CN217397282U

CN217397282U - Vacuum bottle

Info

Publication number: CN217397282U
Application number: CN202220327744.4U
Authority: CN
Inventors: 谈炳南; 柯玉进
Original assignee: Zhejiang Meiji Packaging Technology Co ltd
Current assignee: Zhejiang Meiji Industrial Co.,Ltd.
Priority date: 2022-02-18
Filing date: 2022-02-18
Publication date: 2022-09-09
Anticipated expiration: 2032-02-18

Abstract

The utility model relates to a vacuum bottle, which comprises a bottle body, wherein the top of the bottle body is provided with an opening; the pump body is fixed at the opening of the bottle body through a fixing ring, and a liquid outlet is formed in the pump body; the head cap is movably covered above the pump body, and is provided with a liquid outlet hole which is opposite to the liquid outlet and is used for discharging liquid; the head cap is externally connected with a rotating mechanism to be connected with the fixing ring, a rotating guide mechanism is arranged between the rotating mechanism and the head cap, when the rotating mechanism rotates under the action of external force, the rotating guide mechanism drives the head cap to press downwards so as to drive the pump body to discharge liquid, and when the rotating mechanism is not moved, the head cap can be directly pressed so as to enable the pump body to discharge liquid. This structure has increased the vacuum flask and has gone out liquid mode of operation, has improved user operation and has experienced the sense.

Description

Vacuum bottle

Technical Field

The utility model relates to a cosmetics production technical field especially relates to a vacuum bottle.

Background

Along with the improvement of living standard of people, people have more and more requirements on cosmetics, and cosmetics with various types and different packages appear on the market. However, the existing cosmetic bottle for containing cosmetics only has one liquid discharging operation mode, and the operation mode is single, so that the existing cosmetic bottle cannot be suitable for the operation psychological demands of different users.

SUMMERY OF THE UTILITY MODEL

In view of the above problems, an object of the present invention is to provide a vacuum bottle with multiple liquid discharging operation modes.

In order to realize the purpose, the technical scheme of the utility model is that: a vacuum bottle comprises a vacuum bottle body and a vacuum bottle cover,

a bottle body having an opening at a top thereof;

the pump body is fixed at the opening of the bottle body through a fixing ring, and a liquid outlet is formed in the pump body;

the head cap is movably covered above the pump body, a liquid outlet channel is arranged on the head cap, and a liquid outlet hole for discharging liquid is arranged on the liquid outlet channel;

the method is characterized in that:

the head cap is externally connected with a rotating mechanism to be connected with the fixing ring, a rotation guide mechanism is arranged between the rotating mechanism and the head cap, when the rotating mechanism rotates under the action of external force, the head cap is driven to press down through the rotation guide mechanism so as to drive the pump body to discharge liquid, and the head cap is directly pressed when the rotating mechanism is not moved, so that the pump body can also be driven to discharge liquid.

Furthermore, the rotating mechanism comprises a ring-shaped part sleeved on the periphery of the head cap, and the lower end of the ring-shaped part is sleeved on the periphery of the fixed ring and can rotate relative to the fixed ring;

the rotation guide mechanism is arranged between the inner wall of the annular piece and the outer surface of the head cap.

Furthermore, the rotating guide mechanism comprises a plurality of inclined guide rails arranged on the inner wall of the annular piece at intervals and a convex block arranged on the outer surface of the head cap, the guide surface of each inclined guide rail faces the bottom direction of the bottle body, and the upper surface of each convex block is abutted against the guide surface;

the inclined guide rails are consistent in trend and can apply downward acting force to the convex blocks in the rotating process of the annular piece, and the convex blocks can drive the head caps to press downwards under the action of the acting force so as to drive the pump body to discharge liquid.

Furthermore, the trend of the inclined guide rail is a curve which is raised along the clockwise direction.

Furthermore, a movement groove which can be used for the lug to do vertical free movement in the length direction of the bottle body when the head cap is reset is formed between the uppermost end of the inclined guide rail and the lowermost end of the adjacent inclined guide rail.

