Latching portable vacuum bag milk bottle
The vacuum bag emulsion bottle features a snap-lock design, with the nozzle locking onto the bottle body and the pump core engaging with the sliding cap and knob. This design achieves portability and stability, solving the problems of inconvenient vacuum bag loading and unloading and difficult production assembly. It also enables convenient vacuum bag replacement and stable liquid dispensing.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Patents(China)
- Current Assignee / Owner
- ZHEJIANG Z&Z IND CO LTD
- Filing Date
- 2025-01-24
- Publication Date
- 2026-06-09
AI Technical Summary
Existing vacuum bottles mostly use inner bags or rectangular structures, which are inconvenient to carry, difficult to load and unload, and difficult to automate production and assembly.
A snap-lock portable vacuum bag emulsion bottle was designed. The nozzle assembly is snapped into the bottle body assembly. The nozzle, pump core, flange sleeve and other structures are connected by snaps and slides to achieve eccentric pressing liquid dispensing. The sliding cover and the knob cooperate to lock and unlock. The pump core assembly is sealed by the guide rod and the spring sleeve.
It achieves portability, good stability, convenient vacuum bag replacement, easy production and assembly, and a robust structure, making it suitable for use as a lockable vacuum bag emulsion bottle.
Smart Images

Figure CN119774113B_ABST
Abstract
Description
Technical Field
[0001] This invention relates to vacuum bottles, specifically a lockable portable vacuum bag emulsion bottle. Background Technology
[0002] A vacuum bottle is a container that isolates gas from external temperature or external bacteria. Commercially available vacuum bottles typically consist of a cylindrical or elliptical container with a piston at the bottom. Some vacuum bottles on the market use an inner bag structure, such as application number 202322685340.X disclosed in Chinese patent literature, authorized on June 4, 2024, with the utility model title "A Vacuum Cosmetic Container"; others, such as application number 202120562547.6 disclosed in Chinese patent literature, authorized on December 21, 2024, with the utility model title "Perfume Bottle Assembly". However, the rectangular design of these vacuum bottles, especially those with inner bags or vacuum bags, is relatively rare. The interlocking connection structure between components is often poorly designed, making automated production and assembly difficult, as well as replacing the inner bag. Summary of the Invention
[0003] To overcome the above shortcomings, the purpose of this invention is to provide a lockable portable vacuum bag emulsion bottle, thereby solving the technical problems of existing similar products rarely using a rectangular structure for carrying and use, and the inconvenience of loading and unloading the internal vacuum bag, as well as the difficulty in automating production and assembly. This objective is achieved through the following technical solution.
[0004] A snap-lock portable vacuum bag lotion bottle is disclosed. The nozzle assembly of the portable vacuum bag lotion bottle is snapped into the bottle body assembly. The nozzle of the nozzle assembly extends out of an opening groove or waist-shaped sliding hole on one side of the outer cover. A vacuum bag is placed inside the outer bottle of the bottle body assembly. A pump core assembly is located at the opening of the vacuum bag, and the valve stem of the pump core assembly is connected to the liquid inlet hole of the cap. The key structural design features a pressing hole at the top of the outer cover of the nozzle assembly, with the cap protruding from the pressing hole. A large sealing ring is provided at the bottom opening of the outer cover. Simultaneously, the top pump port of the pump body of the pump core assembly is snapped into a locking groove in the first pump core hole of the large ring. The bottom of the pump body of the pump core assembly extends into the opening of the vacuum bag through the second pump core hole of the cap. The vacuum bag is fixed to the second pump core hole of the cap through a flange sleeve at the bag opening. A gasket is provided at the top opening of the flange sleeve of the vacuum bag extending out of the cap. The cap seal is fixedly located at the top opening of the outer bottle. Thus, the vacuum bag is fixed to the second pump core hole of the gland by the flange sleeve. Simultaneously, the pump core assembly passes through the first pump core hole of the large ring and the second pump core hole of the gland, extends into the vacuum bag, and is fixedly positioned in the snap-fit groove within the first pump core hole of the large ring. Further, in the above structure, the inner diameter side of the second pump core hole of the gland is provided with a bevel, thereby facilitating the rotation of the flange sleeve at the opening of the vacuum bag into place along the beveled second pump core hole of the gland.
