This application claims the benefit of priority from Chinese Patent Application No. CN201910253743.2, filed on Mar. 30, 3019. The content of the aforementioned application, including any intervening amendments thereto, is incorporated herein by reference in its entirety.
The present disclosure relates to the technical field of cosmetics, in particular, to a rotary pressing cosmetic pen.
When the female friends make up with makeup products, for example, powder, eye shadow, powder base, they often use smear tools with latex cotton body. The user needs take the smear tools with their hand to take appropriate amount of makeup products, for example eye shadow, powder, stored in the container. The makeup products, for example, powder, eye shadow, powder base, are usually stored in a special storage container. Each time they need to open the storage container, take out the smear tool to use, it is more inconvenient. Moreover, the makeup materials exposes to the air, it is inevitably pollution, oxidation, resulting in loss of efficacy.
To resolve the problems, Chinese patent CN201811406773.4 disclose a pressing type liquid makeup pen, it includes a brush head assembly, a pressing assembly, a nut, a pen body and a pen cover, which are arranged in the coaxis. The brush head assembly is fixed at the top end of the pen body, and the pen cover is detachable arranged outside of the brush head assembly. One end of the pressing assembly is seally inserted the inside of the pen body, and the inside of the pen body between the pressing assembly and the brush head assembly forms a holding space for storing the makeup material, and the nut is arranged on the outer side of the pressing assembly. The nut is clamped to the inside of the end of the pen body. There is an H height gap between the nut end and the pen body end, and within the gap there is a detachable clamping ring. When used for the first time, remove the clamping ring and push the nut. The nut drives the pressing assembly to move H distance toward the brush head assembly, the nut again clamps with the pen body, and then presses the pressing assembly to extrude the makeup material to the brush head. This makeup pen is convenient for users and saves users a lot of time.
The patent provides a pressing assembly to squeeze the makeup material in the pen body into the brush head assembly, which solves the problem that the makeup material is exposed to the air. However, the inventor realizes that after removing the clamping ring, there is no limited protection for the nut, and when it is not need to use, the external force may also push the nut and extrude the material.
In order to overcome the short comings of the prior art, the present disclosure provides a rotary pressing cosmetic pen, which includes a tube, a button cover and a cylinder, the cylinder contains makeup material. By rotating the cylinder, the button cover is extended out from or retracted into the cylinder, by pressing the button cover, the makeup material is extruded out from the cylinder. And the rotary pressing cosmetic pen is provided with pressing protection for the button cover, which can prevent the makeup material from extruding out when it is not need to use, therefor it avoids the makeup material from exposing in the air and polluting. It is convenient to use. The structure of the parts is simple and the production cost is low.
The technical proposals of the present disclosure are as follows: a rotary pressing cosmetic pen includes a pen tube including front portion and rear portion spaced in an axial direction and containing makeup material, a material assembly received in the pen tube, a pressing assembly arranged at the rear portion of the pen tube and a discharging assembly arranged at the front portion of the pen tube. The pressing assembly includes a cylinder, a button cover, an outer ring and an inner ring. The cylinder rotately connects to the rear portion of the pen tube; the outer ring is fixed in the cylinder; the button cover is inserted into the outer ring and stucked along the circumferential direction of the outer ring; one end of inner ring is inserted between the outer ring and the button cover, the other end of inner ring is inserted into the rear portion of the pen tube and stucked along the circumferential direction of the pen tube; the inner ring is also provided with spiral grooves; the button cover is provided with clasps inserted into the spiral grooves and slide in it; the cylinder is rotated to drive the outer ring and the button cover to rotate; the clasps slide up and down in the spiral grooves, thus the button cover is retracted into or extended out from the cylinder.
Rotate the cylinder to drive the button cover to extend out from the pen tube; press the button cover to push the inner ring, therefor pushing the material assembly and causing the material in the pen tube to be extruded out through the discharging assembly; then the material assembly is reset under the action of a spring to reverse push the inner ring and the button cover extending out from the cylinder; then reversely rotate the cylinder to drive the button cover to retract into the pen tube; the button cover is limited protect within the cylinder, even if press the pressing assembly, the makeup material cannot be extruded out.
