CN110371433B

CN110371433B - Double-material combined pressure pump bottle

Info

Publication number: CN110371433B
Application number: CN201910677201.8A
Authority: CN
Inventors: 余仁卫
Original assignee: Hangzhou Kanghong Industry & Trade Co ltd
Current assignee: Hangzhou Kanghong Industry & Trade Co ltd
Priority date: 2019-07-25
Filing date: 2019-07-25
Publication date: 2024-08-02
Anticipated expiration: 2039-07-25
Also published as: CN110371433A

Abstract

The invention discloses a double-material combined pressure pump bottle, which comprises a bottle body, wherein a pressure pump is cooperatively arranged on the bottle body, a pump core of the pressure pump stretches into the bottle body, a rigid suction pipe is vertically inserted into the lower end of the pump core, a pushing hole is formed in the bottom of the bottle body in a penetrating manner, and the lower end of the suction pipe is adaptively inserted into the upper half part in the pushing hole; the upper end of the pushing rod is adaptively inserted into the lower half part in the pushing hole; a second material cavity part is fixed in the bottle body, and is provided with a cavity with an opening at the upper end; a cavity cover is fixed on the suction pipe and is buckled with the upper end opening of the cavity of the second material cavity component in a sealing way; the upper end of the suction pipe is connected with the lower end of the pump core by a structure with a variable distance, and the upward distance of the lower end of the suction pipe is greater than the length of the lower end of the suction pipe inserted in the pushing hole. The beneficial effects of the invention are as follows: structurally, smooth mixing of the dual materials is ensured, while providing a pump for better access to the mixed liquor by the user.

Description

Double-material combined pressure pump bottle

Technical Field

The invention relates to the field of packaging materials, in particular to a double-material combined-packaging pressure pump bottle which is mainly applied to special packages of cosmetics, medicines and the like so as to realize the function of independently packaging two materials in one container.

Background

In the packaging containers for cosmetics and medicines, some materials need to be independently packaged and mixed for use. The traditional method is to pack two materials separately in two different containers, and the user mixes the two materials in one of the containers by himself at the time of use. This is problematic in that contamination is easily generated during operation. The Chinese patent document with the application number 2019202840651 applies for a water-powder agent mixing bottle in 2019, 3 and 6, and comprises a water-agent bottle with an opening at the lower end, a powder bottle and an outer cover; the external diameter of the powder bottle is matched with the internal diameter of the opening at the lower end of the water agent bottle, and the powder bottle is inserted into the opening at the lower end of the water agent bottle; the opening of the powder bottle is downward; the outer cover is hermetically sleeved at the opening of the powder bottle; a breaking structure is arranged in the outer cover; the outer cover and the powder bottle slide relatively in the axial direction, and when the outer cover slides to one side close to the powder bottle, the breaking structure breaks the bottom of the powder bottle. The scheme realizes the function of independently packaging two materials in one container respectively, but the process of bursting the powder bottle bottom by the burst structure is limited by the material hardness comparison of the burst structure and the powder bottle bottom, and the burst effect can not be formed strictly and in a standard way, so that the physical strength of a user is required to be certain. After the mixed solution is formed, the use is not convenient.

Disclosure of Invention

Based on the problems, the invention provides the double-material combined pressure pump bottle, which structurally ensures smooth mixing of double materials and simultaneously provides the pressure pump so that a user can better take mixed liquid.

In order to achieve the aim of the invention, the invention adopts the following technical scheme: a double-material combined-loading pumping bottle comprises a bottle body, wherein a pumping pump is cooperatively installed on the bottle body, a pumping core of the pumping pump stretches into the bottle body, a rigid suction pipe is vertically inserted into the lower end of the pumping core, a pushing hole is formed in the bottom of the bottle body in a penetrating manner, and the lower end of the suction pipe is inserted into the upper half part in the pushing hole in an adapting manner; the upper end of the pushing rod is adaptively inserted into the lower half part in the pushing hole; a second material cavity part is fixed in the bottle body, and is provided with a cavity with an opening at the upper end; a cavity cover is fixed on the suction pipe and is buckled with the upper end opening of the cavity of the second material cavity component in a sealing way; the upper end of the suction pipe is connected with the lower end of the pump core by a structure with a variable distance, and the upward distance of the lower end of the suction pipe is greater than the length of the lower end of the suction pipe inserted in the pushing hole.

