect to the open groove 36 formed in the second coupling portion 35 of the housing cover 30, and when the contents are not discharged, the locking step 37 is selectively caught and supported. and a valve guide 40 having a release operation rib 48 protruding in the longitudinal direction;
The connection pipe body 52 connected to the discharge hole 51 is coupled to the second reaming groove 47 formed in the second support pipe body 42 of the valve guide 40 , and the pump cap 10 is raised and lowered. a button 50 having an elevating guide unit 53 fitted to the guide unit 12 to be elevated and guided;
An elastic support part 60 that is elastically installed between the housing cover 30 and the valve guide 40 while having an elastic acting part 64 for providing a resilient force according to the pressing action of the button 50 and ;
A piston rod 71 is fitted into the first reaming groove 41 of the valve guide 40, a piston support 72 is formed on one side of the piston rod, and the contents are discharged on an outer circumferential surface of the piston rod. a valve 70 having one or more slit grooves 73 divided in the longitudinal direction;
The piston support ( 72) The contents are discharged through the upper gap and the slit groove 73 of the piston rod 71, and the contents are forcibly sucked from the container 100 into the temporary storage compartment 21 in the case of non-discharge. In order to provide a suction force, the lower end 81a of the inner wall 81 is in close contact with the piston support 72 of the valve 70 and is coupled to the piston rod 71, and the upper end 81b of the inner wall is The first assembly groove 44 of the first support tube body 41 of the valve guide 40 is fitted in a state where the lifting operation space P is provided with respect to the lifting guide groove 45 formed inside the inner wall. a piston 80 which is formed to extend outside of the housing 20 and includes an outer wall 82 that is raised and lowered in a state of elastically close contact with the inner circumferential surface of the temporary storage chamber 21 of the contents of the housing 20; and
A unidirectional disk that opens and closes the content inlet hole 22 formed at the bottom of the housing 20 and prevents the content flowing into the temporary content storage chamber 21 of the housing 20 from flowing back into the container 100 again. It is configured to include a non-return disk 90 of the form,
The inner peripheral surface of the open end of the content temporary storage chamber 21 of the housing 20 and the outer peripheral surface of the first coupling part 32 of the housing cover 30 have a first locking request 21a and a first locking frame 32a circumferentially. They are further formed to correspond in the circumferential direction so that they are engaged with each other, and the upper surface of the flange 23 of the housing 20 and the lower surface of the support step 31 of the first coupling part 32 are airtight grooves 23a and When the housing cover 30 is coupled to the housing 20 by further forming the airtight rim 32b to correspond to the circumferential circumferential direction, they are configured to be airtightly coupled to each other,
The airtight groove (23a) formed on the upper surface of the flange (23) of the housing (20) and the airtight rim (32b) formed by the lower surface of the support step 31 of the first coupling part (32) of the housing cover (30) Each upper surface and the corresponding lower surface are further formed with concavo-convex surfaces (23a-1) and (32b-1) to prevent them from turning when they are fitted. 3. The method of claim 1 or 2,
The elastic support part 60 is formed with a first support part 61 supported on the upper surface of the support step 31 of the housing cover 30, and is formed to extend above the first support part and has an elastic action point 63. An elastic acting part 64 that is elastically deformed so as to be compressed and restored at the same time as it spreads outward from the center, and a second support part extended to the upper part of the elastic acting part and supported on the support step 43 of the valve guide 40 ( 65), characterized in that it comprises a liquid push pump. 3. The method of claim 1 or 2,
The elastic support part 60 includes a first support part 61 supported on the upper surface of the support step 31 of the housing cover 30, and an elastic action part formed so as to be resilient to the upper part of the first support part ( 64) and a second support part 65 extending above the elastically acting part, wherein the elastically acting part 64 has an elastic working space 64a and an elastically acting piece 64b to enable vertical and elastic action. ) is continuously and repeatedly formed along the circumference. 3. The method of claim 1 or 2,
An air hole (24) is further formed in the temporary storage chamber (21) of the contents of the housing (20). 3. The method of claim 1 or 2,
The locking step 37 communicating with one side of each open groove 36 of the housing cover 30 includes a horizontal support surface 37a formed toward the non-communicating portion of the open groove 36, and the horizontal support surface (37a) and the liquid press pump, characterized in that it is divided and formed by an inclined support surface (37b) formed on a portion communicating with one side of the open groove (36). 4. The method of claim 3,
The elastically acting portion 64 extended to the upper end of the first supporting portion 61 of the elastic supporting portion 60 has a thinner cutting thickness as it goes from the first supporting portion toward the upper elastically acting point 63. The liquid press pump, characterized in that when the button (50) is pressed by pressing the button (50), the lower end of the button (50) is opened to the outside as a starting point to easily perform a compressive elastic action. 3. The method of claim 1 or 2,
A second locking request ( 47a) and the second locking frame 52a are formed to correspond in the circumferential direction to prevent arbitrary separation in the vertical direction by their mutual locking coupling, and the second assembly groove 47 and connection Liquid, characterized in that the serration (47b, 52b) is formed to correspond to the inner peripheral surface and the outer peripheral surface of the tube body (52), respectively, and is configured such that the left and right rotation is integrally made by mutually perpendicular coupling thereof. press pump. 3. The method of claim 1 or 2,
The inner circumferential surface of the first assembly groove 44 formed in the first support tube body 41 of the valve guide 40 and the outer circumferential surface of the piston rod 71 include a third locking frame 44a and a third locking groove ( 71a) is formed correspondingly, and the valve 70 is assembled to the valve guide 40 so that they are coupled to each other in a forcible manner to prevent them from being separated from each other arbitrarily. . 3. The method of claim 1 or 2,
A wedge-shaped airtight support groove (72a) is further formed as the piston support (72) of the valve (70), and the inner wall (81) lower end (81a) of the piston (80) with respect to the airtight support groove (72a) Liquid push pump, characterized in that it is configured to be supported in this multi-adherence state. 11. The method of claim 10,
The inner wall 81 lower end 81a of the piston 80, which is in multiple contact with the wedge groove-shaped airtight support groove 72a formed by the piston support 72, is adjacent, including at least its bottom surface and both end edges. A liquid press pump, characterized in that parts of both sides of the pump are in close contact with each other. 4. The method of claim 3,
An elevating guide groove 65a is further formed at a position coincident with the open groove 36 of the housing cover 30 on the inner circumferential surface of the second support part 65 of the elastic support part 60, so that the button 50 Liquid press pump, characterized in that the locking and releasing operation rib (48) formed on the outer peripheral surface of the first support tube body (41) of the valve guide (40) is configured to be guided up and down when pressurized. 5. The method of claim 4,
The elastic support part 60 has one or more open grooves 36 on the inner peripheral surface of the lower end of the first support part 61, and a locking step 37 is formed between each of the open grooves, and the housing 20 . 3. The method of claim 1 or 2,
The elastic support part 60 is made of a tubular body, and the first support part 61 supported on the upper surface of the support step 31 of the housing cover 30, and the upper part of the first support part, so that the elastic action is possible. It is composed of an elastic acting part 64 formed and a second support part 65 supported on the lower surface of the second support tube body 42 of the valve guide 40, and the inner circumferential surface of the elastic acting part 64 ( 64-1) is a liquid push pump, characterized in that it is configured to have a corrugated cross section to provide good elastic action force.

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