The cylinder is sheathed out of the rear portion of the pen tube with a connecting tube, the connecting tube is provided with a first clasp, the cylinder is provided with blocks, the blocks and the first clasp hold each other to prevent the cylinder falling off from the connecting tube.
The outer ring is placed in the cylinder and held by the cylinder; the inner wall of the cylinder is provided with a second clasp holding the outer ring to prevent the outer ring from falling off the cylinder; the inner wall of the cylinder is also evenly distributed with a plurality of first bulges along its axial direction, and the outer wall of the outer ring is also provided with a plurality of second bulges along its axial direction, the first bulges and the second bulges hold each other to prevent the outer ring from rotating.
The outer ring is arranged outside of the button cover, both of which are placed in the cylinder. And the button cover can slide in the outer ring along its axial direction so that the bottom of the button cover extends out from or retracts into the cylinder.
The button cover is grooved with a third clasp in the middle of its outer wall; the bottom periphery of the cylinder extends inward to form a first step ring; the first step ring blocks the third clasp thereby preventing the button cover from falling off the outer ring; the bottom periphery of the outer ring extends inward to form a second step ring matching the outer wall of the button cover and blocking the third clasp.
The second step ring is provided with a slide block; the outer wall of the button cover is provided with a slide slot matching the slide block, thereby the button cover can move up and down along its axis in the outer ring, but it can not rotate along its circumferential direction.
Preferably, the inner ring is provided with a second sliding block, and the inner wall of the opening of the connecting tube is provided with a second slide slot matching the second slide block.
The material assembly includes the connecting tube, the outer wall of the connecting tube is provided with a large ring and a small ring; the large ring adapts the opening of the rear portion of the pen tube; the inner wall of the pen tube is provided with a limited ring matched with the small ring; so that the connecting tube and the pen tube hold each other.
The connecting tube is provided with a convex zone on its outer wall close to the small ring, and the inner wall of the pen tube is provided with convex strips matching with the convex zone, the convex strips and the convex zone hold mutually, thereby preventing the connecting tube from rotating in the pen tube.
The material assembly includes a lower rotating shaft, an upper rotating shaft, a spring, a cylinder cover, a rod and a piston; the lower rotating shaft and the upper rotating shaft are placed in the connecting tube; the connecting tube is provided with an inner convex ring; the upper part of the inner convex ring is provided with a vertical tooth portion; the lower rotating shaft has a lower cylinder and a lower tooth portion arranged on the lower cylinder; the lower tooth portion and the vertical tooth portion are clamped mutually to prevent the lower rotating shaft from rotating in its circumferential direction, the lower cylinder passes through the inner convex ring touch the inner ring.
The top of the lower tooth portion is arranged as a continuous V-shaped tooth; the upper rotating shaft has an upper cylinder and a limit plate arranged in the middle of the upper cylinder, from which extends the upper tooth portion; the upper cylinder inserts the lower tooth portion, and the bottom of the upper tooth portion is an oblique tooth matching the V-shaped tooth.
The connecting tube is also provided with a wall hole above the convex zone; the upper end of the connecting tube is provided with the connecting cover, the connecting cover is provided with clasps to connect the wall hole; the connecting cover is also provided with a thread hole at its center; the spring is sheathed out of the upper rotating shaft with one end against the limit plate and the other end against the connecting cover.
The rod has a threaded body portion, the opposite side faces of the threaded body portion are set as planes; one end of the thread body portion is a cylinder end, the other end of it is provided with an end cover, and a top cover is arranged above the end cover; the upper rotating shaft is provided with a flat cavity; the threaded body portion passes through the connecting cover and fits with the threaded hole; the thread body portion passes through the flat cavity and the lower rotating shaft and extends into the inner ring.
The piston is slide arranged in the pen tube, which is pushed by the top rod end of the rod and slides up in the pen tube.
the discharging assembly is arranged at one end of the pen tube; the end of the pen tube is provided with a threaded port; the discharging assembly comprises a nozzle and a pen head; the nozzle includes a thread tube and a thin tube portion arranged on the thread tube, the thread tube is connected with the threaded port; the pen head are fixed on the thread tube.