The bottle body of the double-material combined pressure pump bottle designed by the technical scheme is not limited to a cylinder shape. The bottle body is provided with a pressure pump in a matching way, the main components of the pressure pump are a pump head, a pump core and a suction pipe, and the pressure pump is mainly used for pumping out mixed liquid in the bottle body so as to be convenient to use. A second material cavity part is fixed in the bottle body, the second material cavity part is provided with a cavity with an opening at the upper end, a cavity cover is fixed on the straw, in an unused state, the cavity is closed and is used for independently holding the second material, and the interior of the bottle body outside the cavity is used for independently holding the first material. Typically, the first material is a liquid, and the second material may be a liquid, or may be a particulate or powdery solid, soluble in the first material, or may be substantially mixed with the first material. The bottom of bottle is link up and is equipped with the extrusion hole, and the upper half of extrusion hole is pegged graft with the straw lower extreme, and lower half is pegged graft with the extrusion pole upper end, and reserves upstream space between straw and the pump core lower extreme, and when the extrusion pole upwards promotes, the straw is pushed and is gone up, drives the chamber lid and goes up, makes the cavity on the second material chamber part open, and first material and second material realize mixing, forms required mixed solution. At this time, the pushing rod is retracted downwards again, so that the lower end of the suction pipe can freely suck the mixed liquid, the pump head is pressed, and the pump can pump the mixed liquid. The upper end of the suction pipe is connected with the lower end of the pump core by a structure with a variable distance, and the connecting structure can be as follows: the upper end of the straw is provided with a telescopic corrugated pipe, and the telescopic structure similar to the middle part of a common beverage straw can adjust the whole length of the straw under the action of external force; or a section of hose, one end of which is connected with the pump core, the other end of which is connected with the upper end of the suction pipe, etc.; however, the parts inserted into the pushing holes and the parts connected with the cavity cover must be rigid, so that the pushing action of the pushing rod is completely transmitted to the cavity cover. .

Preferably, the lower end of the pushing rod is connected with a pushing button, and the lower end face of the pushing button is exposed below the bottle bottom. The push rod is difficult to operate by being directly pushed, so that the push button is designed in the scheme to facilitate a user to push the push rod. Further, if the push button is clamped with the side wall of the bottle body, the material of the push button is recommended to be a more elastic material, and after the push button is pressed to push the straw up, the push button can drive the push rod to reset downwards by means of self elasticity, so that the opening at the lower end of the straw is exposed.

Preferably, a lower cover is also arranged and detachably connected to the bottom of the bottle body, and is covered on the outer side of the push button. The push button is exposed to the outside and is easily mishandled during shipping. The push button can be protected by the lower cover, and misoperation is avoided.

Preferably, the lower end of the pump core is provided with a jack, and the upper end of the suction pipe is inserted into the jack to move up and down. The connection mode of the upper end of the suction pipe designed by the scheme and the lower end of the pump core is an inserting structure, and a sufficient amount of suction pipe uplink travel is reserved. Such a solution is more convenient to assemble.

Preferably, the lower end of the suction pipe is provided with a stepped pipe, the diameter of the upper section of the stepped pipe is larger than that of the lower section, the lower section is inserted into the upper half part in the pushing hole, and the stepped surface and the upper end face of the wall of the pushing hole are mutually limited. The stepped pipe can be a part of the straw, can be inserted into the lower end of the straw, and has the main function of utilizing the limiting function of the stepped pipe to facilitate assembly.

Preferably, the bottom of the side wall of the bottle body and the side wall of the lower cover are respectively provided with a clamping limiting structure in a relative mode, and the lower cover is connected with the bottle body through the clamping limiting structures. The design realizes the connection of the lower cover and the bottle body through the clamping structure, and the lower cover can be removed by opening the clamping structure. The pushing rod only needs to be pushed once when being used for the first time by a user, and then the pushing rod does not need to be pushed again, so that the protection effect of the lower cover is eliminated, and the clamping structure can be reusable or disposable and can be selected and designed by a person skilled in the art and an appearance designer.

Preferably, the bottle body is a straight cylinder with the bottom communicated; the second material cavity part is inserted and fixed at the bottom of the bottle body, and the side wall of the second material cavity part is in sealing fit with the side wall of the bottle body; the pushing hole is communicated with the bottom plate of the second material cavity component. In order to facilitate manufacture and assembly, the bottom plate of the bottle body and the second material cavity part are combined into a whole, and the pushing hole is communicated with the bottom plate of the second material cavity part.