[0005] The nozzle assembly and bottle assembly are fastened together in a rectangular shape. The nozzle cap is located at a pressing hole on one end corner of the top of the outer cover. The pump core assembly, the second pump core hole, and the flange sleeve are respectively located on one side of the large ring, the pressure cap, and the vacuum bag. The above is a structural embodiment with the nozzle cap located on one side, thereby achieving eccentric pressing for liquid dispensing; it can also be located in the middle, in which case the corresponding limiting structure below needs to be adjusted and improved accordingly.
[0006] The inner cavity of the outer cover, where the bottom opening of the outer cover connects to the large ring, is equipped with a sliding cover. A protruding sliding piece at the top of the large ring inserts into the sliding hole of the sliding cover. The valve stem of the pump core assembly extends out of the pump core's waist-shaped hole on one side of the sliding cover. Symmetrically arranged large ring buckles on both sides of the outer diameter of the large ring engage and fix it to symmetrically arranged outer cover buckle grooves on both sides of the bottom opening of the outer cover. Symmetrically arranged limiting posts are located outside the pump core's waist-shaped hole at the top of the sliding cover, corresponding to the cap openings on both sides of the bottom of the headgear. A toggle button is located on the other side of the sliding cover, with one end extending out of a toggle button's waist-shaped hole on one side of the outer cover. When the toggle button moves the sliding cover until the limiting post of the sliding cover is misaligned with the cap opening at the bottom of the headgear, the headgear is pressed down. The sliding cover, driven by the corresponding toggle button, serves to prevent the headgear from being pressed down while the sliding cover is locked, and to facilitate pressing the headgear after the toggle button unlocks the sliding cover.
[0007] The other end of the toggle switch is fastened and fixed to a fixing hole in the raised stepped plate on the other side of the inner sliding cover of the outer casing. The above is a specific structural embodiment of the connection and fixation between the toggle switch and the inner sliding cover of the outer casing, but other connection and fixation methods can also be used.
[0008] The inner sliding cover of the outer casing has symmetrical sliding edges on both sides of its middle outer diameter. Limiting plates symmetrically arranged on both sides of the top of the large ring below the sliding cover engage with the sliding edges on both sides of the sliding cover. This, in conjunction with the pump core's oblong hole in the sliding cover, limits the movement of the sliding cover.
[0009] The large ring buckles, symmetrically arranged on both sides of the outer diameter, are fastened and fixed to the outer cover buckle grooves symmetrically arranged on both sides of the bottom opening of the outer cover. At the same time, the side buckle ribs, symmetrically arranged on the other two sides of the outer diameter, are fastened and fixed to the side buckle grooves symmetrically arranged on both sides of the bottom opening of the outer cover.
[0010] A positioning groove is provided at the bottom opening of the cap above the top of the large ring slider. The large ring slider is inserted into the positioning groove of the cap through an opening on one side of the sliding cover. This structure further improves the stability of the cap during use when pressed in the unlocked state.
[0011] The pressure cap is symmetrically secured to the large ring by the pressure cap buckles on both sides of the top, and then to the large ring buckle holes symmetrically located on both sides of the bottom. This further facilitates the integration of the large ring, pressure cap, and outer cover into one unit.
[0012] The pump core assembly has a guide rod at the bottom suction pipe hole of the pump body. One end of the guide rod has three ribs arranged at equal angles. One end of the ribs is connected to the sleeve at the other end of the guide rod through an opening.
[0013] The pump body of the pump core assembly has a spring sleeve at the bottom water inlet. The valve needle above the spring sleeve is fastened to one end of the valve stem. A piston is provided on the outer diameter of the valve needle at the fastening connection. The outer diameter of the piston slides and seals against the inner wall of the pump body. The pump port of the pump body is fastened and fixed to the inner plug. A raised spring ring is provided on the outer diameter of the inner plug at the fastening and fixing point. The outer diameter of the other end of the valve stem extending out of the pump body and the inner plug is provided with an outward flange. A plastic spring is provided between the outward flange of the valve stem and the spring ring of the inner plug. The middle outer diameter of the plastic spring between the two ends is wavy. The two ends of the plastic spring are respectively limited and fixed to the grooves of the outward flange of the valve stem and the spring ring of the inner plug. One end and one side of the wavy section of the plastic spring are provided with air holes. The lower orifice of the piston inner diameter is sealed against the end ring surface of the valve needle. The outer side of the upper orifice of the piston inner diameter slides and seals against the inner wall of the valve stem orifice.