The pen head is shaped in a sloping surface, a arc surface or a spherical sphere.
The discharging assembly is arranged at the front portion of the pen tube, it includes a pen head, a brush arranged within the pen head, a nozzle, a plug, a spring, a steel ball and a seal plug; the front portion of the pen tube is provided with a threaded opening, and the pen head is provided with an internal thread, which is sheathed out of the thread opening; the sealing plug is inserted in the thread opening and sealed it, the sealing plug is provided with a tube cover in its middle covering the thread opening; bottom of the sealing plug is provided with a first through hole, and inner cavity of the sealing plug is hollow; the steel bead is received at the through hole, the plug is placed in inner cavity of the sealing plug; the plug is provided with a plug hole the spring is also provided between the steel ball and the plug, the nozzle includes a plug end, a thin tube end, and an end cover between them, the insertion end inserts the sealing plug, the thin tube end insert the brush; the end cover covers the seal plug, the brush includes a brush seat and soft hair arranged on the brush seat, the brush seat is provided with a second through hole, the thin tube end insert into the soft hair through the second through hole, the tube contains fluid material, which is flows out by pressing the pressing assembly and the material assembly, the fluid material flows through the threaded opening, the first through hole, the cavity of said sealing plug, the plug hole of the plug, the thin tube and flows into the brush, the brush infiltrate fluid material and used for making up.
The material assembly is a piston assembly, including a piston cover, a piston, a piston tube, a discharging cover and vacuum pump core; top surface of the inner ring is provided with a plunger, the piston cover is provided with a cylinder hole matching with the plunger; the piston cover seals bottom of the pen tube; the piston is placed in the pen tube and it can slide in the pen tube; the pen tube contains makeup material; the piston tube is contained in the pen tube, top of the pen tube is provided with a thin neck, the thin neck is provided with an external thread, and top of the thin neck is provided with a tube port; the discharging cover includes a groove-shaped cover with a through hole at its top and a threaded ring in it, the threaded ring connected with side walls of the outer cover through a plurality of stiffeners; the inner wall of the thread ring is provided with internal threads sheathed out of the thin neck through the external thread and the internal threads to assemble the discharging cover on the top of the pen tube.
The vacuum pump core is assembled at the through hole of the discharging cover and inserted and sealed the piston tube through the tube port; pressing the pressing assembly to push the piston tube to move towards the discharging assembly, and then, driven by spring of the vacuum pump core, the piston tube resets to generate negative pressure; the material in the pen tube is extruded out of the discharging assembly through the vacuum pump core.
The discharging assembly comprises a cover, a piece and a cotton head; the cover has a first connecting section, a second connecting section and a third connecting section set as a step-by-step arrangement; the inner wall of the first connecting part is provided with a thread, and connects outer part of the upper connecting head through the thread; the second connecting section connects the first connecting section and the third connecting section; the third connecting section has a thin neck and an external opening; the cotton head has a circular head, a neck and a base; said base is placed in the second connecting section and is matched to the third connecting section; the neck passes through the thin neck of the third connecting section; the circular head extends out from the thin neck, bottom of thin neck and opening of the outer opening fit each other; center of the cotton head is provided with material hole through the circular head, the neck and the base, the piece comprises a sealing cover, a sleeve ring and an discharging rod; the sealing cover is housed in the second connecting section of the cover, and upper end surface of the sealing cover is provided with the sleeve ring; the sleeve ring is arranged in the second connecting section and is connected to the base; the discharging rod is arranged on the sleeve ring; the discharging rod is inserted in the material hole.
The advantages of the present disclosure is that the rotary pressing cosmetic pen causes the button cover to extend out from or retract into the cylinder by rotating the cylinder, and the material extrusion is realized by pressing the button cover. The rotary pressing cosmetic pen is also provide with a pressing protection for the button cover to prevent the material from extruding out from the pen tube, it avoids material waste and pollution.
The followings will further descript the present invention with the embodiments, which are the preferable embodiments in the present invention.
