CN115844802B - Oil-control moisturizing cosmetic foundation with fat-absorbing performance and preparation method thereof - Google Patents

Abstract

The invention relates to the technical field of cosmetics, and discloses an oil-control and moisturizing cosmetic foundation with a fat absorption performance and a preparation method thereof. The preparation method of the oil-control moisturizing cosmetic foundation with the fat absorption performance comprises the following steps of: mixing the synthetic fluorophlogopite, hydroxyapatite, zinc oxide and Lac Regis Apis extract to obtain oil-controlling powder; mixing oleum Trigonellae, trimethylolpropane triacrylate, sodium hyaluronate, ceramide, fibroin, and propylene glycol to obtain humectant; mixing the fat-absorbing oil-controlling powder, the humectant, the film forming agent, the emulsifying agent, the softening agent, the filling agent, the aloe extract, the chamomile extract and the preservative to obtain a powder cake mixture; and finally, grinding, filling and pressing the powder cake mixture to obtain the oil-control moisture-keeping powder cake with the fat-absorbing performance. The oil-control and moisture-retention make-up powder cake with the fat-absorbing performance has good effects of absorbing fat, controlling oil, retaining moisture, retaining make-up and the like.

Description

Oil-control moisturizing cosmetic foundation with fat-absorbing performance and preparation method thereof

Technical Field

The invention relates to the technical field of cosmetics, in particular to an oil-control moisturizing cosmetic foundation with a fat absorption performance and a preparation method thereof.

Background

Beauty is the nature of humans, and as early as the original period, humans began to decorate themselves with something special, making them more beautiful. Archaeologists have found beautiful beads made of stones, shells or teeth on the original human site for decoration; marks of beauty and make-up were found on the cave wall painting. With the improvement of the living standard of substances at present, the requirements of people on the efficacy and quality of cosmetics are also higher and higher, and various cosmetics are layered endlessly. In the modern society, almost every woman can use cosmetics to beautify personal images before going out or participating in important activities, so that personal air quality is improved. However, with the prolongation of the post-makeup time, the makeup is difficult to keep as early as possible, and the phenomena of makeup removal, oil-making, toner aggregation and the like are easy to occur. The reason is that the grease naturally secreted by the skin of a human body can dissolve certain components in the makeup product, so that the makeup removing phenomenon occurs; and excessive grease secretion can cause facial flooding, and influence aesthetic feeling and durability of makeup, so that the grease sucking and oil controlling is a considerable topic in the technical field of cosmetics.

On the other hand, in cosmetics, especially in pressed powders, since the raw material components are mostly powders, in use, if the skin surface is too dry or the pressed powders themselves are dry with rough texture, it is difficult to fit the face, and the phenomena of powder sticking and powder floating occur.

Chinese patent CN111529431B proposes a composition and cosmetic with cosmetic oil control effect, which can absorb and flocculate and solidify sebum in a directed manner, has a good oil control effect, but needs to be improved in terms of moisture retention.

Chinese patent CN106511136B proposes a moisturizing cosmetic additive, a preparation method thereof and a cosmetic containing the moisturizing cosmetic additive, wherein the moisturizing cosmetic additive has good moisturizing effect and high skin feel experience index, and can effectively improve the problem of skin water shortage and achieve the effect of deeply moisturizing the skin, but the cosmetic containing the moisturizing cosmetic additive has to be improved in terms of fat absorption and oil control.

Disclosure of Invention

In order to solve the technical problems, the invention provides a preparation method of an oil-control moisturizing cosmetic foundation with a fat absorption performance, which comprises the following steps:

step (1) preparing fat-absorbing oil-controlling powder and humectant:

wherein, the preparation of the fat sucking oil control powder comprises the following steps:

Mixing the synthetic fluorophlogopite, hydroxyapatite, zinc oxide and Lac Regis Apis extract to obtain oil-controlling powder;

wherein, the preparation of the humectant comprises the following steps:

mixing oleum Trigonellae, trimethylolpropane triacrylate, sodium hyaluronate, ceramide, fibroin, and propylene glycol to obtain humectant;

and (2) preparing a powder cake: mixing the fat-absorbing oil-controlling powder, humectant, film forming agent, emulsifying agent, softening agent, filler, aloe extract, flos Matricariae Chamomillae extract and antiseptic at 40-55deg.C to obtain powder cake mixture; and grinding the powder cake mixture, filling the ground powder cake mixture into an aluminum dish by using a powder cake filling device, and pressing to obtain the oil-control moisture-keeping make-up powder cake with the fat absorption performance.

Preferably, in the step (1), the mass ratio of the synthetic fluorophlogopite, the hydroxyapatite, the zinc oxide and the royal jelly extract is 7:2:1:2.

preferably, in the step (1), the mass ratio of the luba oil, the trimethylolpropane triacrylate, the sodium hyaluronate, the ceramide, the fibroin and the propylene glycol is 1:0.75:0.5:0.5:0.5:3.25.

preferably, in the step (2), the mass ratio of the oil-absorbing and oil-controlling powder, the humectant, the film forming agent, the emulsifying agent, the softening agent, the filling agent, the aloe extract, the chamomile extract and the preservative is (25-45): (5-15): 4:3: (5-7.5): 0.5:6:6:0.2; wherein the film forming agent comprises polymethylsilsesquioxane, the emulsifying agent comprises bis-PEG/PPG-14/14 polydimethylsiloxane, the softening agent comprises polydimethylsiloxane, the filler comprises vinyl polydimethylsiloxane/polymethylsiloxane silsesquioxane cross-linked polymer, and the preservative comprises methylparaben.

Preferably, in the step (2), the fineness of the ground powder cake mixture is 3000-5000 meshes.

Preferably, the oil-control and moisture-keeping cosmetic powder cake with the fat-absorbing performance is prepared by adopting the preparation method of the oil-control and moisture-keeping cosmetic powder cake with the fat-absorbing performance.

The invention also provides a powder cake filling device, which comprises a filling machine body and a transmission device, wherein the filling machine body comprises a filling port; the conveying device can enable the aluminum dish to move forwards below the filling machine body; the aluminum dish positioning assembly is arranged on the filling machine body, the aluminum dish positioning assembly can enable an aluminum dish below the filling machine body to move to a position corresponding to the filling opening, the aluminum dish positioning assembly is positioned above the transmission device, the aluminum dish positioning assembly comprises two transverse moving plates, two longitudinal moving plates and a sinking groove, the two transverse moving plates can move along the sinking groove in opposite directions, and the two transverse moving plates can move downwards in the moving process of the sinking groove; the two longitudinal moving plates are respectively matched with the two transverse moving plates in a sliding way, and the two longitudinal moving plates can move in opposite directions; the two transverse moving plates and the two longitudinal moving plates can push the corresponding aluminum discs on the conveying device to move to the position right below the filling opening.

Preferably, the aluminum dish positioning assembly further comprises two sliding frames, wherein the sliding frames can move on the corresponding longitudinal moving plates when the two transverse moving plates move in opposite directions, and the sliding frames can move on the corresponding transverse moving plates when the two longitudinal moving plates move in opposite directions; the two transverse moving plates are respectively provided with a sliding hole, the two sliding frames are respectively in sliding fit in the corresponding sliding holes, and the two longitudinal moving plates are respectively in sliding fit in the corresponding sliding frames; a stabilizing groove is formed in the sliding hole, a stabilizing block is fixedly arranged at the position, corresponding to the stabilizing groove, of the sliding frame, the stabilizing block is in sliding fit in the stabilizing groove, and the moving block is in sliding fit in the stabilizing groove; the two sliding holes are internally provided with blocking components, the blocking components can shade the sliding holes, two ends of the blocking components are respectively connected to corresponding sliding frames, and when the two sliding frames move oppositely, the blocking components can be driven by the sliding frames to shrink; when the two sliding frames move oppositely, the blocking component can be driven by the sliding frames to stretch; the blocking assembly comprises a plurality of groups of hinging mechanisms and a plurality of moving blocks, the moving blocks are respectively hinged between two adjacent hinging mechanisms, and the hinging mechanisms close to the two sliding frames are respectively hinged on the corresponding sliding frames; the hinge mechanism comprises two hinge plates, the two hinge plates are hinged with each other, two ends of the two hinge plates are hinged on the corresponding moving blocks respectively, and one end of the hinge plate close to the sliding frame is hinged on the corresponding sliding frame.

