CN218877656U - Annotate material equipment and super three-dimensional cosmetics production facility - Google Patents

Abstract

The utility model provides a material injection device and a super three-dimensional cosmetic production device, relating to the technical field of super three-dimensional cosmetic manufacturing; the injection equipment comprises an injection device, a vacuumizing device and an injection nozzle, the super-three-dimensional cosmetic production equipment comprises injection equipment and a mold, the injection nozzle is connected with the mold, a negative pressure environment in the mold is created in advance by the vacuumizing device, the injection device sucks rheological material bodies into a cavity in the mold through an injection port by using negative air pressure, and after molding, demolding and drying treatment, the powder surface structure with the multi-dimensional structure, the super-good tinting strength, the silky skin sensitivity and the fine and clear powder surface structure shape can be obtained. With pressing the powder process, pouring the powder backward, roast powder technology etc. is different completely, the utility model discloses the product fillability that obtains is better, even more tiny mould position also can pour into the material body into, has solved current filling abnormal shape mould, and the rheological property material body can't reach less tiny cavity position, molding disappearance, gas pocket scheduling problem that lead to.

Description

Annotate material equipment and super three-dimensional cosmetics production facility

Technical Field

The utility model relates to a super three-dimensional cosmetics make technical field, especially relate to an annotate material equipment and super three-dimensional cosmetics production facility.

Background

The makeup powder is one kind of face makeup cosmetics, and has certain functions of concealing skin and regulating skin color, and may be used as foundation to make up conveniently. Has strong adsorption capacity, is not easy to remove makeup, has the effects of absorbing fat and preventing sunburn, and can bring bright, smooth, perfect, refreshing and non-sticky healthy skin color to consumers. However, with the demand of consumers for differentiation and individuation, the makeup powder with a relatively flat shape is more difficult to attract and meet the diversified demand of consumers.

The existing color powder on the market can be divided into powder pressing, powder pouring and powder baking according to the manufacturing process. The processes of pressing powder, pouring powder and baking powder are relatively more, and the die opening processing period is longer. Pressing powder or pouring powder is pressed and formed by opening a common aluminum utensil, opening a pressing mould, a male mould, a female mould, a demoulding auxiliary fixture and the like; baking powder requires a magnetic disc, glue, a molding die, powder weighing, elastic oil absorption cloth (or special sterile elastic oil absorption paper), pressing and forming, edge redundant material body modification, and baking and curing forming in an oven.

The existing filling special-shaped die in the market has a complex structure, rheological materials cannot reach the position of a small fine cavity, and the problems of missing of shapes, air holes and the like are caused. The super-strong three-dimensional structure, the super-good tinting strength, the perfect fitting degree, the silky skin sensitivity and the fine and clear powder surface shape of the three-dimensional makeup powder can be easily achieved in terms of the tinting strength, the skin sensitivity, the picking amount (powder feeding amount) and the visual appearance, and the requirements of modern consumers on the visual and the visual appearance of the makeup powder shape can be easily met.

SUMMERY OF THE UTILITY MODEL

To the defect among the prior art, the utility model aims at providing a can make out the figurative product of super three-dimensional, multidimension degree structure makeup powder, can satisfy the notes material equipment of consumer to the demand of makeup product sense organ and sense of touch moreover. The utility model discloses an aim at is realized through following technical scheme: the material injection equipment comprises a material injection device, a vacuumizing device and a material injection nozzle, wherein the material injection device and the vacuumizing device are respectively communicated with the material injection nozzle.

Through the technical scheme, the vacuumizing device is convenient for creating a negative pressure environment in advance, the material injection nozzle is connected with the part to be injected, the material injection device sucks the rheological material body into the part to be injected by utilizing negative air pressure, and after freezing forming and manual demoulding, the powder surface structure molding with a multi-dimensional structure, super-good tinting strength, smooth skin sensitivity and fine and clear layers can be obtained through subsequent process drying treatment. The filling performance is better, even the thinner part to be filled can be filled with the material body, and the problems of molding loss, air holes and the like caused by the fact that the rheological material body cannot reach the position of a smaller fine cavity in the existing filling special-shaped die are solved.

Furthermore, the material injection device comprises a material barrel, a material injection channel and a material barrel valve;

the charging bucket is connected with the charging nozzle through the charging channel; the charging basket valve is used for controlling the charging basket and the material injection nozzle to be communicated or close the material injection channel through the material injection channel.

Through above-mentioned technical scheme, the storage bucket is used for holding the rheological property material body, and the storage bucket valve is convenient for annotate in the production process control of difference whether unobstructed of material passageway.

Furthermore, the charging basket valve comprises a first plunger and a first valve channel, the first plunger is in plug fit with the first valve channel, the first valve channel is communicated with the material injection channel, and one end of the first plunger can be in plug fit with the middle of the material injection channel through the first valve channel and enables the charging basket to be not communicated with the material injection nozzle;

a first sealing element is arranged on the outer peripheral side of the first plunger; the charging basket valve further comprises a first resetting piece and a first positioning piece.