Referring to
The material pen tube 100 contains the movable liquid or the emulsion material. Rotate the cylinder 410 to drive the button cover 420 to extend the pen tube 100. Then press the button cover 420 to push the inner ring 440, therefor pushing the material assembly 200 and causing the material in the pen tube 100 to be extruded out through the discharging assembly 300. Then the material assembly 200 is reset under the action of a spring to reverse push the inner ring 440 and the button cover 420, which is extends the cylinder 410. Repeatedly press the button cover 420 so that sufficient material is extruded for use. After that, reversely rotate of the cylinder 410 to drive the button cover 420 to retract to the pen pen tube 100. The button cover 420 is limitly protected within the cylinder 410, even if the external force continues to press the pressing assembly 400, the makeup material cannot be extruded out.
Referring to
Referring to
The outer ring 430 is arranged outside the button cover 420, both of which are placed in the cylinder 410 together. And the button cover 420 can slide in the outer ring 430 along the axial direction so that the bottom of the button cover 420 extends out from or retracts into the cylinder 410.
Referring to
The outer ring 430 also limits the button cover 420 to prevent its rotation. Specifically, referring to
The inner ring 440 is arranged between the button cover 420 and the outer ring 430. Specifically, referring to
Preferably, referring to
Referring to
A portion of the connecting tube 210 is inserted and clamped with the pen tube 100. Specifically, the outer wall of the connecting tube 210 is provided with a large ring 213 and a small ring 214. The large ring 213 adapts the lower opening 101 of the pen tube 100. The inner wall of the pen tube 100 is provided with a limited ring 102 matched with the small ring 214 so that the connecting tube 210 and the pen tube 100 are clamped so that the connecting tube 210 cannot be lifted or lowered in the tube 101.
Referring to
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When the upper rotating shaft 230 rotates up, the rod 260 rotates up synchronously. When the upper rotating shaft 230 falls under the action of the spring 240, the rod 260 is blocked by the thread hole 25 and cannot be dropped synchronously. Repeatedly press the button cover 420, the rod 260 is rose.
The piston 270 is slide arranged in the pen tube 100, which is pushed by the top rod end 265 of the tooth rod 260 and slides up in the pen tube 100. Specifically, the piston 270 is provided with a cavity matching the top rod end 265.
The pen tube 100 is provided with a makeup material, and under the impetus of the piston 270, the makeup material extrudes the pen tube 100.
Referring to
The shape of the pen head 320 may be designed in various ways, as shown in
It should be understood that in the above embodiments the pressing assembly 400 pushes the material assembly 200 to extrude the material in the material pen tube 100 through the discharging assembly 300. The material assembly 200 and the discharging assembly 300 are not limited to the structures defined in the above embodiments. In another embodiment of the invention, the material assembly 200 is provided as a piston assembly. The piston assembly 600 is arranged in the pen tube 100 and the pressing assembly 400 pushes the piston assembly 600 to extrude the material out of the discharging assembly 300.
Specifically, referring to
connecting rings 110′, the connecting ring 110′ is provided with the first clasp 111 on the outer periphery. The inner wall of the upper opening of the cylinder 410 is provided with a block 411′. the first clasp 111′ and the block 411′ mutually hold, so that the cylinder 410′ can rotate around the connecting ring 110′, but it can not fall off from the cylinder 410′.
The piston assembly 600 comprises a piston cover 610, a piston 620, a piston tube 640, a discharging cover 650 and a vacuum pump core 630.
The top surface of the inner ring 440′ is provided with a plunger 443′. The piston cover 610 is provided with a cylinder hole 611 matching the plunger 643. The piston cover 610 seals the bottom of the piston tube 640. The piston 620 is placed in the piston tube 640 and it can slide in the piston tube 640. The piston tube 640 contains the makeup material.
The piston tube 640 is placed in the pen tube 100. The top of the piston tube 640 is provided with a thin neck 641, the thin neck 641 is provided with an external thread, and the top is provided with a tube port 642.
The discharging cover 650 includes a groove-shaped cover 651. the top of the groove-shaped cover is provided with a through hole 652. The groove-shaped cover is provided with a threaded ring 653 connected with the side walls of the outer cover 651 through a plurality of stiffeners 654. The inner wall of the thread ring 653 is provided with internal threads. The thread ring 653 connects the thin neck 641 through the external thread and the internal threads to assemble the discharging cover 650 on the top of the piston tube 640.