Preferably, the aluminum dish positioning assembly further comprises two sinking plates, the sinking plates are arranged on two sides of the transmission device, the sinking grooves are formed in one side, close to the transmission device, of the sinking plates, a rotating rod is fixedly connected to one side, close to the sinking plates, of each of the two transversely moving plates, rotating wheels are rotatably connected to the rotating rods, and the rotating wheels are in rolling fit in the corresponding sinking grooves; the sinking groove comprises a high-level horizontal groove, a connecting inclined groove and a low-level horizontal groove, wherein two ends of the connecting inclined groove are respectively connected with the high-level horizontal groove and the low-level horizontal groove, the connecting inclined groove is obliquely arranged, and the height of the high-level horizontal groove on the sinking plate is larger than that of the low-level horizontal groove on the sinking plate; two all be provided with firm subassembly on the board that sinks, firm subassembly includes supporting shoe, sliding plate and two spacing, the one end fixed mounting of supporting shoe is in the top of board that sinks, the sliding plate cover is established on the supporting shoe and with supporting shoe sliding fit, two spacing equal fixed mounting of strip is in the bottom of sliding plate, two spacing opposite one side has seted up spacing groove.

Preferably, the filling machine body is further provided with a driving assembly, and the driving assembly can drive the two transverse moving plates to move in opposite directions and drive the two longitudinal moving plates to move in opposite directions; the driving assembly comprises driving equipment, a driving threaded rod, a transverse driving block, a symmetrical threaded rod and two longitudinal driving blocks, wherein the driving equipment can drive the driving threaded rod and the symmetrical threaded rod to rotate, the driving threaded rod penetrates through the transverse driving block and is in threaded connection with the transverse driving block, the transverse driving block is connected with one transverse moving plate through a transverse sliding rod, when the transverse driving block moves, the transverse sliding rod drives one transverse moving plate to move, and when the transverse moving plate follows the transverse sliding rod to move, the transverse moving plate can move downwards on the transverse sliding rod under the limit of the sinking groove; the two longitudinal driving blocks are in sliding connection with the corresponding longitudinal moving plates through longitudinal sliding blocks, the symmetrical threaded rods can drive the two longitudinal driving blocks to move in opposite directions, the longitudinal driving blocks can drive the longitudinal moving plates to move through the longitudinal sliding blocks, and the longitudinal moving plates can move downwards on the longitudinal sliding blocks in the moving process; when one of the transverse moving plates moves, the other transverse moving plate can be driven to move through the linkage assembly; the linkage assembly comprises a gear and two racks, one ends of the two racks are respectively and fixedly installed on the corresponding transverse moving plates, the two racks are meshed with the gear, the two racks are respectively and slidably matched in the corresponding limiting grooves, and the gear is rotationally connected to the bottom of the sliding plate.

Preferably, the conveying device comprises a conveying belt, a supporting table is fixedly connected between two sinking plates, the supporting table is propped against the inner top surface of the conveying belt, two supporting rollers are further rotatably connected between the sinking plates, and the two supporting rollers are positioned on two sides of the supporting table.

Compared with the prior art, the invention has the beneficial effects that: the powder cake prepared by the invention has good effects of sucking fat and controlling oil, preserving moisture and keeping make-up, wherein the fat sucking and controlling oil powder contains synthetic fluorophlogopite, hydroxyapatite and zinc oxide, can directionally adsorb and solidify grease secreted by skin, can not adsorb moisture on the surface of the skin, has good fat sucking and controlling oil performance, and has non-dry skin feeling and long-acting make-up keeping effect; the moisturizing agent has good moisturizing effect, can increase the skin feel and lubricity of cosmetics, has strong water locking capability, can tighten the skin, and further has good makeup holding effect; the fibroin in the humectant also has effects of improving inflammatory wound, removing wrinkle, and whitening; the aloe extract has effects of keeping moisture, preventing sunburn, relieving inflammation, sterilizing, and reducing skin oil and melanin secretion; the flos Matricariae Chamomillae extract has effects of relieving, moistening, and controlling skin oil secretion.

According to the powder cake filling device, the two transverse moving plates transversely move oppositely and the two longitudinal moving plates longitudinally move oppositely, the transverse moving plates and the longitudinal moving plates are limited by the sinking grooves in the moving process, so that the transverse moving plates and the longitudinal moving plates synchronously move downwards, the transverse moving plates and the longitudinal moving plates descend to the height corresponding to the aluminum discs, the two transverse moving plates oppositely move to push the aluminum discs to transversely move, the two longitudinal moving plates move to push the aluminum discs to longitudinally move until the aluminum discs are pushed to the position right below a filling opening, the aluminum discs conveyed on a common conveying device can be accurately positioned to the position right below the filling opening, and therefore powder cake mixtures after grinding are filled into the aluminum discs through the filling opening, the filling machine body has low requirements on the conveying device, the width of the filling machine body is not required to be matched with the width of the aluminum discs, a special conveying motor and a conveying stopping device are not required to be arranged to ensure the stopping position of the aluminum discs, the cost is saved, and the filling machine body has stronger adaptability due to the fact that the common conveying device can be used.

Drawings

FIG. 1 is a flow chart of a preparation process of the oil-control and moisture-retention make-up powder cake with the fat absorption performance;

FIG. 2 is a schematic perspective view of a compact filling device according to the present invention;

FIG. 3 is a schematic structural view of a conveying device of a compact filling device according to the present invention;

FIG. 4 is an enlarged view of portion A of FIG. 3 in accordance with the present invention;

FIG. 5 is a schematic view of the powder cake filling device according to the present invention;

FIG. 6 is an enlarged view of portion B of FIG. 5 in accordance with the present invention;

FIG. 7 is a schematic view of a compact filling apparatus according to the present invention;

FIG. 8 is an enlarged view of portion C of FIG. 7 in accordance with the present invention;

fig. 9 is a schematic structural view of a support table and a support roller of the compact filling apparatus of the present invention;

FIG. 10 is a schematic structural view of an aluminum dish positioning assembly of a compact filling apparatus according to the present invention;

FIG. 11 is an enlarged view of portion D of FIG. 10 in accordance with the present invention;

FIG. 12 is an enlarged view of portion E of FIG. 10 in accordance with the present invention;

FIG. 13 is a schematic view showing the structure of a sinking tank of a compact filling device according to the present invention;

fig. 14 is a schematic structural view of a limit bar of the compact filling device according to the present invention.

In the figure: 1. a filling machine body; 2. an aluminum dish positioning assembly; 21. a lateral moving plate; 22. a longitudinally moving plate; 23. a sinking groove; 231. a high level horizontal trough; 232. connecting an inclined groove; 233. a low level horizontal slot; 24. a sliding frame; 25. a sinking plate; 3. a blocking assembly; 31. a moving block; 32. a hinged plate; 4. a drive assembly; 41. a driving device; 42. driving a threaded rod; 43. a lateral drive block; 44. a symmetrical threaded rod; 45. a longitudinal driving block; 5. a linkage assembly; 51. a gear; 52. a rack; 6. a stabilizing assembly; 61. a support block; 62. a sliding plate; 63. a limit bar; 8. a transmission device; 9. a filling port; 10. a transverse slide bar; 11. a longitudinal slide block; 12. a rotating lever; 13. a rotating wheel; 14. a support table; 15. a support roller; 16. a stabilizing groove; 17. stabilizing the block.