Furthermore, a limiting mechanism which can limit the head cap to only do vertical free movement in the length direction of the bottle body is arranged between the head cap and the fixing ring.

Furthermore, the rotating mechanism further comprises a rotating ring sleeved on the periphery of the annular piece, a linkage assembly is arranged between the rotating ring and the annular piece, and the annular piece is driven to rotate synchronously through the linkage assembly when the rotating ring is rotated.

Furthermore, the linkage assembly comprises grooves which are formed longitudinally and evenly distributed along the circumferential direction of the surface of the annular piece and raised strips which are arranged on the inner wall of the rotating ring and can be embedded in the grooves to be matched with the grooves.

Furthermore, the linkage assembly comprises grooves which are formed longitudinally and evenly distributed along the circumferential direction of the inner wall of the rotating ring and raised lines which are arranged on the surface of the annular piece and can be embedded with the grooves to be matched.

Furthermore, the limiting mechanism comprises a guide strip which is arranged in the fixed ring and extends upwards for forming and two stop strips which are correspondingly arranged on the inner wall of the head cap in parallel;

the two stop bars are matched to form a guide groove for the guide bar to freely move in the up-and-down direction.

Compared with the prior art, the utility model has the advantages of: this application passes through slewing mechanism with head cap and retainer plate and links to each other, sets up between slewing mechanism and the head cap and rotates guiding mechanism, and the cooperation through rotating guiding mechanism can adopt the mode of rotating slewing mechanism, makes the pump body go out the liquid, and when not rotating slewing mechanism, the accessible is directly pressed the head cap again and is directly gone out the liquid to realize the multiple play liquid mode of vacuum bottle, satisfied different users' operation psychological needs, promoted user experience and felt.

Drawings

Fig. 1 is a schematic structural view of a vacuum bottle of the present application.

Fig. 2 is a schematic diagram of the explosion structure of the vacuum bottle of the present application.

Fig. 3 is a schematic cross-sectional structural view of the vacuum bottle of the present application.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present invention, and should not be construed as limiting the present invention.

As shown in fig. 1 to 3, the utility model discloses vacuum bottle structure schematic diagram, as shown in the figure, this vacuum bottle includes bottle 1, the pump body 2 and head cap 3, wherein, the pump body 2 passes through retainer plate 4 to be fixed on the opening of bottle 1, head cap 3 movable cover is established in the pump body 2 top, 2 lower parts of the pump body are equipped with inlet 21, the upper end is equipped with the liquid outlet (not shown in the figure), it is equipped with liquid outlet channel 33 and goes out the liquid hole (not shown in the figure) to correspond on the head cap 3, the liquid outlet on 2 upper portions of the pump body communicates with the liquid outlet channel 33 of head cap 3 is sealed, in this embodiment, liquid outlet channel 33 is a liquid outlet pipe form, this liquid outlet pipe is sealed to be inserted in the liquid outlet of the upper portion of the pump body 2, this structure technical knowledge that technical staff in the field generally known, this department just will not explain in detail again.

Just as the aforesaid, present vacuum bottle head cap only has a liquid operation, and the operation mode is single, can't be applicable to the operation demand of exploring the user that the psychology is strong, in order to solve this problem, head cap 3 of this application passes through slewing mechanism and links to each other with retainer plate 4, and is equipped with rotation guide mechanism between slewing mechanism and the head cap 3, if do not rotate slewing mechanism, can directly press head cap 3 so that the pump body 2 goes out the liquid, if rotate slewing mechanism through external force, can make head cap 3 push down through rotating guide mechanism to make the pump body 2 go out the liquid, thereby realize diversified operation liquid mode.

Specifically, the rotating mechanism comprises a ring-shaped member 5 which is sleeved on the periphery of the head cap 3, the lower end of the ring-shaped member 5 is sleeved on the periphery of the fixed ring 4 and can rotate relative to the fixed ring 4, and the rotation guide mechanism is arranged between the inner wall of the ring-shaped member 5 and the outer surface of the head cap 3.