The vacuum pump core 630 is assembled at the through hole 652 of the discharging cover 650 and inserted and sealed the piston tube 640 through the tube port 642. Press the pressing assembly 400 to push the piston tube 640 to move in the direction of the discharging assembly 300, and then, driven by the spring 633 of the vacuum pump core 630, the piston tube 640 resets to generate negative pressure. The material in the piston tube 640 is extruded the discharging assembly 300 through the vacuum pump core 630.
Specifically, refer to
Press the button over 420 of the pressing assembly 400 in the direction of discharging assembly 300 to push the piston cover 610 of the vacuum piston assembly 600, the discharging cover 650 and the vacuum pump core 630 move in the same direction, and the spring 633 is compressed. After the pressing force disappears, the spring 633 elongates to reset to push the vacuum pump core 630, the discharging cover 650, the piston cover 610 and the button cover 420 reversely move and reset, the negative pressure is generated in the piston tube 640, the material passes through the valve 636. the lower sliding cylinder 635, the rod hole 6371 of the connecting rod 637, the inner cavity of the upper sliding cylinder 632 in turn and and enters the discharging assembly 300. So repeatedly pressed, more material is enters the discharging assembly.
It should be understood that the discharging assembly 300 is not limited to the structure described in the above embodiments. In another embodiment of the present invention, reference to
The cylinder limited ring 6321 is connected to the sleeve ring 722, and the upper sliding cylinder 632 aligns with the discharging rod 723.
Preferably, the discharging assembly 700 is also provided with a lid 500′. The lid 500′ is fastened to the cover 710 of the discharging assembly 700, thereby placing the circular head 721 in the lid 500′. Preferably, the outer wall of the second connecting part 712 of the cover 710 is provided with a clamping ring 715, and the inside wall of the lid 500′ is provided with a bump 501′, and the clamping ring 75 is interference fitted with the bump 501′ to prevent the lid 500′ falling off from the discharging assembly 700. When it needs to be opened, the external force overcomes the interference fit between the bumps 501′ and the clamping ring 715 to removes the lid 500′ from the discharging assembly 700. After the material enters the discharging assembly 700, it extrudes outside the circular head 731 of the cotton head 730 through the discharging rod 723 and the material hole 734 for using.
Referring to
The sealing plug 870 is inserted in the thread opening 120 and sealed it. The sealing plug 870 is provided with a tube cover 871 in the middle covering the thread opening 120. The bottom of the sealing plug 870 is provided with a first through hole 872, and the inner cavity of the sealing plug 870 is hollow. The steel bead 860 is housed at the through hole 872, and the diameter of the steel bead 860 is larger than that of the through hole 872. The plug 840 is placed in the inner cavity of the sealing plug 870. The plug 840 is provided with a plug hole 841. The spring 85 is also provided between the steel ball 860 and the plug 840. The nozzle 830 includes a plug end 831, a thin tube end 832, and an end cover 833 between the two, the insertion end 831 inserts the sealing plug 870, the thin tube end 832 insert the brush 820. The end cover 833 covers the seal plug 870. The brush 820 includes a brush seat 821 and soft hair 822 arranged on the brush seat 821. The brush seat 821 is provided with a second through hole 823. The thin tube end 832 insert into the soft hair 822 through the second through hole 823. The pen tube 100 contains fluid material, which is flows out by pressing the pressing assembly 400 and the material assembly 200 or 700, the fluid material flows through the threaded opening 120, the first through hole, the cavity of the sealing plug, the plug hole of the plug, the thin tube and flows into the brush, the brush infiltrate fluid material ans used for making up.
Thus since the invention disclosed herein may be embodied in other specific forms without departing from the spirit or general characteristics thereof, some of which forms have been indicated, the embodiments described herein are to be considered in all respects illustrative and not restrictive. The scope of the invention is to be indicated by the appended claims, rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are intended to be embraced therein.
Number | Date | Country | Kind |
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201910253743.2 | Mar 2019 | CN | national |