Detailed Description

The technical solutions of the embodiments of the present invention will be clearly and completely described below in conjunction with the embodiments of the present invention, and it is apparent that the described embodiments are only some embodiments of the present invention, but not all embodiments, and all other embodiments obtained by those skilled in the art without making any inventive effort based on the embodiments of the present invention are within the scope of protection of the present invention.

Example 1

A preparation method of an oil-control and moisture-retention make-up powder cake with a fat absorption performance comprises the following steps:

(1) Preparing fat sucking oil controlling powder and humectant:

wherein, the preparation of the fat sucking oil control powder comprises the following steps:

mixing synthetic fluorophlogopite, hydroxyapatite, zinc oxide and Lac Regis Apis extract at a mass ratio of 7:2:1:2, mixing to obtain the oil-sucking and oil-controlling powder;

wherein, the preparation of the humectant comprises the following steps:

the method comprises the steps of mixing oleum Juniperi, trimethylolpropane triacrylate, sodium hyaluronate, ceramide, fibroin and propylene glycol at a mass ratio of 1:0.75:0.5:0.5:0.5:3.25, mixing to obtain a humectant;

(2) Preparing a powder cake: the preparation method comprises the steps of mixing the fat-absorbing oil-controlling powder, the humectant, the polymethylsilsesquioxane, the bis-PEG/PPG-14/14 polydimethylsiloxane, the vinyl polydimethylsiloxane/polymethylsiloxane silsesquioxane cross-linked polymer, the aloe extract, the chamomile extract and the methylparaben in a mass ratio of 25:5:4:3:5:0.5:6:6: mixing at 40deg.C for 1 hr to obtain powder cake mixture; grinding the powder cake mixture, filling the ground powder cake mixture into an aluminum dish, and pressing to obtain the oil-control moisture-keeping cosmetic powder cake with the fat absorption performance; wherein the fineness of the ground powder cake mixture is 3000 meshes.

Example 2

A preparation method of an oil-control and moisture-retention make-up powder cake with a fat absorption performance comprises the following steps:

(1) Preparing fat sucking oil controlling powder and humectant:

wherein, the preparation of the fat sucking oil control powder comprises the following steps:

mixing synthetic fluorophlogopite, hydroxyapatite, zinc oxide and Lac Regis Apis extract at a mass ratio of 7:2:1:2, mixing to obtain the oil-sucking and oil-controlling powder;

wherein, the preparation of the humectant comprises the following steps:

the method comprises the steps of mixing oleum Juniperi, trimethylolpropane triacrylate, sodium hyaluronate, ceramide, fibroin and propylene glycol at a mass ratio of 1:0.75:0.5:0.5:0.5:3.25, mixing to obtain a humectant;

(2) Preparing a powder cake: the preparation method comprises the steps of mixing the fat-absorbing oil-controlling powder, the humectant, the polymethylsilsesquioxane, the bis-PEG/PPG-14/14 polydimethylsiloxane, the vinyl polydimethylsiloxane/polymethylsiloxane silsesquioxane cross-linked polymer, the aloe extract, the chamomile extract and the methylparaben in a mass ratio of 30:7:4:3:6.5:0.5:6:6: mixing at 45deg.C for 1 hr to obtain powder cake mixture; grinding the powder cake mixture, filling the ground powder cake mixture into an aluminum dish, and pressing to obtain the oil-control moisture-keeping cosmetic powder cake with the fat absorption performance; wherein the fineness of the ground powder cake mixture is 3500 meshes.

Example 3

A preparation method of an oil-control and moisture-retention make-up powder cake with a fat absorption performance comprises the following steps:

(1) Preparing fat sucking oil controlling powder and humectant:

wherein, the preparation of the fat sucking oil control powder comprises the following steps:

mixing synthetic fluorophlogopite, hydroxyapatite, zinc oxide and Lac Regis Apis extract at a mass ratio of 7:2:1:2, mixing to obtain the oil-sucking and oil-controlling powder;

wherein, the preparation of the humectant comprises the following steps:

the method comprises the steps of mixing oleum Juniperi, trimethylolpropane triacrylate, sodium hyaluronate, ceramide, fibroin and propylene glycol at a mass ratio of 1:0.75:0.5:0.5:0.5:3.25, mixing to obtain a humectant;

(2) Preparing a powder cake: the preparation method comprises the steps of mixing the fat-absorbing oil-controlling powder, the humectant, the polymethylsilsesquioxane, the bis-PEG/PPG-14/14 polydimethylsiloxane, the vinyl polydimethylsiloxane/polymethylsiloxane silsesquioxane cross-linked polymer, the aloe extract, the chamomile extract and the methylparaben in a mass ratio of 35:8:4:3:7.5:0.5:6:6: mixing at 45deg.C for 1 hr to obtain powder cake mixture; grinding the powder cake mixture, filling the ground powder cake mixture into an aluminum dish, and pressing to obtain the oil-control moisture-keeping cosmetic powder cake with the fat absorption performance; wherein the fineness of the ground powder cake mixture is 4000 meshes.

Example 4

A preparation method of an oil-control and moisture-retention make-up powder cake with a fat absorption performance comprises the following steps:

(1) Preparing fat sucking oil controlling powder and humectant:

wherein, the preparation of the fat sucking oil control powder comprises the following steps:

mixing synthetic fluorophlogopite, hydroxyapatite, zinc oxide and Lac Regis Apis extract at a mass ratio of 7:2:1:2, mixing to obtain the oil-sucking and oil-controlling powder;

wherein, the preparation of the humectant comprises the following steps:

the method comprises the steps of mixing oleum Juniperi, trimethylolpropane triacrylate, sodium hyaluronate, ceramide, fibroin and propylene glycol at a mass ratio of 1:0.75:0.5:0.5:0.5:3.25, mixing to obtain a humectant;

(2) Preparing a powder cake: the preparation method comprises the steps of mixing the fat-absorbing oil-controlling powder, the humectant, the polymethylsilsesquioxane, the bis-PEG/PPG-14/14 polydimethylsiloxane, the vinyl polydimethylsiloxane/polymethylsiloxane silsesquioxane cross-linked polymer, the aloe extract, the chamomile extract and the methylparaben in a mass ratio of 40:10:4:3:6.5:0.5:6:6: mixing at 50deg.C for 0.5 hr to obtain powder cake mixture; grinding the powder cake mixture, filling the ground powder cake mixture into an aluminum dish, and pressing to obtain the oil-control moisture-keeping cosmetic powder cake with the fat absorption performance; wherein the fineness of the ground powder cake mixture is 4500 meshes.