[0014] This invention features a reasonable structural design, is easy to use and carry, has good stability, a robust structure, convenient vacuum bag replacement, and easy overall production and assembly; it is suitable for use as a lockable vacuum bag emulsion bottle and a structural improvement of similar products. Attached Figure Description
[0015] Figure 1 This is a cross-sectional view of the present invention. Figure 1 .
[0016] Figure 2 yes Figure 1 A schematic diagram of the three-dimensional structure.
[0017] Figure 3 yes Figure 2 A schematic diagram of the rear structure.
[0018] Figure 4 This is a cross-sectional view of the present invention. Figure 2 The cap is shown in the locked position in the picture.
[0019] Figure 5 yes Figure 4 The diagram shows a cross-sectional view of the unlocked state. Part A is outlined in the diagram, and the arrow indicates the locking direction of the sliding cover.
[0020] Figure 6 yes Figure 5 Enlarged view of part A.
[0021] Figure 7 yes Figure 2 A schematic diagram of the explosion structure.
[0022] Figure 8 yes Figure 7A schematic diagram of the half-section structure of the outer casing.
[0023] Figure 9 yes Figure 7 A schematic diagram of the structure on one side of the positioning groove at the head cap.
[0024] Figure 10 yes Figure 7 A top view of the sliding cover structure.
[0025] Figure 11 yes Figure 7 A schematic diagram of the sliding cover structure viewed from below.
[0026] Figure 12 yes Figure 7 A top-down view of the large circular structure.
[0027] Figure 13 yes Figure 2 The diagram shows the assembly of the nozzle and the bottle body in their open states. The arrows in the diagram indicate the assembly direction.
[0028] Attached Figures and Their Names: 1. Nozzle, 2. Head Cap, 201. Positioning Groove, 3. Pump Core Assembly, 4. Sliding Cover, 401. Sliding Edge, 402. Sliding Hole, 403. Fixing Hole, 404. Limiting Post, 405. Pump Core Waist Hole, 5. Outer Cover, 501. Pressing Hole, 502. Outer Cover Clip Groove, 503. Side Clip Groove, 6. Gasket, 7. Large Ring, 701. First Pump Core Hole, 702. Clip Groove, 703. Side Clip Rib, 704. Limiting Plate, 705. Large Ring Clip, 706. Large Ring Clip Hole, 707. Sliding Plate, 8. Pressure Cap, 801. Second Pump Core Hole, 802. Pressure Cap Clip, 9. Vacuum Bag, 901. Flange Sleeve, 10. Guide Rod, 11. Outer Bottle, 12. Toggle Knob. Implementation
[0029] The structure of the present invention will now be further described with reference to the accompanying drawings. For example... Figures 1-13As shown, the nozzle assembly of the portable vacuum bag emulsion bottle is fastened to the bottle body assembly. The nozzle 1 of the nozzle assembly extends out of the opening groove on one side of the outer cover 5. The outer bottle 11 of the bottle body assembly is provided with a vacuum bag 9. The opening of the vacuum bag is provided with a pump core assembly 3. The valve stem of the pump core assembly is connected to the liquid inlet of the cap 2. The specific structure is as follows: the top of the outer cover of the above-mentioned nozzle assembly is provided with a pressing hole 501, and the head cap protrudes from the pressing hole of the outer cover; the bottom opening of the outer cover is provided with a large sealing ring 7; at the same time, the top pump port of the pump body of the pump core assembly is fastened and fixed in the snap-fit groove 702 inside the first pump core hole 701 of the large ring; the bottom of the pump body of the pump core assembly extends into the opening of the vacuum bag through the second pump core hole 801 of the pressure cap 8; the vacuum bag is fixed to the second pump core hole of the pressure cap through the flange sleeve 901 at the bag opening; a gasket 6 is provided at the top opening of the flange sleeve of the vacuum bag extending out of the pressure cap; the pressure cap is fixedly set at the top opening of the outer bottle. The nozzle assembly and the bottle assembly are fastened together to form a cuboid; the head cap is provided with a pressing hole at one end corner of the top of the outer cover; the pump core assembly, the second pump core hole, and the flange sleeve are respectively provided on one side of the large ring, the pressure cap, and the vacuum bag. The inner cavity of the outer cover, where the bottom opening of the outer cover connects to the large ring, is equipped with a sliding cover 4. The sliding plate 707 protruding from the top of the large ring is inserted into the sliding hole 402 of the sliding cover. The valve stem of the pump core assembly extends out of the pump core waist-shaped hole 405 on one side of the sliding cover. The large ring buckles 705, symmetrically arranged on both sides of the outer diameter of the large ring, are fastened and fixed to the outer cover buckle grooves 502 symmetrically arranged on both sides inside the bottom opening of the outer cover. The outer side of the pump core waist-shaped hole at the top of the sliding cover is equipped with symmetrically arranged limiting posts 404. The limiting posts correspond to the cap openings on both sides of the bottom of the head cap. The other side of the sliding cover is equipped with a knob 12. One end of the knob extends out of the knob waist-shaped hole on one side of the outer cover. When the knob moves the sliding cover to the point where the limiting post of the sliding cover is misaligned with the cap opening at the bottom of the head cap, the head cap is pressed down and moved.