Specifically, the rotation guide mechanism comprises a plurality of inclined guide rails 51 arranged on the inner wall of the ring-shaped member 5 at intervals and a convex block 31 arranged on the outer surface of the head cap 3, the guide surface of each inclined guide rail 51 faces the bottom direction of the bottle body 1, the upper surface of each convex block 31 is abutted against the guide surface, the inclined guide rails 51 are consistent in trend and can apply downward acting force to the convex blocks 31 in the rotation process of the ring-shaped member 5, and the convex blocks 31 can drive the head cap 3 to press down under the action of the acting force, so that the pump body 2 can discharge liquid.

In this embodiment, the inclined rail 51 is curved upward in a clockwise direction, which is more suitable for the operation habit of the user. Of course, the inclined guide rail 51 may also be a curve that descends in a clockwise direction, but the rotation operation at this time is counterclockwise, and the direction is clockwise or counterclockwise, which is determined according to actual needs.

With the design structure of the inclined rails 51 in the upward position in the present embodiment, a moving groove 6 is formed between the uppermost end of the inclined rail 51 and the lowermost end of the adjacent inclined rail 51, so that the protrusion 31 can freely move in the vertical direction when the head cap 3 is reset.

Obviously, also in the case of a design of the inclined guide rail structure in the descending position, so-called movement grooves 6 can be present. Meanwhile, in order to better achieve the liquid discharging effect under the movement, the uppermost end of the movement groove 6 is higher than the uppermost end of the inclined rail 51, as illustrated in the embodiment of the present application.

It is clear that one of the unique points of this design is that the projection 31 is located under and in abutment with the guide surface of the inclined guide 51, so that, when the head 3 is pressed only, the head 3 can move directly in the up-down direction, thus driving the pump body 2 to dispense, whereas, when the annular element 5 is rotated, the projection 31 can be pressed down passively, based on the orientation of the inclined guide 51, and jump out of its constraint with the rotation of the inclined guide 51, and then jump into the area of the movement slot 6, thus returning under the action of a return spring (this point is a common technical structure known to those skilled in the art, and is no longer deployed here), thus driving the pump body 2 to dispense.

With continued reference to fig. 1-3, the rotating mechanism further comprises a rotating ring 7 sleeved on the periphery of the ring-shaped member 5, a linkage assembly is arranged between the rotating ring 7 and the ring-shaped member 5, and the ring-shaped member 5 is driven to rotate synchronously through the linkage assembly when the rotating ring 7 is rotated.

The linkage assembly comprises grooves 53 which are longitudinally formed and evenly distributed along the circumferential direction of the surface of the annular piece 5 and convex strips 73 which are arranged on the inner wall of the rotating ring 7 and can be embedded and matched with the grooves 53. Obviously, the positions of the grooves 53 and ribs 73 can also be reversed, and will not be described in detail here.

It should be noted that the protruding strips 73 may also be provided in a plurality, in an indirect arrangement, which is easily understood by those skilled in the art and will not be described in detail herein.

In order to ensure that the movement of the head cap 3 is fixed no matter which liquid outlet mode is adopted by the head cap, a limiting mechanism capable of limiting the head cap 3 to move up and down only in the length direction of the bottle body 1 is arranged between the head cap 3 and the fixing ring 4, specifically, the limiting mechanism comprises a guide strip 42 which is arranged in the fixing ring 4 and extends upwards to form a shape, and two stop strips 32 which are correspondingly arranged on the inner wall of the head cap 3 and are arranged in parallel, and the two stop strips 32 are matched to form a guide groove 8 for the guide strip 42 to move freely in the up and down directions.

The guide groove 8 formed by the stop 32 can be provided in a plurality, which can be determined according to the actual requirements, and this is not described in detail here.

So, adopt the structural design of this application, be connected slewing mechanism between head cap and the retainer plate, be equipped with rotation guide mechanism again between slewing mechanism and the head cap, should rotate and cooperate between guide mechanism and the head cap, can adopt the mode that rotates slewing mechanism, make the head cap go out the liquid, can adopt again not rotating slewing mechanism, directly press the head cap mode and go out the liquid, can effectively realize going out the variety of liquid operation mode to satisfy different users' operation psychological demand, promoted user operation experience and felt.

While embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.

Claims

1. A vacuum bottle comprises a vacuum bottle body and a vacuum bottle cover,

a bottle body (1) with an opening at the top;

the pump body (2) is fixed at the opening of the bottle body (1) through a fixing ring (4), and a liquid outlet (21) is formed in the pump body (2);

the head cap (3) is movably covered above the pump body (2), a liquid outlet channel (33) is arranged on the head cap (3), and a liquid outlet hole for discharging liquid is formed in the liquid outlet channel (33);

the method is characterized in that:

the head cap (3) is externally connected with a rotating mechanism to be connected with the fixing ring (4), a rotating guide mechanism is arranged between the rotating mechanism and the head cap (3), when the rotating mechanism rotates under the action of external force, the rotating guide mechanism drives the head cap (3) to be pressed downwards so as to drive the pump body (2) to discharge liquid, and when the rotating mechanism does not move, the head cap (3) is directly pressed, and the pump body (2) can also be driven to discharge liquid.

2. The vacuum bottle of claim 1, wherein:

the rotating mechanism comprises a ring piece (5) sleeved on the periphery of the head cap (3), and the lower end of the ring piece (5) is sleeved on the periphery of the fixed ring (4) and can rotate relative to the fixed ring (4);

the rotation guide mechanism is arranged between the inner wall of the annular piece (5) and the outer surface of the head cap (3).

3. The vacuum bottle of claim 2, wherein:

the rotating guide mechanism comprises a plurality of inclined guide rails (51) arranged on the inner wall of the annular piece (5) at intervals and a convex block (31) arranged on the outer surface of the head cap (3), the guide surface of each inclined guide rail (51) faces the bottom direction of the bottle body (1), and the upper surface of each convex block (31) is abutted to the guide surface;

the inclined guide rails (51) are consistent in trend and can apply downward acting force to the convex block (31) in the rotating process of the annular piece (5), and the convex block (31) can drive the head cap (3) to press downwards under the action of the acting force to drive the pump body (2) to discharge liquid.

4. The vacuum bottle of claim 3, wherein:

the inclined guide rail (51) is curved upward in a clockwise direction.

5. The vacuum bottle according to claim 4, wherein:

a moving groove (6) which can be used for the lug (31) to do vertical free movement in the length direction of the bottle body (1) when the head cap is reset is formed between the uppermost end of the inclined guide rail (51) and the lowermost end of the adjacent inclined guide rail.

6. The vacuum bottle of claim 1, wherein:

a limiting mechanism which can limit the head cap (3) to do vertical free movement only in the length direction of the bottle body (1) is arranged between the head cap (3) and the fixing ring (4).

7. The vacuum bottle of claim 2, wherein:

the rotating mechanism further comprises a rotating ring (7) sleeved on the periphery of the annular piece (5), a linkage assembly is arranged between the rotating ring (7) and the annular piece (5), and the annular piece (5) is driven to rotate synchronously through the linkage assembly when the rotating ring (7) is rotated.

8. The vacuum bottle of claim 7, wherein:

the linkage assembly comprises grooves (53) which are formed longitudinally and evenly distributed along the circumferential direction of the surface of the ring-shaped piece (5) and raised lines (73) which are arranged on the inner wall of the rotating ring (7) and can be embedded and matched with the grooves (53).

9. The vacuum bottle of claim 7, wherein:

the linkage assembly comprises grooves (53) which are formed longitudinally and evenly distributed along the circumferential direction of the inner wall of the rotating ring (7) and raised lines (73) which are arranged on the surface of the annular piece (5) and can be embedded and matched with the grooves (53).

10. The vacuum bottle of claim 6, wherein:

the limiting mechanism comprises a guide strip (42) which is arranged in the fixed ring (4) and extends upwards for forming and two stop strips (32) which are correspondingly arranged on the inner wall of the head cap (3) in parallel;

the two stop bars (32) are matched to form a guide groove (8) for the guide bar (42) to freely move in the vertical direction.