Example 5

A preparation method of an oil-control and moisture-retention make-up powder cake with a fat absorption performance comprises the following steps:

(1) Preparing fat sucking oil controlling powder and humectant:

wherein, the preparation of the fat sucking oil control powder comprises the following steps:

mixing synthetic fluorophlogopite, hydroxyapatite, zinc oxide and Lac Regis Apis extract at a mass ratio of 7:2:1:2, mixing to obtain the oil-sucking and oil-controlling powder;

wherein, the preparation of the humectant comprises the following steps:

the method comprises the steps of mixing oleum Juniperi, trimethylolpropane triacrylate, sodium hyaluronate, ceramide, fibroin and propylene glycol at a mass ratio of 1:0.75:0.5:0.5:0.5:3.25, mixing to obtain a humectant;

(2) Preparing a powder cake: the preparation method comprises the steps of mixing the fat-absorbing oil-controlling powder, the humectant, the polymethylsilsesquioxane, the bis-PEG/PPG-14/14 polydimethylsiloxane, the vinyl polydimethylsiloxane/polymethylsiloxane silsesquioxane cross-linked polymer, the aloe extract, the chamomile extract and the methylparaben in a mass ratio of 45:15:4:3:5.5:0.5:6:6: mixing at 55deg.C for 0.5 hr to obtain powder cake mixture; grinding the powder cake mixture, filling the ground powder cake mixture into an aluminum dish, and pressing to obtain the oil-control moisture-keeping cosmetic powder cake with the fat absorption performance; wherein the fineness of the ground powder cake mixture is 5000 meshes.

Comparative example 1

A preparation method of an oil-control and moisture-retention make-up powder cake with a fat absorption performance comprises the following steps:

(1) Preparing a humectant: the method comprises the steps of mixing oleum Juniperi, trimethylolpropane triacrylate, sodium hyaluronate, ceramide, fibroin and propylene glycol at a mass ratio of 1:0.75:0.5:0.5:0.5:3.25, mixing to obtain a humectant;

(2) Preparing a powder cake: the preparation method comprises the steps of mixing humectant, polymethyl silsesquioxane, bis-PEG/PPG-14/14 polydimethylsiloxane, vinyl polydimethylsiloxane/polymethyl siloxane silsesquioxane cross-linked polymer, aloe extract, chamomile extract and methylparaben in a mass ratio of 10:4:3:6.5:0.5:6:6: mixing at 50deg.C for 0.5 hr to obtain powder cake mixture; grinding the powder cake mixture, filling the ground powder cake mixture into an aluminum dish, and pressing to obtain the oil-control moisture-keeping cosmetic powder cake with the fat absorption performance; wherein the fineness of the ground powder cake mixture is 4500 meshes.

Comparative example 2

A preparation method of an oil-control and moisture-retention make-up powder cake with a fat absorption performance comprises the following steps:

(1) Preparing fat sucking oil controlling powder: mixing synthetic fluorophlogopite, hydroxyapatite, zinc oxide and Lac Regis Apis extract at a mass ratio of 7:2:1:2, mixing to obtain the oil-sucking and oil-controlling powder;

(2) Preparing a powder cake: the preparation method comprises the steps of mixing the fat-absorbing oil-controlling powder, the polymethylsilsesquioxane, the bis-PEG/PPG-14/14 polydimethylsiloxane, the vinyl polydimethylsiloxane/polymethylsiloxane silsesquioxane cross-linked polymer, the aloe extract, the chamomile extract and the methylparaben in a mass ratio of 40:4:3:6.5:0.5:6:6: mixing at 50deg.C for 0.5 hr to obtain powder cake mixture; grinding the powder cake mixture, filling the ground powder cake mixture into an aluminum dish, and pressing to obtain the oil-control moisture-keeping cosmetic powder cake with the fat absorption performance; wherein the fineness of the ground powder cake mixture is 4500 meshes.

In all the above examples and comparative examples, synthetic fluorophlogopite was obtained from the mineral processing plant, model number of the lingshou county Wen Zhong: 0125 mesh number is 20 mesh; hydroxyapatite is from the western amp green peptide biotechnology limited company, cat No.: LT-286, particle size of 60nm; zinc oxide is nano-grade antibacterial environment-friendly zinc oxide, and is from Nanjing Baoket New Material Co., ltd., model: PZT-30 with particle size of 30nm; the Lac Regis Apis extract is from Siam Tochu Biotechnology Co., ltd., product number: DC20121806; joba oil is from the company, eubendi biotechnology, guangzhou, brand: us yashilan, model: jojoba OIL LUBRAJEL; trimethylolpropane triacrylate is from Shanghai national chemical industry, inc., cat No.: 16522; sodium hyaluronate was obtained from the Qingdao Hovesen Biotechnology Co., ltd., product number: 201441553 the molecular weight is 120 ten thousand; ceramide is from western An Yahua biotechnology limited, model: YHSJXA; the fibroin is fibroin powder, and is obtained from Shaanxi Lulai biotechnology Co., ltd, and the product number is LL06548; polymethylsilsesquioxane is from the pharmaceutical chemical company of Wuhan-laana, with CAS number 68554-70-1; bis-PEG/PPG-14/14 polydimethylsiloxane from New daily chemical trade development (hong Kong) Inc.; polydimethylsiloxane was obtained from the company Wenyuji chemical Co., ltd., under the trade name KF-96A-6Cs; vinyl polydimethylsiloxane/polymethylsiloxane silsesquioxane cross-linked polymer available from the company of the chemical industry, wenyujin, japan under the trade name KSP-101; the aloe extract is in the form of powder, and is available from western safety Obiosciences, inc.; the chamomile extract is chamomile extract from Anhui Bensen Tang Biotechnology Co., ltd; the methylparaben is from Lanyan chemical industry Co., ltd. In Hubei, and has CAS number of 99-76-3.

The above comparative examples 1, 2 were modified on the basis of example 4, comparative example 1 did not prepare and use the fat-absorbing oil-controlling powder, and comparative example 2 did not prepare and use the humectant.

Test examples

The oil-control and moisture-retention cosmetic powder cakes with the oil-absorption performance prepared in examples 1 to 5 and comparative examples 1 to 2 were subjected to tests of the oil-absorption and moisture-retention performance (the tests of the cosmetic-retention performance were not performed because the oil-absorption and moisture-retention performance influences and determines the quality of the cosmetic-retention performance):

1. testing of fat absorption and oil control performance: the subjects with healthy skin, no history of skin disease and allergy were selected in 70 subjects, and randomized into 7 groups of 10 subjects each. The tested area is at the forehead. Example 1 group: after the tested area is cleaned and wiped by clean water, the powder cake prepared in the example 1 is pressed according to the proportion of 1.8mg/cm ² Applied to the test area, example 2 group: after the test area was cleaned with clear water, the test area was wiped dry, and the test area was cleaned with clear waterPressed powder 1.8mg/cm ² Applying the composition to a tested area; example 3 group: after the test area was washed and wiped with clean water, the cake prepared in example 3 was washed and wiped with 1.8mg/cm ² Applying the composition to a tested area; example 4 group: after the test area was washed and wiped with clean water, the cake prepared in example 4 was washed and wiped with 1.8mg/cm ² Applying the composition to a tested area; example 5 group: after the test area was washed and wiped with clean water, the cake prepared in example 5 was washed and wiped with 1.8mg/cm ² Applying the composition to a tested area; comparative example 1 group: cleaning and wiping the tested area with clear water, and then mixing the powder cake prepared in comparative example 1 according to the ratio of 1.8mg/cm ² Applying the composition to a tested area; comparative example 2 group: after the tested area is cleaned and wiped by clear water, the powder cake prepared in the comparative example 2 is pressed according to the proportion of 1.8mg/cm ² Applying the composition to a tested area; skin oil content in the tested areas 0h and 8h are respectively tested by adopting an MPA580 skin oil content tester, and the average skin oil content in 0h and 8h of 10 subjects in each group is calculated;

2. moisture retention test: the subjects with healthy skin, no history of skin disease and allergy were selected in 70 subjects, and randomized into 7 groups of 10 subjects each. The tested area is cheeks, the tested area is firstly cleaned and dried by clean water, then is statically seated for 30min under the constant wet temperature (25 ℃ and RH 43%), then each group of subjects selects the tested area to be 3cm multiplied by 3cm, and each group is respectively smeared with 30mg of the powder cakes prepared in examples 1, 2, 3, 4 and 5 and comparative examples 1 and 2; the moisture content of the tested area is tested by a Corneometer CM825 instrument, experimental data are repeated 8 times respectively, an average value of each test is obtained, data are recorded, and the average skin hydration rate of 10 subjects in each group at different time interval points of 0h, 0.25h, 8h and 12h is calculated, wherein the hydration rate is = ((test value-blank value)/blank value) multiplied by 100%; the test results are shown in table 1:

TABLE 1

As shown by the test results in Table 1, the powder cake prepared by the invention has good fat absorption, oil control and moisture retention properties and good make-up holding effect. Compared with example 4, the powder cake prepared in comparative example 1 does not use the fat-absorbing and oil-controlling powder, so that the surface fat content of the skin in the tested area is high, and the fat-absorbing and oil-controlling effect is obviously reduced; compared with example 4, the pressed powder obtained in comparative example 2 does not use any humectant, so that the average skin hydration rate of the skin in the tested area is low, and the moisturizing effect is greatly reduced.