[0030] The other end of the aforementioned dial is fastened and fixed to the fixing hole 403 in the raised stepped plate on the other side of the inner sliding cover of the outer cover; symmetrical sliding edges 401 are provided on both sides of the outer diameter between the fixing hole in the middle of the inner sliding cover and the waist-shaped hole of the pump core; limiting plates 704 symmetrically arranged on both sides of the top of the large ring below the sliding cover are fastened to the sliding edges on both sides of the sliding cover. Large ring buckles symmetrically arranged on both sides of the outer diameter of the large ring are fastened and fixed to the outer cover buckle grooves symmetrically arranged on both sides of the bottom cover opening of the outer cover; at the same time, side buckle ribs 703 symmetrically arranged on the other two sides of the outer diameter of the large ring are fastened and fixed to the side buckle grooves 503 symmetrically arranged on both sides of the bottom cover opening of the outer cover. A positioning groove 201 is provided at the bottom cap opening above the top of the sliding piece of the large ring; the sliding piece of the large ring is inserted into the positioning groove of the cap through the opening on one side of the sliding cover.
[0031] The aforementioned cap buckles 802, symmetrically arranged on both sides of the top of the cap, are fastened and fixed to the large ring buckle holes 706 symmetrically arranged on both sides of the bottom of the large ring. At the pump core assembly location, a guide rod 10 is provided at the suction pipe hole at the bottom of the pump body. One end of the guide rod is provided with three ribs arranged at equal angles, and one end of the ribs communicates with the sleeve at the other end of the guide rod through an opening. The pump body of the pump core assembly has a spring sleeve at the bottom water inlet. The valve needle above the spring sleeve is fastened to one end of the valve stem. At the fastening connection, the outer diameter of the valve needle is equipped with a piston. The outer diameter of the piston slides and seals against the inner wall of the pump body. The pump port of the pump body is fastened and fixed to the inner plug. The outer diameter of the inner plug at the fastening and fixing point is equipped with a raised spring ring. The outer diameter of the other end of the valve stem extending out of the pump body and the inner plug is equipped with an outward flange. A plastic spring is installed between the outward flange of the valve stem and the spring ring of the inner plug. The middle outer diameter between the two ends of the plastic spring is wavy. The two ends of the plastic spring are respectively limited and fixed to the grooves at the outward flange of the valve stem and the spring ring of the inner plug. One end and one side of the wavy section of the plastic spring are equipped with air holes. The lower orifice of the piston inner diameter is sealed against the end ring surface of the valve needle. The outer side of the upper orifice of the piston inner diameter slides and seals against the inner wall of the valve stem orifice.
[0032] The assembly method of this portable vacuum bag emulsion bottle is as follows, including nozzle assembly, bottle assembly, and finished product assembly after filling with the emulsion.