Through the technical scheme, when the material injection channel is smooth, the first plunger is located in the first valve channel, when the material injection channel is closed, one end of the first plunger enters the material injection channel through the first valve channel to close the material injection channel, the first sealing element is convenient for increasing the air tightness between the first plunger and the first valve channel, the first positioning element is convenient for determining the position relation between the first plunger and the first valve channel, and the first resetting element is convenient for restoring the first plunger to a state that the first plunger does not enter the material injection channel through the first valve channel.

Further, the vacuum-pumping device comprises a vacuum channel, a vacuum valve and a vacuum machine;

one end of the vacuum channel is connected with the material injection nozzle, and the other end of the vacuum channel is connected with the vacuum machine; the vacuum valve is used for controlling the material injection nozzle to be communicated with the vacuum machine through a vacuum channel or closing the vacuum channel.

Through above-mentioned technical scheme, the vacuum machine is used for the evacuation, and whether vacuum valve is convenient for be unobstructed at the production process control vacuum channel of difference.

Furthermore, the vacuum valve comprises a second plunger and a second valve channel, the second plunger is in inserted fit with the second valve channel, the second valve channel is communicated with the vacuum channel, and one end of the second plunger can be in inserted fit with the middle part of the vacuum channel through the second valve channel to ensure that the vacuum machine is not communicated with the material injection nozzle;

a second sealing element is arranged on the outer peripheral side of the second plunger; the vacuum valve further comprises a second resetting piece and a second positioning piece.

Through the technical scheme, when the vacuum channel is required to be unobstructed, the second plunger is located in the second valve channel, when the vacuum channel is required to be closed, one end of the second plunger enters the material injection channel through the second valve channel to close the vacuum channel, the second sealing element is convenient to increase the air tightness between the second plunger and the second valve channel, the second positioning element is convenient to determine the position relation between the second plunger and the second valve channel, and the second resetting element is convenient to restore the state that the second plunger does not enter the vacuum channel through the second valve channel.

The utility model discloses a purpose secondly provides a super three-dimensional cosmetics production facility, the utility model discloses a purpose secondly realizes through following technical scheme: the super-three-dimensional cosmetic production equipment comprises material injection equipment and a mold, wherein the mold is hollow to form a cavity, a material injection port is arranged on the side surface of the mold and communicated with the cavity, and the material injection port is in inserted fit with the material injection port;

the vacuumizing device enables the cavity in the mold to be in a negative pressure state through the material injection nozzle, and the material injection device is used for storing the material body or injecting the material body into the inner cavity of the mold through the material injection nozzle.

Through the technical scheme, the material injection nozzle is connected with the mold, the vacuumizing device creates a negative pressure environment in the mold in advance, the material injection device sucks the rheological material body into a cavity in the mold through the material injection port by utilizing negative air pressure, and after molding, demolding and drying treatment, the powder surface structure molding with a multi-dimensional structure, super-good tinting strength, silky skin sensitivity and fine and clear layers can be obtained. With pressing the powder process, pouring the powder, roast powder technology etc. is different completely, the utility model discloses the product filling nature that obtains is better, even more tiny mould position also can pour into the material body into, has solved current filling abnormal shape mould, and the rheological property material body can't reach less tiny cavity position, molding disappearance, gas pocket scheduling problem that lead to.

Further, a third sealing element is arranged between the material injection nozzle and the material injection port.

Through above-mentioned technical scheme, the third sealing member is convenient for increase the gas tightness between notes material mouth and the sprue.

Further, the mold comprises a combined mold or an integrated mold; the material of the mould comprises hard material or soft material.

Further, the hard material comprises a metal mold, hard plastic, organic glass and a wood plate mold.

Further, the soft material comprises silica gel and rubber.

Compared with the prior art, the utility model discloses following beneficial effect has:

(1) The utility model discloses an annotate material equipment is through setting up annotating material device, evacuating device, notes material mouth, evacuating device is convenient for build negative pressure environment in advance, annotates the material mouth and is connected with waiting to annotate the material position, annotates the material device and utilizes negative pressure to inhale the rheological material body in waiting to annotate the material position, through shaping, drawing of patterns, drying process, the utility model discloses an equipment fillability is better, even more tiny waiting to annotate the material position also can inject the material body, has solved current filling abnormal shape mould, and the rheological material body can't reach less slight cavity position, the molding that leads to lacks, the gas pocket scheduling problem, can make out the fashioned product of super three-dimensional, multidimension structure color powder, can satisfy the demand of consumer to color cosmetics product sense organ and sense of touch moreover;