Example 6

This example provides a compact filling apparatus that satisfies the filling process of preparing oil-controlling, moisture-retaining make-up compacts having a fat-absorbing property in examples 1 to 5 and comparative examples 1 to 2.

Referring to fig. 2 and 4-6, a powder cake filling device comprises a filling machine body 1 and a transmission device 8, wherein the filling machine body 1 comprises a filling opening 9, the transmission device 8 can enable an aluminum disc to move forward below the filling machine body 1 on the transmission device 8, an aluminum disc positioning assembly 2 is mounted on the filling machine body 1, and the aluminum disc positioning assembly 2 can enable the aluminum disc below the filling machine body 1 to move to a position corresponding to the filling opening 9; the aluminum disc positioning assembly 2 is positioned above the transmission device 8, the aluminum disc positioning assembly 2 comprises two transverse moving plates 21, two longitudinal moving plates 22 and a sinking groove 23, the two transverse moving plates 21 can move in opposite directions along the sinking groove 23, and the two transverse moving plates 21 can move downwards in the moving process along the sinking groove 23; the two longitudinal moving plates 22 are respectively matched with the two transverse moving plates 21 in a sliding way, and the two longitudinal moving plates 22 can move in opposite directions; the two transverse moving plates 21 and the two longitudinal moving plates 22 can push the corresponding aluminum discs on the conveying device 8 to move to the position right below the filling opening 9.

The transmission device 8 transmits the aluminum dish forward, when the aluminum dish is transmitted to the position of the filling machine body 1, the transmission device 8 stops, because the control capability of the stopping position of the aluminum dish is poor when the existing transmission device 8 stops, the aluminum dish cannot be accurately stopped below the position corresponding to the filling opening 9, at this time, the two transverse moving plates 21 move in opposite directions, the two transverse moving plates 21 move along the sinking groove 23, under the limit of the sinking groove 23, the transverse moving plates 21 and the longitudinal moving plates 22 move downwards to be consistent with the horizontal position of the aluminum dish, the two transverse moving plates 21 drive the aluminum dish to move after being propped against the aluminum dish in the moving process, meanwhile, the two longitudinal moving plates 22 drive the aluminum dish to move on the transverse moving plates 21 in opposite directions, namely, the two transverse moving plates 22 move in the same direction as the transmission direction of the transmission device 8, namely, the two transverse moving plates 22 move vertically to the transmission direction of the transmission device 8, so that the aluminum dish is pushed to be arranged right below the filling opening 9, the filling machine body 1 is propped against the aluminum dish to move to the horizontal position of the aluminum dish through the sinking groove 9, and the two transverse moving plates 21 move upwards, and the transverse moving plates 21 move upwards after being propped against the aluminum dish in the moving process, the filling machine body 1 and the transverse moving plates 21 move along the transverse moving plates 21 and the transverse moving plates are not matched with the transverse moving plates, and the transverse moving plates 21 move along the transmission device, and the transverse moving plates 21 move along the transverse moving plates and the transverse moving plates 21 after being matched with the transverse moving plates and the transverse moving plates are ground, and the transverse moving plates are moved along the conveying direction and the conveying plates and the conveying direction and the conveying plates are vertical to move along.

The two transversely moving plates 21 transversely move oppositely and the two longitudinally moving plates 22 longitudinally move oppositely, the transversely moving plates 21 are limited by the sinking grooves 23 in the moving process, the transversely moving plates 21 and the longitudinally moving plates 22 synchronously move downwards, the transversely moving plates 21 and the longitudinally moving plates 22 descend to the height corresponding to the aluminum dish, the two transversely moving plates 21 oppositely move to push the aluminum dish to transversely move, the two longitudinally moving plates 22 move to push the aluminum dish to longitudinally move until the aluminum dish is pushed to the position right below the filling opening 9, the aluminum dish transmitted by the common transmission device can be accurately positioned to the position right below the filling opening 9, so that the ground powder cake mixture is filled into the aluminum dish through the filling opening 9, the requirement of the filling machine body 1 on the transmission device 8 is low, the width of the transmission device 8 is not matched with the width of the aluminum dish, a special transmission motor and a transmission stopping device are not required to ensure the stopping position of the aluminum dish, the cost is saved, the common transmission device 8 can be used, and the filling machine 1 has stronger adaptability.

Further, referring to fig. 2, 4 and 8, the aluminum dish positioning assembly 2 further includes two sliding frames 24, wherein when the two lateral moving plates 21 move towards each other, the sliding frames 24 can move on the corresponding longitudinal moving plates 22, and when the two longitudinal moving plates 22 move towards each other, the sliding frames 24 can move on the corresponding lateral moving plates 21; the two transverse moving plates 21 are provided with sliding holes, the two sliding frames 24 are respectively in sliding fit in the corresponding sliding holes, and the two longitudinal moving plates 22 are respectively in sliding fit in the corresponding sliding frames 24.

The sliding hole is formed in the transverse moving plate 21, the sliding frame 24 can slide in the sliding hole, the longitudinal moving plate 22 can slide in the sliding frame 24, the two transverse moving plates 21 and the two longitudinal moving plates 22 are alternately connected to form a rectangular area, the two transverse moving plates 21 and the two longitudinal moving plates 22 are not interfered when moving, the rectangular area is gradually reduced along with the movement, and finally the aluminum dish is pushed and positioned to be right below the filling opening 9.

Further, referring to fig. 2, 4 and 8, a blocking component 3 is disposed in each of the two sliding holes, the blocking component 3 can shield the sliding hole, two ends of the blocking component 3 are respectively connected to the corresponding sliding frames 24, and when the two sliding frames 24 move in opposite directions, the blocking component 3 can be driven by the sliding frames 24 to shrink; when the two sliding frames 24 move away from each other, the blocking component 3 can be driven by the sliding frames 24 to extend; the blocking assembly 3 comprises a plurality of groups of hinge mechanisms and a plurality of moving blocks 31, wherein the plurality of moving blocks 31 are respectively hinged between two adjacent hinge mechanisms, and the hinge mechanisms positioned near the two sliding frames 24 are respectively hinged on the corresponding sliding frames 24.

Through setting up a plurality of hinge mechanism between two slip frames 24, a plurality of hinge mechanism articulates each other, makes hinge mechanism can stretch out and draw back along with the removal of slip frame 24 to block the slide hole of seting up on lateral shifting board 21 through hinge mechanism, prevent when promoting the aluminium dish removal through lateral shifting board 21, the aluminium dish breaks away from the slide hole, can use the aluminium dish of not co-altitude, has further improved the suitability.

