BACKGROUND OF THE INVENTION
Field of the invention
[0001] The present invention relates to a container, and more particularly to a cosmetic
container that contains a cosmetic product and is easy to operate.
Description of the related art
[0002] A conventional cosmetic container has a body, a press-type nozzle, and a pipe. The
body has a chamber to contain a fluid-type cosmetic product. An opening is formed
in the body and is in communication with the chamber of the body. The press-type nozzle
is mounted on the opening of the body. The pipe is mounted on the press-type nozzle
and is located in the chamber of the body. The press-type nozzle can be pressed and
the fluid-type cosmetic product in the body is drawn out of the press-type nozzle
via the pipe. Furthermore, a cap is mounted on the press-type nozzle to avoid the
fluid-type cosmetic product from exposure to air and deteriorating.
[0003] The operation of the cosmetic container requires removing and retrieving the cap,
but the cap is prone to loss. Therefore, the operation of the cosmetic container is
inconvenient. If the cap is lost, the fluid-type cosmetic product in the body is not
properly sealed and deteriorates easily. When the fluid-type cosmetic product is dispensed
through the pipe, a part of the fluid-type cosmetic product easily remains in an inner
surface of the body and is hard to be fully dispensed for use.
[0004] To overcome the shortcomings, the present invention tends to provide a cosmetic container
to mitigate or obviate the aforementioned problems.
SUMMARY OF THE INVENTION
[0005] The main objective of the invention is to provide a cosmetic container that is easy
to operate.
[0006] The cosmetic container has a first sleeve, a driving assembly, a bottle and a second
sleeve. The driving assembly is mounted in the first sleeve and has a first rotating
tube, a seat and a second rotating tube. The first rotating tube is coactively mounted
in the first sleeve and has an outer surface, an annular flange and multiple chutes.
The annular flange is formed on the outer surface of the first rotating tube. The
chutes are formed through the outer surface of the first rotating tube. Each chute
has a slanting section and a transverse section connected to a top end of the slanting
section. The seat is moveably mounted in the first rotating tube and has multiple
protrusions respectively protruding into the chutes of the first rotating tube. The
second rotating tube is rotatably mounted around the first rotating tube and has an
inner surface, an annular groove, multiple longitudinal grooves, and a positioning
ring. The annular groove is formed in the inner surface and connected to the annular
flange of the first rotating tube. The longitudinal grooves are formed in the inner
surface and the protrusions of the seat respectively protrude into the longitudinal
grooves. The positioning ring is formed on the inner surface and an internal diameter
of the positioning ring is smaller than an internal diameter of the second rotating
tube. The positioning ring has a positioning surface formed on a top surface of the
positioning ring.
[0007] The bottle is mounted in the seat of the driving assembly and has a body, a chamber,
a piston, a vacuum valve, a cap and an outlet. The body is mounted in the seat of
the driving assembly and an outer diameter of the body is smaller than the internal
diameter of the positioning ring. The chamber is formed in the body. The piston is
mounted in the body and is moveably located in the chamber. The vacuum valve is mounted
on the body. The cap is mounted on the vacuum valve and a bottom surface of the cap
faces the positioning surface of the positioning ring. The outlet is formed in the
cap and sunk in the second rotating tube. The second sleeve is coactively mounted
on the second rotating tube of the driving assembly.
[0008] The first sleeve is rotated to drive the first rotating tube. The protrusions of
the seat move along the chutes of the first rotating tube and the longitudinal grooves
of the second rotating tube, and then the seat drives the bottle to move upward and
downward. Therefore, the cosmetic container can be operated conveniently. When the
bottle moves upward, the cap of the bottle protrudes out of the second rotating tube,
and then users can press the cap for driving the vacuum valve to generate a vacuum
suction. The piston moves upward to push out a cosmetic product in the body by the
vacuum suction. So the cosmetic product stored in the body is easy to be dispensed.
When the bottle moves downward, the cap is sunk in the second rotating tube and the
outlet is closed by the second rotating tube. So the cosmetic product in the body
is stored in a proper condition.
[0009] The piston can push out and dispense the cosmetic product in the body effectively.
Therefore, the quantity of the cosmetic product remaining in an inner surface of the
body is decreased.
[0010] The outer diameter of the body is smaller than the internal diameter of the positioning
ring. Therefore, the bottle is easy to be changed for replacement.
BRIEF DESCRIPTION OF THE DRAWINGS
[0011] The invention will be elucidated on the basis of an exemplary embodiment shown in
the attached drawings, in which:
Fig. 1 is an exploded perspective view of a cosmetic container in accordance with
the present invention;
Fig. 2 is a perspective view of the cosmetic container in Fig. 1;
Fig. 3 is a perspective view of the cosmetic container in Fig. 1 showing a cap protruding
out of a second sleeve of the cosmetic container;
Fig. 4 is a side view in partial section of the cosmetic container in Fig. 2;
Fig. 5 is a side view in partial section of the cosmetic container in Fig. 3;
Fig. 6 is a top view in partial section of the cosmetic container along line 6-6 in
Fig. 4;
Fig. 7 is another side view in partial section of the cosmetic container in Fig. 2;
and
Fig. 8 is another side view in partial section of the cosmetic container in Fig. 3.