[0033] During nozzle assembly, first press the pump core assembly into the nozzle assembly from above the large ring. The connection between the pump inlet and the inner plug at the pump body of the pump core assembly should be properly engaged with the snap-fit groove in the first pump core hole of the large ring. The outer diameter sealing surface of the pump body of the pump core assembly should be press-fitted with the sealing rib at the snap-fit groove of the large ring. Next, insert the gasket from below the large ring and pump core assembly, pressing it into place. The inner diameter of the gasket should be press-fitted with the outer diameter of the pump body of the pump core assembly, and the gasket should be flush against the bottom of the first pump core hole of the large ring. Then, insert the guide rod from below the large ring and pump core assembly, with the end of the guide rod engaging with the bottom of the pump body of the pump core assembly. Finally, press the sliding cover into the large ring from above, with the sliding edge of the sliding cover engaging with the limiting edge of the large ring. After the mounting plates are engaged, they can slide horizontally or vertically, with the sliding holes of the slider clamped between the sliding plates of the large ring. At this point, the left and right sliding of the sliding cover can be achieved by tactile adjustment. When the cover is in the open position, the head cap is inserted from above the pump core assembly, and the liquid inlet of the head cap is sealed with the valve stem of the pump core assembly. The outer cover is inserted from above the head cap, and the outer cover's snap groove is engaged with the large ring's snap fastener. At the same time, the side snap groove of the outer cover is engaged with the side snap rib of the large ring. Finally, the nozzle is inserted from the side of the head cap, and the nozzle is sealed with the head cap. The knob is inserted from the side hole of the sliding cover, and the knob is engaged with the fixing hole of the sliding cover. The knob is then turned to the closed position, thus completing the assembly of the nozzle assembly.
[0034] When assembling the bottle body, first tilt the vacuum bag, rotate the flange sleeve at the mouth of the vacuum bag along the second pump core hole of the cap's bevel and insert it into place, so that the vacuum bag and the cap are in contact, and then insert it into the outer bottle. The outer diameter of the cap and the inner diameter at the mouth of the outer bottle are properly matched, thus completing the assembly of the bottle body.
[0035] Finally, during the final assembly, the nozzle assembly is inserted into the bottle body after the filling material has been filled. The large ring buckle hole is engaged with the capping buckle, and the gasket is press-fitted with the top opening of the flange sleeve of the vacuum bag to complete the final assembly.
[0036] The usage and working principle of this portable vacuum bag emulsion bottle are as follows: This portable vacuum bag emulsion bottle has a locking structure. Turn the toggle switch to the open position, press the cap to activate the pump assembly's liquid dispensing function. Under air pressure, the vacuum bag is compressed, that is, the air pressure causes deformation of the vacuum bag, thus achieving the principle of vacuum liquid dispensing. After use, turn the toggle switch to the closed position. The bottom of the cap presses against the limiting post of the sliding cover, preventing it from being pressed down, thus achieving the locking function.
Claims
1. A lockable portable vacuum bag lotion bottle, wherein the nozzle assembly of the portable vacuum bag lotion bottle is fastened to the bottle body assembly, the nozzle (1) of the nozzle assembly extends out of an opening groove or waist-shaped sliding hole on one side of the outer cover (5), a vacuum bag (9) is provided inside the outer bottle (11) of the bottle body assembly, a pump core assembly (3) is provided at the bag opening of the vacuum bag, and the valve rod of the pump core assembly is connected to the liquid inlet of the cap (2); characterized in that The nozzle assembly has a pressing hole (501) on the top of the outer cover (5), and the head cap (2) is located in the pressing hole of the outer cover. The bottom opening of the outer cover has a large sealing ring (7). At the same time, the pump core assembly (3) is fastened and fixed in the snap-fit groove (702) in the first pump core hole (701) of the large ring. The pump core assembly extends into the opening of the vacuum bag (9) through the second pump core hole (801) of the pressure cap (8). The vacuum bag is fixed to the second pump core hole of the pressure cap through the flange sleeve (901) at the opening of the bag. The pressure cap is fixedly set at the top opening of the outer bottle (11). The nozzle assembly and the bottle assembly are fastened together to form a cuboid. The head cap (2) is set in the pressing hole (501) at one end corner of the top of the outer cover (5). The pump core assembly (3), the second pump core hole (801), and the flange sleeve (901) are respectively set in the large ring (7), the pressure cap (801), the second pump core hole (801), and the flange sleeve (901) are respectively set in the large ring (7), the pressure cap (801), the second pump core hole (801), and the flange sleeve (901). The cover (8) and vacuum bag (9) are located on one side; the inner cavity of the outer cover (5) is connected to the cover opening at the bottom of the outer cover (7) and is equipped with a sliding cover (4). The sliding piece (707) protruding from the top of the large ring is inserted into the sliding hole (402) of the sliding cover. The valve stem of the pump core assembly (3) extends out of the pump core waist-shaped hole (405) on one side of the sliding cover. The large ring buckles (705) symmetrically arranged on both sides of the outer diameter of the large ring are fastened and fixed to the outer cover buckle groove (502) symmetrically arranged on both sides of the bottom cover opening of the outer cover (5). The pump core waist-shaped hole at the top of the sliding cover is equipped with symmetrically arranged limiting posts (404). The limiting posts correspond to the cap openings on both sides of the bottom of the head cap (2). The other side of the sliding cover is equipped with a knob (12). One end of the knob extends out of the knob waist-shaped hole on one side of the outer cover. When the knob moves the sliding cover to the point where the limiting post of the sliding cover is misaligned with the cap opening at the bottom of the head cap, the head cap is pressed down and moved.