Further, referring to fig. 2, 4 and 11, the hinge mechanism includes two hinge plates 32, the two hinge plates 32 are hinged to each other, both ends of the two hinge plates 32 are hinged to corresponding moving blocks 31, and one end of the hinge plate 32 near the slide frame 24 is hinged to the corresponding slide frame 24.

The two hinge plates 32 are hinged to each other at the middle point, the two hinge plates 32 are arranged in an X-shaped mode, the hinge plates 32 in the hinge mechanism are parallel to the hinge plates 32 in the same position in other hinge mechanisms, therefore, a plurality of hinge plates 32 form a multi-group parallelogram structure, the connection positions are hinged, and the structure formed by the hinge plates 32 can be expanded.

Further, referring to fig. 2, 4, 8 and 11, the filling machine body 1 is further provided with a driving assembly 4, and the driving assembly 4 can drive the two transverse moving plates 21 to move in opposite directions and drive the two longitudinal moving plates 22 to move in opposite directions; the driving assembly 4 comprises a driving device 41, a driving threaded rod 42, a transverse driving block 43, a symmetrical threaded rod 44 and two longitudinal driving blocks 45, wherein the driving device 41 can drive the driving threaded rod 42 and the symmetrical threaded rod 44 to rotate, the driving threaded rod 42 passes through the transverse driving block 43 and is in threaded connection with the transverse driving block 43, the transverse driving block 43 is connected with one transverse moving plate 21 through a transverse sliding rod 10, when the transverse driving block 43 moves, the transverse sliding rod 10 drives one transverse moving plate 21 to move, and when the transverse moving plate 21 moves along with the transverse sliding rod 10, the limiting of the sinking groove 23 can move downwards on the transverse sliding rod 10; the two longitudinal driving blocks 45 are both in sliding connection with the corresponding longitudinal moving plates 22 through the longitudinal sliding blocks 11, the symmetrical threaded rods 44 can drive the two longitudinal driving blocks 45 to move in opposite directions, the longitudinal driving blocks 45 can drive the longitudinal moving plates 22 to move through the longitudinal sliding blocks 11, and the longitudinal moving plates 22 can move downwards on the longitudinal sliding blocks 11 in the moving process.

The driving device 41 drives the driving threaded rod 42 and the symmetrical threaded rod 44 to rotate, the transverse driving block 43 is sleeved on the driving threaded rod 42 and is in threaded connection with the driving threaded rod 42, when the driving threaded rod 42 rotates, the transverse driving block 43 moves on the driving threaded rod 42, the transverse driving block 43 drives one of the transverse moving plates 21 to move through the transverse sliding rod 10, the two longitudinal driving blocks 45 are sleeved on the symmetrical threaded rod 44 and are in threaded connection with the symmetrical threaded rod 44, and when the symmetrical threaded rod 44 rotates, the two longitudinal driving blocks 45 can move on the symmetrical threaded rod 44 in opposite directions, and the two longitudinal driving blocks 45 drive the corresponding longitudinal moving plates 22 to move through the longitudinal sliding blocks 11.

The transverse sliding rod 10 is fixedly arranged on the transverse moving plate 21, the transverse sliding rod 10 penetrates through the transverse driving block 43 and is in sliding fit with the transverse driving block 43, the transverse driving block 43 can drive the transverse sliding rod 10 to move transversely, the transverse sliding rod 10 can move vertically on the transverse driving block 43, the longitudinal sliding block 11 is fixedly arranged on the longitudinal driving block 45, the longitudinal sliding block 11 penetrates through the longitudinal moving plate 22 and is in sliding fit with the longitudinal moving plate 22, the longitudinal driving block 45 can drive the longitudinal sliding block 11 to move longitudinally, and the longitudinal moving plate 22 can move vertically on the longitudinal sliding block 11.

The driving device 41 is connected to one end of the symmetrical threaded rod 44 through a transmission belt, a first bevel gear is fixedly connected to the symmetrical threaded rod 44, a second bevel gear is fixedly installed at one end, close to the symmetrical threaded rod 44, of the driving threaded rod 42, the first bevel gear is meshed with the second bevel gear, the driving device 41 drives the symmetrical threaded rod 44 to rotate, the symmetrical threaded rod 44 drives the first bevel gear to rotate, the first bevel gear drives the second bevel gear to rotate, the second bevel gear drives the driving threaded rod 42 to rotate, and the moving distance of the transverse moving plate 21 and the longitudinal moving plate 22 can be adjusted by adjusting the number of teeth of the first bevel gear and the second bevel gear.

The driving device 41 is a motor in the prior art, the driving device 41 is fixedly installed on the sinking plate 25, a first belt pulley is fixedly installed at the output end of the driving device 41, a second belt pulley is fixedly installed at one end of the symmetrical threaded rod 44, a belt is connected between the first belt pulley and the second belt pulley, the driving device 41 drives the first belt pulley to rotate, the first belt pulley drives the belt to rotate, the belt drives the second belt pulley to rotate, and the second belt pulley drives the symmetrical threaded rod 44 to rotate.

The end of the longitudinal moving plate 22 far away from the longitudinal driving block 45 is slidably matched with a longitudinal auxiliary sliding block, and the two transverse moving plates 21 are fixedly connected with auxiliary sliding rods corresponding to the positions of the longitudinal auxiliary sliding blocks, and the auxiliary sliding rods penetrate through the auxiliary sliding blocks and are slidably matched with the auxiliary sliding blocks.

Further, referring to fig. 2, 4 and 10, when one of the lateral moving plates 21 moves, the other lateral moving plate 21 can be driven to move by the linkage assembly 5; the linkage assembly 5 comprises a gear 51 and two racks 52, one ends of the two racks 52 are respectively fixedly arranged on the corresponding transverse moving plates 21, and the two racks 52 are meshed with the gear 51.

When one of the lateral moving plates 21 drives the corresponding rack 52 to move, the rack 52 drives the gear 51 to rotate, the gear 51 rotates to drive the other rack 52 to move, and the moving directions of the two racks 52 are opposite, and the other rack 52 drives the corresponding lateral moving plate 21 to move.

The linkage assembly 5 is provided with two sets and is located on both sides of the lateral movement plate 21.

Further, referring to fig. 2, 4, 10 and 13, the aluminum disc positioning assembly 2 further includes two sinking plates 25, the sinking plates 25 are disposed at two sides of the transmission device 8, the sinking grooves 23 are formed at one side of the sinking plates 25 close to the transmission device 8, one side of the two transversely moving plates 21 close to the sinking plates 25 is fixedly connected with a rotating rod 12, the rotating rods 12 are respectively and rotatably connected with a rotating wheel 13, and the rotating wheels 13 are in rolling fit in the corresponding sinking grooves 23; the sinking groove 23 comprises a high-level horizontal groove 231, a connecting inclined groove 232 and a low-level horizontal groove 233, wherein the two ends of the connecting inclined groove 232 are respectively connected with the high-level horizontal groove 231 and the low-level horizontal groove 233, the connecting inclined groove 232 is arranged in an inclined manner, and the height of the high-level horizontal groove 231 on the sinking plate 25 is larger than that of the low-level horizontal groove 233 on the sinking plate 25.