(2) The utility model discloses an annotate material device is through setting up storage bucket, notes material passageway, storage bucket valve, evacuating device is through setting up vacuum channel, vacuum valve, vacuum machine, and the storage bucket valve is convenient for control in different production processes annotates the material passageway whether unobstructed, and the vacuum valve is convenient for control in different production processes whether unobstructed is, seals the material passageway of annotating in the evacuation process, seals the vacuum channel after the evacuation finishes, opens the material passageway of annotating and is convenient for accomplish the material operation of annotating;

(3) The utility model discloses a storage bucket valve is through setting up first plunger, first valve passageway, the first piece that resets, first locating part, vacuum valve is through setting up second plunger, second valve passageway, the second piece that resets, the second locating part, first locating part is convenient for confirm the positional relationship between first plunger and the first valve passageway temporarily, the first piece that resets is convenient for first plunger to resume the state that does not get into in the notes material passageway through first valve passageway, the second locating part is convenient for confirm the positional relationship between second plunger and the second valve passageway temporarily, the second piece that resets is convenient for second plunger to resume the state that does not get into in the vacuum passageway through the second valve passageway;

(4) The utility model discloses a super three-dimensional cosmetics production facility is through setting up notes material equipment and mould, the inside cavity vacuole formation of mould, the mould side is provided with and annotates material mouth grafting complex sprue, first plunger periphery side is provided with first sealing member, second plunger periphery side is provided with the second sealing member, be provided with the third sealing member between notes material mouth and the sprue, be convenient for increase between first plunger and the first valve passageway, between second plunger and the second valve passageway, the gas tightness between notes material mouth and the sprue.

Drawings

Fig. 1 is a schematic view of a three-dimensional structure of a material injection device in embodiment 1 of the present invention;

fig. 2 is a schematic view of a three-dimensional structure of the material injection device in another direction according to embodiment 1 of the present invention;

FIG. 3 is a schematic cross-sectional view of the injection apparatus of FIG. 1 in the Y-axis direction in a left-hand coordinate system;

FIG. 4 is a schematic cross-sectional view of the injection apparatus of FIG. 1 taken along the X-axis direction in the left-hand coordinate system;

FIG. 5 is a schematic cross-sectional view of the injection apparatus of FIG. 1 in the Z-axis direction in a left-hand coordinate system;

FIG. 6 is a schematic view of a mold in a super three-dimensional cosmetic production apparatus according to embodiment 2 of the present invention;

fig. 7 is a schematic view of the ultra-three-dimensional color cosmetic powder produced by the ultra-three-dimensional cosmetic production equipment in embodiment 2 of the present invention;

reference numerals: 1. a material injection nozzle; 2. a charging bucket; 3. a material injection channel; 4. a bucket valve; 41. a first plunger; 5. a vacuum channel; 6. a vacuum valve; 61. a second plunger; 7. a vacuum machine connector; 8. a mold; 9. a material injection port; 10. a super-stereo color cosmetic powder.

Detailed Description

The following examples will assist those skilled in the art in further understanding the present invention, but are not intended to limit the invention in any way. In the following description, for the sake of clarity, the structure and operation of the present invention will be described with the aid of directional terms, but the terms "front", "rear", "left", "right", "outer", "inner", "outer", "inward", "upper", "lower", etc. should be understood as words of convenience and not as words of limitation. As used herein, "distal" and "proximal" of "distal", "proximal" and "proximal" are relative to the position of the operator, i.e., "proximal" near the operator and "distal" away from the operator.

It will be apparent to those skilled in the art that various changes and modifications can be made without departing from the spirit and scope of the invention. The endpoints of the ranges and any values disclosed herein are not limited to the precise range or value, and these ranges or values should be understood to encompass values close to these ranges or values. For ranges of values, between the endpoints of each range and the individual values, and between the individual values may be combined with each other to give one or more new ranges of values, which ranges of values are to be considered as specifically disclosed herein, the invention is described in detail below with reference to specific examples:

example 1:

as shown in fig. 1 and fig. 2, the present embodiment relates to a material injection device, which includes a housing formed by two cubes, a material injection device, a vacuum pumping device, and a material injection nozzle 1, wherein the material injection device and the vacuum pumping device are respectively communicated with the material injection nozzle 1. The nozzle 1 is located on the side of one of the cubes remote from the other.