DETAILED DESCRIPTION OF THE INVENTION
[0012] With reference to Figs. 1, 2 and 4, a cosmetic container in accordance with the present
invention comprises a first sleeve 10, a driving assembly 1, a bottle 50 and a second
sleeve 60.
[0013] The first sleeve 10 has a space 11 and an opening. The space 11 is formed in the
first sleeve 10. The opening is formed in a top of the first sleeve 10 and is in communication
with the space 11.
[0014] The driving assembly 1 is mounted in the first sleeve 10 and has a first rotating
tube 20, a seat 30 and a second rotating tube 40. The first rotating tube 20 is coactively
mounted in the first sleeve 10 and is located in the space 11 of the first sleeve
10. The first rotating tube 20 has an outer surface, an annular flange 21 and multiple
chutes 22. The annular flange 21 is formed on the outer surface of the first rotating
tube 10. The chutes 22 are formed through the outer surface of the first rotating
tube 10. Each chute 22 has a slanting section 221 and a transverse section 222 connected
to a top end of the slanting section 221. One of the chutes 22 of the first rotating
tube 20 has a longitudinal section 223 connected to the transverse section 222 of
said chute 22. The seat 30 is moveably mounted in the first rotating tube 20 and has
multiple protrusions 31. The protrusions 31 respectively protrude into the chutes
22 of the first rotating tube 20. The second rotating tube 40 is rotatably mounted
around the first rotating tube 20 and has an inner surface, an annular groove 41,
multiple longitudinal grooves 42, and a positioning ring 43. The annular groove 41
is formed in the inner surface of the second rotating tube 40 and is connected to
the annular flange 21 of the first rotating tube 20. The longitudinal grooves 42 are
formed in the inner surface of the second rotating tube 40 and the protrusions 31
of the seat 30 respectively protrude into the longitudinal grooves 42. The positioning
ring 43 is formed on the inner surface of the second rotating tube 40, and an internal
diameter of the positioning ring 43 is smaller than an internal diameter of the second
rotating tube 40. The positioning ring 43 has a positioning surface 431 formed on
a top surface of the positioning ring 43.
[0015] The bottle 50 is mounted in the seat 30 of the driving assembly 1 and has a body
51, a chamber 52, a piston 53, a vacuum valve 54, a cap 55 and an outlet 56. The body
51 is mounted in the seat 30 of the driving assembly 1 and an outer diameter of the
body 51 is smaller than the internal diameter of the positioning ring 43. The chamber
52 is formed in the body 51. The piston 53 is mounted in the body 51 and is moveably
located in the chamber 52. The vacuum valve 54 is mounted on the body 51. The cap
55 is mounted on the vacuum valve 54 and a bottom surface of the cap 55 faces the
positioning surface 431 of the positioning ring 43. The outlet 56 is formed in the
cap 55 and is sunk in the second rotating tube 40.
[0016] The second sleeve 60 is coactively mounted on the second rotating tube 40 of the
driving assembly 1.
[0017] With reference to Fig. 1, the first rotating tube 20 has multiple ribs 23 formed
on an inner surface of the first rotating tube 20. The seat 30 has multiple positioning
members 32 mounted on an outer surface of the seat 30, and the positioning members
32 are respectively connected to the ribs 23 of the first rotating tube 20. In addition,
the bottle 50 has a mark 57. The mark 57 is mounted on a top surface of the cap 55
to indicate the outlet 56 of the bottle 50. The bottle 50 has a recess 58. The recess
58 is formed in an outer surface of the cap 55 and is located below the outlet 56.
[0018] With reference to Figs. 2, 4 and 6, when a cosmetic product stored in the body is
not yet dispensed, the protrusions 31 of the seat 30 are located at a bottom end of
the slanting section 221 of the chutes 22. The cap 55 of the bottle 50 is hidden in
the second rotating tube 40, and the outlet 56 of the cap 55 is sunk in the second
rotating tube 40.
[0019] With reference to Figs. 3, 5 and 8, when users want to dispense the cosmetic product
out of the body 51, the first sleeve 10 is rotated to drive the first rotating tube
20 to rotate with the first sleeve 10. The protrusions 31 of the seat 30 move from
the slanting sections 221 of the chutes 22 to the transverse sections 222 of the chutes
22. In the meanwhile, the protrusions 31 of the seat 30 move up along the longitudinal
grooves 42 of the second rotating tube 40.The seat 30 moves upward relative to the
first rotating tube 20 to drive the bottle 50 to move upward. Therefore, the cap 55
of the bottle 50 protrudes out the second rotating tube 40, and the outlet 56 of the
cap 55 is exposed. Users can press the cap 55 to drive the vacuum valve 54 to generate
a vacuum suction. Then, the piston 53 of the bottle 50 moves upward to push a cosmetic
product stored in the body 51 out of the outlet 56. The piston 53 is connected to
an inner surface of the body 51. Thus, the cosmetic product remaining on the inner
surface of the body 51 is easy to be scraped out by the motion of the piston 53.