Preferably, a cavity cover plug hole is formed in the middle of the cavity cover in a penetrating manner, the cavity cover plug hole is a stepped hole, and the hole diameter of the upper end is larger than that of the lower section; the upper section of the stepped hole is inserted outside the lower end of the suction pipe in a tight fit manner, the hole wall of the lower section of the stepped hole extends downwards, and the upper section of the stepped pipe is inserted in a tight fit manner. The scheme separates the suction pipe, the cavity cover and the step pipe into three pluggable parts, so that the difficulty in manufacturing the parts is reduced, and the assembly is convenient.

In summary, the beneficial effects of the invention are as follows: structurally, smooth mixing of the dual materials is ensured, while providing a pump for better access to the mixed liquor by the user.

Drawings

Fig. 1 is an axial cross-sectional view of the present invention prior to initial use.

Fig. 2 is an enlarged view of a portion a in fig. 1.

Fig. 3 is an axial sectional view of the present invention after initial use with the upper and lower covers removed.

Wherein: 1 upper cover, 2 pump head, 3 pump core, 4 inner cover, 5 gasket, 6 bottle, 7 straw, 8 chamber lid, 9 ladder pipe, 10 second material chamber parts, 11 push button, 12 lower cover, 21 push hole, 22 push pole, 23 chamber lid spliced eye.

Detailed Description

The invention is further described below with reference to the drawings and detailed description.

The embodiment is a double-material combined-loading pressure pump bottle, wherein powder and liquid are independently loaded in the bottle, and a consumer mixes the powder and the liquid by himself when using the bottle for the first time, so as to obtain the required mixed liquid.

As shown in figure 1, the double-material combined pressure pump bottle comprises a cylindrical bottle body 6, an inner cover 4 is fixedly sealed above the bottle body, a pressure pump is arranged on the inner cover, and an upper cover 1 is covered outside the pressure pump. The pump is divided into three parts of a pump head 2, a pump core 3 and a suction pipe 7, and a gap between the pump core and the inner cover is sealed by a gasket 5. The lower end of the pump core is provided with a jack, and the upper end of the rigid suction pipe is inserted into the jack to move up and down.

As shown in fig. 2, the bottom of the bottle body is through, the second material cavity part 10 is inserted and fixed at the bottom of the bottle body, and the side wall of the second material cavity part is in sealing fit with the side wall of the bottle body. The second material cavity part is provided with a bottom plate, and the bottom plate and the side wall are surrounded to form a cavity with an opening at the upper end, and the cavity is used for independently containing powder. And the space in the bottle body except the cavity is used for independently containing liquid. A push hole 21 is formed in the bottom plate of the second material cavity part in a penetrating manner. The lower end of the suction pipe is fixedly connected with a cavity cover 8, and the buckling of the cavity cover is matched to seal the upper end opening of the cavity on the second material cavity part. The middle part of the cavity cover is communicated with a cavity cover plug hole 23, the cavity cover plug hole is a stepped hole, and the hole diameter of the upper end is larger than the hole diameter of the lower section; the upper section of the stepped hole is inserted outside the lower end of the suction pipe in a tight fit manner, the hole wall of the lower section of the stepped hole extends downwards, and the upper section of the stepped pipe 9 is inserted in a tight fit manner. The diameter of the upper section of the stepped pipe is larger than that of the lower section, the upper section is spliced with the hole wall of the lower section of the stepped hole, the lower section is spliced at the upper half part in the pushing hole, and the stepped surface and the upper end face of the hole wall of the pushing hole are mutually limited. The lower half part in the pushing hole is inserted with a pushing rod 22 in an adapting way, and the pushing rod can push the ladder tube, the cavity cover and the suction tube to synchronously move upwards when being pushed upwards by pushing force. The lower end of the pushing rod is connected to a pushing button 11, and a user can push the pushing button to push the pushing rod. The upward distance of the lower end of the suction pipe caused by the pushing of the pushing rod is larger than the length of the lower end of the suction pipe inserted in the pushing hole. The lower end face of the pushing button is exposed below the bottle bottom. In this case, the lateral wall of second material chamber part downwardly extending is equipped with sunken round spacing groove on the inside wall of extension, is equipped with bellied round spacing muscle on the lateral wall of push button, and push button and second material chamber part pass through the joint cooperation structure between spacing groove and the spacing muscle and realize being connected. The push button is made of elastic LDPE.