At the initial time, the rotating wheel 13 is arranged in the high-level horizontal groove 231, the transverse moving plate 21 and the longitudinal moving plate 22 are positioned above the conveying device 8 and are at a certain distance from the conveying device 8, so that the conveying device 8 can drive the aluminum disc to move, the aluminum disc is not blocked by the transverse moving plate 21 and the longitudinal moving plate 22, after the conveying device 8 moves the aluminum disc to the position of the filling machine body 1, the conveying device 8 stops moving, the transverse moving plate 21 and the longitudinal moving plate 22 move inwards, the transverse moving plate 21 moves in the sinking groove 23 through the rotating rod 12 and the rotating wheel 13, when the rotating wheel 13 moves into the connecting inclined groove 232, the transverse moving plate 21 and the longitudinal moving plate 22 start to move downwards, and until the transverse moving plate 21 and the longitudinal moving plate 22 descend to be capable of blocking the height of the aluminum disc when the rotating wheel 13 moves into the low-level horizontal groove 233, and the transverse moving plate 21 moves in the low-level horizontal groove 233 to push the aluminum disc to move.

Further, referring to fig. 2, 4, 6 and 10, the two sinking plates 25 are respectively provided with a stabilizing component 6, the stabilizing component 6 comprises a supporting block 61, a sliding plate 62 and two limiting strips 63, one end of the supporting block 61 is fixedly installed at the top of the sinking plate 25, the sliding plate 62 is sleeved on the supporting block 61 and is in sliding fit with the supporting block 61, the two limiting strips 63 are fixedly installed at the bottom of the sliding plate 62, limiting grooves are formed in opposite sides of the two limiting strips 63, the two racks 52 are respectively in sliding fit in the corresponding limiting grooves, and the gear 51 is rotationally connected at the bottom of the sliding plate 62.

The sliding plate 62 can vertically slide on the supporting block 61, so that the rack 52 and the gear 51 cannot be influenced to move downwards along with the transverse moving plate 21, the limiting bar 63 can provide support for the end part of the rack 52, the stability of the rack 52 is improved, the rack 52 is limited, and the rack 52 cannot be disengaged from the gear 51.

Further, referring to fig. 2, 4, 9 and 10, the conveying device 8 includes a conveying belt, a supporting table 14 is fixedly connected between two sinking plates 25, the supporting table 14 abuts against the inner top surface of the conveying belt, two supporting rollers 15 are further rotatably connected between the sinking plates 25, and the two supporting rollers 15 are located on two sides of the supporting table 14.

The supporting table 14 can provide the support to the conveyer belt, makes the filling mouth 9 to the in-process of aluminium dish filling, and the conveyer belt can not sagged, has improved filling stability, and the height of backing roll 15 is unanimous with the height of supporting table 14, reduces the frictional force between supporting table 14 and the conveyer belt through backing roll 15.

Further, referring to fig. 2, 4, 11 and 12, the sliding hole is provided with a fixing groove 16, the sliding frame 24 is fixedly provided with a fixing block 17 corresponding to the fixing groove 16, the fixing block 17 is slidably fitted in the fixing groove 16, and the moving block 31 is slidably fitted in the fixing groove 16.

The stable groove 16 can enable the sliding frame 24 to move more stably, is not easy to shake, cannot break away from the sliding hole, and enables the blocking assembly 3 to be more stable by limiting the moving block 31, and the moving block 31 can move into the stable groove 16 when the blocking assembly 3 contracts to enable the moving block 31 to move to two sides.

Working principle: when the aluminum disc compartment is transmitted forwards through the transmission device 8 and the aluminum disc is transmitted to the position of the filling machine body 1, the transmission device 8 stops, and as the existing transmission device 8 has poor control capability on the stop position of the aluminum disc when stopping, the aluminum disc cannot be accurately stopped below the position corresponding to the filling opening 9, the driving device 41 drives the symmetrical threaded rod 44 to rotate, the symmetrical threaded rod 44 drives the first bevel gear to rotate, the first bevel gear drives the second bevel gear to rotate, the second bevel gear drives the driving threaded rod 42 to rotate, the transverse driving block 43 moves on the driving threaded rod 42, the transverse driving block 43 drives one of the transverse moving plates 21 to move through the transverse sliding rod 10, the transverse moving plate 21 drives the corresponding rack 52 to move, the rack 52 drives the gear 51 to rotate, the gear 51 drives the other rack 52 to move, and the moving directions of the two racks 52 are opposite, the other rack 52 drives the corresponding transverse moving plate 21 to move, the symmetrical threaded rod 44 rotates, the two longitudinal driving blocks 45 move on the symmetrical threaded rod 44 in opposite directions, the two longitudinal driving blocks 45 drive the corresponding longitudinal moving plate 22 to move through the longitudinal sliding block 11, the transverse moving plate 21 moves in the sinking groove 23 through the rotating rod 12 and the rotating wheel 13, when the rotating wheel 13 moves into the connecting inclined groove 232, the transverse moving plate 21 and the longitudinal moving plate 22 start to move downwards until the rotating wheel 13 moves into the low-level horizontal groove 233, the transverse moving plate 21 and the longitudinal moving plate 22 descend to a height capable of blocking an aluminum disc, the transverse moving plate 21 moves in the low-level horizontal groove 233 to push the aluminum disc to move, the sliding hole formed on the transverse moving plate 21 is blocked through the hinge mechanism, and when the aluminum disc is pushed to move through the transverse moving plate 21 is prevented, the aluminum disc is separated from the sliding hole, aluminum discs with different heights can be used, applicability is further improved, the two transversely moving plates 21 are propped against the aluminum disc in the moving process to drive the aluminum disc to move, meanwhile, the two longitudinally moving plates 22 are oppositely moved on the transversely moving plates 21, the longitudinally moving plates 22 are propped against the aluminum disc in the moving process to drive the aluminum disc to move, the two transversely moving plates 21 are transversely moved, namely, are consistent with the transmission direction of the transmission device 8, the two longitudinally moving plates 22 are longitudinally moved, namely, are perpendicular to the transmission direction of the transmission device 8, so that the aluminum disc is pushed to move to the position right below the filling opening 9, the filling machine body 1 fills the ground powder cake mixture into the aluminum disc through the filling opening 9, after filling is finished, the transversely moving plates 21 and the longitudinally moving plates 22 are reversely moved to reset, and meanwhile, the transversely moving plates 21 are moved along the sinking groove 23, the transverse moving plates 21 and the longitudinal moving plates 22 move upwards, so that a certain distance is kept between the transverse moving plates 21 and the longitudinal moving plates 22 and the conveying device 8, the aluminum dish can not be blocked from being conveyed on the conveying device 8, the aluminum dish conveyed on the common conveying device can be accurately positioned under the filling opening 9 by the transverse moving plates 21 and the longitudinal moving plates 22 moving downwards synchronously by the transverse moving plates 21 and the longitudinal moving plates 22 limited by the sinking grooves 23 in the moving process, the two transverse moving plates 21 and the longitudinal moving plates 22 move oppositely to push the aluminum dish to move transversely, the two longitudinal moving plates 22 move to push the aluminum dish to move longitudinally until the aluminum dish is pushed to be under the filling opening 9, therefore, the ground powder cake mixture is filled into the aluminum dish through the filling opening 9, so that the requirement of the filling machine body 1 on the conveying device 8 is low, the width of the conveying device 8 is not required to be matched with that of the aluminum dish, a special conveying motor and a special conveying stopping device are not required to be arranged to ensure the stopping position of the aluminum dish, the cost is saved, the common conveying device 8 can be used, and the adaptability of the filling machine body 1 is stronger.