2. The lockable portable vacuum bag emulsion bottle according to claim 1, characterized in that... The other end of the dial (12) is fastened and fixed to the fixing hole (403) in the stepped plate protruding on the other side of the inner cover (4) of the outer cover (5).
3. The lockable portable vacuum bag emulsion bottle according to claim 1, characterized in that... The inner sliding cover (4) of the outer cover (5) has symmetrical sliding edges (401) on both sides of the middle outer diameter. The limiting plates (704) symmetrically arranged on both sides of the top of the large ring (7) below the sliding cover are fastened to the sliding edges on both sides of the sliding cover.
4. The lockable portable vacuum bag emulsion bottle according to claim 1, characterized in that... The large ring (7) is symmetrically provided with large ring buckles (705) on both sides of the outer diameter and is fastened and fixed to the outer cover buckle grooves (502) symmetrically provided on both sides of the bottom cover opening of the outer cover (5). At the same time, the side buckle ribs (703) symmetrically provided on the other two sides of the outer diameter of the large ring are fastened and fixed to the side buckle grooves (503) symmetrically provided on both sides of the bottom cover opening of the outer cover.
5. The lockable portable vacuum bag emulsion bottle according to claim 1, characterized in that... The top of the slider (707) of the large ring (7) has a positioning groove (201) at the bottom of the cap (2). The slider of the large ring is inserted into the positioning groove of the cap through the opening on one side of the sliding cover (4).
6. The lockable portable vacuum bag emulsion bottle according to claim 1, characterized in that... The pressure cap (8) is symmetrically arranged on both sides of the top of the pressure cap (8) and fastened to the large ring buckle holes (706) symmetrically arranged on both sides of the bottom of the large ring (7).
7. The lockable portable vacuum bag emulsion bottle according to claim 1, characterized in that... The pump core assembly (3) has a guide rod (10) at the bottom suction pipe hole of the pump body. One end of the guide rod has three ribs arranged at equal angles. One end of the ribs is connected to the sleeve at the other end of the guide rod through an opening.
8. The lockable portable vacuum bag lotion bottle according to claim 1, characterized in that... The pump body of the pump core assembly (3) has a spring sleeve at the bottom water inlet hole. The valve needle above the spring sleeve is fastened to one end of the valve stem. A piston is provided on the outer diameter of the valve needle at the fastening connection. The outer diameter of the piston slides and seals against the inner wall of the pump body. The pump port of the pump body is fastened and fixed to the inner plug. A raised spring ring is provided on the outer diameter of the inner plug at the fastening and fixing point. The outer diameter of the other end of the valve stem extending out of the pump body and the inner plug is provided with an outward flange. A plastic spring is provided between the outward flange of the valve stem and the spring ring of the inner plug. The middle outer diameter between the two ends of the plastic spring is wavy. The two ends of the plastic spring are respectively limited and fixed to the grooves of the outward flange of the valve stem and the spring ring of the inner plug. One end and one side of the wavy section of the plastic spring are provided with air holes. The lower hole of the piston inner diameter is sealed against the end ring surface of the valve needle. The outer side of the upper hole of the piston inner diameter slides and seals against the inner wall of the valve stem hole.