The lower cover 12 is detachably connected to the bottom of the bottle body and covers the outer side of the push button. In this case, the lateral wall of second material chamber part downwardly extending is equipped with bellied round spacing muscle on the lateral wall of extension, and the relative round spacing groove that is equipped with on the lower cover inside wall, lower cover and second material chamber part realize being connected through the joint cooperation structure between spacing groove and the spacing muscle.

The two-material combined pump bottle of this example is shown in fig. 1 in the assembled state. When the user uses for the first time, the lower cover needs to be taken down, the push button is exposed, then the push button is pressed upwards, and the step tube, the cavity cover and the suction tube are pushed upwards through the push rod. The result of the pushing is: the upper end opening of the cavity body on the second material cavity part is opened, and the liquid and the powder are mixed; the lower end opening of the stepped pipe communicated with the lower end of the suction pipe loses the blocking, and the mixed liquid can be sucked. At this time, the upper cover is removed, the pump head is exposed, and the mixed liquid can be pumped out for use by pressing the pressure pump. After the pushing button is pressed, the pushing button can rebound downwards to drive the pushing rod to reset downwards. The state of the two-material-filled pump bottle of this example after initial use is shown in fig. 3.

If the push button does not need to reset downwards to rebound, the self-adapting transformation can be carried out, for example, the limit matching structure of the push button and the second material cavity part is canceled, the push button is pushed upwards and then communicated with the push rod to be kept above, and a liquid suction hole which is penetrated laterally is arranged below the side wall of the stepped pipe, and the mixed liquid is sucked through the liquid suction holes.

Claims

1. The double-material combined-loading pumping bottle comprises a bottle body (6), wherein a pumping pump is cooperatively installed on the bottle body, a pumping core (3) of the pumping pump stretches into the bottle body, and a rigid suction pipe (7) is vertically inserted into the lower end of the pumping core; the upper end of the pushing rod is adaptively inserted into the lower half part in the pushing hole; a second material cavity part (10) is fixed in the bottle body, and is provided with a cavity with an opening at the upper end; a cavity cover (8) is fixed on the suction pipe and is buckled with the upper end opening of the cavity of the second material cavity part in a sealing way; the upper end of the suction pipe is spliced with the lower end of the pump core, the suction pipe can ascend, and the ascending distance of the lower end of the suction pipe is larger than the length of the lower end of the suction pipe spliced in the pushing hole;

the pushing rod moves upwards to drive the suction pipe and the cavity cover to move upwards, so that the second material cavity part is opened.

2. The two-material combined pressure pump bottle as claimed in claim 1, wherein the lower end of the pushing rod is connected with a pushing button (11), and the lower end face of the pushing button is exposed below the bottle bottom.

3. The dual material combined pressure pump bottle as claimed in claim 2, further comprising a lower cap (12) detachably connected to the bottom of the bottle body and covering the outside of the push button.

4. A two-material co-filling pump bottle according to claim 1,2 or 3, wherein the lower end of the pump core is provided with a jack, and the upper end of the suction pipe is inserted into the jack to move up and down.

5. A two-material combined pressure pump bottle according to claim 1,2 or 3, characterized in that the lower end of the suction pipe is provided with a stepped pipe (9), the diameter of the upper section of the stepped pipe is larger than that of the lower section, the lower section is inserted into the upper half part in the pushing hole, and the stepped surface and the upper end face of the wall of the pushing hole are mutually limited.

6. The dual-material combined pressure pump bottle as set forth in claim 3, wherein the bottom of the side wall of the bottle body and the side wall of the lower cover are provided with clamping limiting structures oppositely, and the lower cover is connected with the bottle body through the clamping limiting structures.

7. A dual material co-filling pump bottle according to claim 1,2 or 3, wherein the bottle body is a straight cylinder with a through bottom; the second material cavity part is inserted and fixed at the bottom of the bottle body, and the side wall of the second material cavity part is in sealing fit with the side wall of the bottle body; the pushing hole is communicated with the bottom plate of the second material cavity component.

8. The dual-material combined pressure pump bottle as claimed in claim 7, wherein a cavity cover plug hole (23) is formed in the middle of the cavity cover in a penetrating manner, the cavity cover plug hole is a stepped hole, and the hole diameter of the upper end is larger than that of the lower section; the upper section of the stepped hole is inserted outside the lower end of the suction pipe in a tight fit manner, the hole wall of the lower section of the stepped hole extends downwards, and the upper section of the stepped pipe is inserted in a tight fit manner.