Although 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 therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. The preparation method of the oil-control moisturizing cosmetic foundation with the fat absorption performance is characterized by comprising the following steps of:

step (1) preparing fat-absorbing oil-controlling powder and humectant;

wherein, the preparation of the fat sucking oil control powder comprises the following steps:

mixing the synthetic fluorophlogopite, hydroxyapatite, zinc oxide and Lac Regis Apis extract to obtain oil-controlling powder;

wherein, the preparation of the humectant comprises the following steps:

mixing oleum Trigonellae, trimethylolpropane triacrylate, sodium hyaluronate, ceramide, fibroin, and propylene glycol to obtain humectant;

step (2) preparing a powder cake;

mixing the fat-absorbing oil-controlling powder, the humectant, the film forming agent, the emulsifying agent, the softening agent, the filling agent, the aloe extract, the chamomile extract and the preservative to obtain a powder cake mixture; grinding the powder cake mixture, filling the ground powder cake mixture into an aluminum dish by using a powder cake filling device, and then pressing to obtain the oil-control moisture-keeping make-up powder cake with the fat absorption performance;

In the step (1), the mass ratio of the synthetic fluorophlogopite, the hydroxyapatite, the zinc oxide and the royal jelly extract is 7:2:1:2; in the step (1), the mass ratio of the oleum Juniperi, trimethylolpropane triacrylate, sodium hyaluronate, ceramide, fibroin and propylene glycol is 1:0.75:0.5:0.5:0.5:3.25;

in the step (2), the mass ratio of the oil-sucking and oil-controlling powder, the humectant, the film forming agent, the emulsifying agent, the softening agent, the filling agent, the aloe extract, the chamomile extract and the preservative is (25-45): 5-15): 4:3 (5-7.5): 0.5:6:6:0.2;

wherein the film forming agent comprises polymethyl silsesquioxane, the emulsifying agent comprises bis-PEG/PPG-14/14 polydimethylsiloxane, the softening agent comprises polydimethylsiloxane, the filler comprises vinyl polydimethylsiloxane/polymethyl siloxane silsesquioxane cross-linked polymer, and the preservative comprises methylparaben;

the powder cake filling device used in the step (2) comprises a filling machine body and a transmission device, wherein the filling machine body comprises a filling port; the conveying device can enable the aluminum dish to move forwards below the filling machine body; the aluminum dish positioning assembly is arranged on the filling machine body, the aluminum dish positioning assembly can enable an aluminum dish below the filling machine body to move to a position corresponding to the filling opening, the aluminum dish positioning assembly is positioned above the transmission device, the aluminum dish positioning assembly comprises two transverse moving plates, two longitudinal moving plates and a sinking groove, the two transverse moving plates can move along the sinking groove in opposite directions, and the two transverse moving plates can move downwards in the moving process of the sinking groove; the two longitudinal moving plates are respectively matched with the two transverse moving plates in a sliding way, and the two longitudinal moving plates can move in opposite directions; the two transverse moving plates and the two longitudinal moving plates can move to push the corresponding aluminum discs on the conveying device to move to the position right below the filling opening;

The aluminum disc positioning assembly further comprises two sliding frames, the sliding frames can move on the corresponding longitudinal moving plates when the two transverse moving plates move in opposite directions, and the sliding frames can move on the corresponding transverse moving plates when the two longitudinal moving plates move in opposite directions; the two transverse moving plates are respectively provided with a sliding hole, the two sliding frames are respectively in sliding fit in the corresponding sliding holes, and the two longitudinal moving plates are respectively in sliding fit in the corresponding sliding frames; a stabilizing groove is formed in the sliding hole, a stabilizing block is fixedly arranged at the position of the sliding frame corresponding to the stabilizing groove, and the stabilizing block is in sliding fit in the stabilizing groove; the two sliding holes are internally provided with blocking components, the blocking components can shade the sliding holes, two ends of the blocking components are respectively connected to corresponding sliding frames, and when the two sliding frames move oppositely, the blocking components can be driven by the sliding frames to shrink; when the two sliding frames move oppositely, the blocking component can be driven by the sliding frames to stretch; the blocking assembly comprises a plurality of groups of hinging mechanisms and a plurality of moving blocks, the moving blocks are respectively hinged between two adjacent hinging mechanisms, the moving blocks are in sliding fit in the stabilizing grooves, and the hinging mechanisms close to the two sliding frames are respectively hinged on the corresponding sliding frames; the hinge mechanism comprises two hinge plates, the two hinge plates are hinged with each other, two ends of the two hinge plates are respectively hinged on the corresponding moving blocks, and one end of the hinge plate close to the sliding frame is hinged on the corresponding sliding frame;

The aluminum disc positioning assembly further comprises two sinking plates, the sinking plates are arranged on two sides of the transmission device, the sinking grooves are formed in one side, close to the transmission device, of each sinking plate, a rotating rod is fixedly connected to one side, close to the sinking plate, of each transverse moving plate, rotating wheels are rotatably connected to the rotating rods, and the rotating wheels are in rolling fit in the corresponding sinking grooves; the sinking groove comprises a high-level horizontal groove, a connecting inclined groove and a low-level horizontal groove, wherein two ends of the connecting inclined groove are respectively connected with the high-level horizontal groove and the low-level horizontal groove, the connecting inclined groove is obliquely arranged, and the height of the high-level horizontal groove on the sinking plate is larger than that of the low-level horizontal groove on the sinking plate; two all be provided with firm subassembly on the board that sinks, firm subassembly includes supporting shoe, sliding plate and two spacing, the one end fixed mounting of supporting shoe is in the top of board that sinks, the sliding plate cover is established on the supporting shoe and with supporting shoe sliding fit, two spacing equal fixed mounting of strip is in the bottom of sliding plate, two spacing opposite one side has seted up spacing groove.

2. The method for preparing an oil-control and moisture-retention cosmetic compact with a fat-absorbing property according to claim 1, wherein in the step (2), the fineness of the ground compact mixture is 3000-5000 mesh.

3. The preparation method of the oil-control moisturizing and makeup-keeping powder cake with the fat absorption performance according to claim 1, wherein a driving assembly is further arranged on the filling machine body and can drive the two transverse moving plates to move oppositely and drive the two longitudinal moving plates to move oppositely; the driving assembly comprises driving equipment, a driving threaded rod, a transverse driving block, a symmetrical threaded rod and two longitudinal driving blocks, wherein the driving equipment can drive the driving threaded rod and the symmetrical threaded rod to rotate, the driving threaded rod penetrates through the transverse driving block and is in threaded connection with the transverse driving block, the transverse driving block is connected with one transverse moving plate through a transverse sliding rod, when the transverse driving block moves, the transverse sliding rod drives one transverse moving plate to move, and when the transverse moving plate follows the transverse sliding rod to move, the transverse moving plate can move downwards on the transverse sliding rod under the limit of the sinking groove; the two longitudinal driving blocks are in sliding connection with the corresponding longitudinal moving plates through longitudinal sliding blocks, the symmetrical threaded rods can drive the two longitudinal driving blocks to move in opposite directions, the longitudinal driving blocks can drive the longitudinal moving plates to move through the longitudinal sliding blocks, and the longitudinal moving plates can move downwards on the longitudinal sliding blocks in the moving process; when one of the transverse moving plates moves, the other transverse moving plate can be driven to move through the linkage assembly; the linkage assembly comprises a gear and two racks, one ends of the two racks are respectively and fixedly installed on the corresponding transverse moving plates, the two racks are meshed with the gear, the two racks are respectively and slidably matched in the corresponding limiting grooves, and the gear is rotationally connected to the bottom of the sliding plate.

4. The method for preparing the oil-control moisturizing and makeup-holding powder cake with the fat absorption performance according to claim 3, wherein the conveying device comprises a conveying belt, a supporting table is fixedly connected between two sinking plates, the supporting table is propped against the inner top surface of the conveying belt, two supporting rollers are rotatably connected between the sinking plates, and the two supporting rollers are arranged on two sides of the supporting table.

5. An oil-controlling and moisturizing cosmetic compact with fat-absorbing properties, which is prepared by the preparation method of the oil-controlling and moisturizing cosmetic compact with fat-absorbing properties according to any one of claims 1 to 4.

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