[0020] After users dispense the cosmetic product from the body 51, users can rotate the
first sleeve 10 again, and the protrusions 31 of the seat 30 move from the transverse
sections 222 of the chutes 22 to the bottom ends of the slanting sections 221 of the
chutes 22. In the meanwhile, the protrusions 31 of the seat 30 move downward along
the longitudinal grooves 42 of the second rotating tube 40.The seat 30 moves downward
relative to the first rotating tube 20 to drive the bottle 50 to move downward. Therefore,
the bottle 50 is hidden in the second rotating tube 40, and the outlet 56 of the cap
55 is sunk in the second rotating tube 40 to prevent air from flowing into the chamber
52 of the bottle 50. Accordingly, the cosmetic product in the body is kept in a good
storage condition and protected from deterioration.
[0021] Moreover, the outer diameter of the body 51 is smaller than the internal diameter
of the positioning ring 43. When the cosmetic product is used up, the bottle 50 can
be easily removed from the driving assembly 1 for replacement.
[0022] Accordingly, the cosmetic container can be operated conveniently with a single hand
of a user. The first sleeve 10 is rotated to drive the driving assembly 1, and then
the driving assembly 1 drives the bottle 50 to move upward and downward. Therefore,
the cosmetic container is easy to operate. Moreover, the vacuum suction generated
from the vacuum valve 54 drives the piston 53 to move upward, and the piston 53 pushes
the cosmetic product out of the outlet 56 effectively. Therefore, the quantity of
the cosmetic product remaining on the inner surface of the body 51 is decreased. Furthermore,
the outer diameter of the body 51 is smaller than the internal diameter of the positioning
ring 43. Therefore, the bottle 50 is easy to be changed for replacement.
1. A cosmetic container,
characterized in that the cosmetic container comprises:
a first sleeve (10);
a driving assembly (1) mounted in the first sleeve (10) and having
a first rotating tube (20) coactively mounted in the first sleeve (10) and having
an outer surface;
an annular flange (21) formed on the outer surface of the first rotating tube (20);
and
multiple chutes (22) formed through the outer surface of the first rotating tube (20)
and each chute (22) having
a slanting section (221); and
a transverse section (222) connected to a top end of the slanting section (221);
a seat (30) moveably mounted in the first rotating tube (20) and having
multiple protrusions (31) respectively protruding into the chutes (22) of the first
rotating tube (20); and
a second rotating tube (40) rotatably mounted around the first rotating tube (20)
and having
an inner surface;
an annular groove (41) formed in the inner surface and connected to the annular flange
(21) of the first rotating tube (20);
multiple longitudinal grooves (42) formed in the inner surface and the protrusions
(31) of the seat respectively protruding into the longitudinal grooves (42); and
a positioning ring (43) formed on the inner surface and an internal diameter of the
positioning ring (43) being smaller than an internal diameter of the second rotating
tube (40), and the positioning ring (43) having
a positioning surface (431) formed on a top surface of the positioning ring (43);
a bottle (50) mounted in the seat (30) of the driving assembly (1) and having
a body (51) mounted in the seat (30) of the driving assembly (1) and an outer diameter
of the body (51) being smaller than the internal diameter of the positioning ring
(43);
a chamber (52) formed in the body (51);
a piston (53) mounted in the body (51) and moveably located in the chamber (52);
a vacuum valve (54) mounted on the body (51);
a cap (55) mounted on the vacuum valve (54) and a bottom surface of the cap (55) facing
the positioning surface of the positioning ring (43); and
an outlet (56) formed in the cap (55) and sunk in the second rotating tube (40); and
a second sleeve (60) coactively mounted on the second rotating tube (40) of the driving
assembly (1).
2. The cosmetic container as claimed in claim 1, wherein
the first rotating tube (20) has
multiple ribs (23) formed on an inner surface of the first rotating tube (20); and
the seat (30) has
multiple positioning members (32) mounted on an outer surface of the seat (30) and
respectively connected to the ribs (23) of the first rotating tube (20).
3. The cosmetic container as claimed in claim 1 or 2, wherein
the bottle (50) has
a mark (57) mounted on a top surface of the cap (55) to indicate the outlet (56) of
the bottle (50).
4. The cosmetic container as claimed in any one of claims 1 to 3, wherein one of the
chutes (22) of the first rotating tube (20) has a longitudinal section (223) connected
to the transverse section (222) of said chute (22).
5. The cosmetic container as claimed in any one of claims 1 to 4, wherein
the bottle (50) has
a recess (58) formed in an outer surface of the cap (55) and located below the outlet
(56).