As shown in fig. 3 and 5, the material injection device includes a material barrel 2, a material injection channel 3, and a material barrel valve 4, wherein the material injection channel 3 and the material barrel valve 4 are located inside the housing, the material barrel 2 with an opening on the cylindrical upper surface is located on the upper surface of the housing and is used for containing a rheological material body, and the viscosity range of the rheological material body is 10000CP-5CP. 2 bottoms of storage bucket 2 are connected with notes material mouth 1 through annotating material passageway 3, and in a concrete embodiment, the bottom of storage bucket 2 has the inclination with the time annotate material passageway 3 and 2 be connected the department and lie in 2 horizontal position of storage bucket the lowest department with storage bucket, and storage bucket valve 4 is used for controlling storage bucket 2 and annotates material mouth 1 and is linked together or seal notes material passageway 3 through annotating material passageway 3, and whether the production process control of being convenient for in the difference annotates material passageway 3 unobstructed. The specific charging basket valve 4 can be any one of the structures which can control the opening and closing of the pipeline in the market, such as a piston switch, a ball valve switch and the like.

In a specific embodiment, the barrel valve 4 may be a first cylindrical plunger 41 and a first valve passage with a circular cross section, wherein the first plunger 41 is inserted into the first valve passage, and a first sealing member (not shown) is disposed on an outer circumferential side of the first plunger 41 to increase air tightness between the first plunger 41 and the first valve passage, and the first sealing member may be a rubber gasket, a silicone gasket, a plastic film, or the like.

One end of the first valve channel is communicated with the material injection channel 3, one end of the first plunger 41 can pass through the first valve channel to be in splicing fit with the middle of the material injection channel 3, so that the charging basket 2 is not communicated with the material injection nozzle 1, and when the state that the first plunger 41 does not enter the material injection channel 3 through the first valve channel is recovered, the charging basket 2 is communicated with the material injection nozzle 1 through the material injection channel 3.

The charging basket valve 4 further comprises a first reset piece (not shown in the figure), the first reset piece is convenient for the first plunger 41 to restore the state of entering the material injection channel 3 through the first valve channel, specifically, the first reset piece can be a handle or an annular handle which is positioned at the position where the first plunger 41 is far away from the material injection nozzle 1, the smoothness of the material injection channel 3 is controlled through an artificial mode, and the first positioning piece is not needed.

In addition, the first reset element may also be an elastic element, such as an extension spring or a compression spring, for example, the extension spring is used to fixedly set a protrusion around the first plunger 41, two ends of the extension spring are respectively connected with the protrusion and the inner peripheral side of the housing, at this time, the material barrel valve 4 may further include a first positioning element (not shown in the figure), the first positioning element includes a positioning groove disposed at the lower portion of the first valve channel, a positioning block is disposed around the first plunger 41, one end of the positioning block near the material injection nozzle 1 is hinged to the first plunger 41, when the first plunger 41 moves toward the direction near the material injection nozzle 1, the non-hinged end of the positioning block falls into the positioning groove under the action of gravity through the positioning groove, and the first plunger 41 is prevented from moving toward the direction far away from the material injection nozzle 1. The two sides of the positioning groove in the width direction are obliquely opened, when the first plunger 41 is rotated, the positioning block can be separated from the positioning groove, so that the first plunger 41 moves towards the direction far away from the material injection channel 3 under the action of manpower or a first resetting piece, and the first positioning piece can be matched with a handle or an annular handle.

The control of the material barrel valve 4 on the material injection channel 3 can be realized more conveniently by automatic devices (such as an air cylinder, an oil cylinder, a servo motor and the like) such as air control, electric control and the like. When the material injection channel 3 is required to be unobstructed, the first plunger 41 is located in the first valve channel, and when the material injection channel 3 is required to be closed, one end of the first plunger 41 enters the material injection channel 3 through the first valve channel to close the material injection channel 3.

As shown in fig. 3 and 4, the vacuum pumping device includes a vacuum channel 5, a vacuum valve 6, and a vacuum machine (not shown in the figure), wherein the vacuum channel 5 and the vacuum valve 6 are located inside the housing, one end of the vacuum channel 5 is connected to the material injection nozzle 1, the other end of the vacuum channel forms a vacuum machine connection port 7 which can be connected to the vacuum machine from the upper surface of the housing, and the vacuum valve 6 is used for controlling the material injection nozzle 1 to be communicated with the vacuum machine through the vacuum channel 5 or closing the vacuum channel 5, so as to control whether the vacuum channel 5 is unobstructed in different production processes. The vacuum valve 6 may be any one of the structures that can control the opening and closing of the pipeline, such as a piston switch, a ball valve switch, etc.

In one embodiment, similar to the material barrel valve 4, the vacuum valve 6 includes a second plunger 61, a second valve passage, the second plunger 61 is inserted into the second valve passage, and a second sealing member (not shown) is disposed on the outer peripheral side of the second plunger 61 to increase the air tightness between the second plunger 61 and the second valve passage, and the second sealing member may be a rubber gasket, a silicone gasket, a plastic film, or the like.

One end of the second valve channel is communicated with the vacuum channel 5, one end of the second plunger 61 can pass through the second valve channel to be in splicing fit with the middle of the vacuum channel 5, so that the vacuum machine is not communicated with the material injection nozzle 1, and when the state that the second plunger 61 does not enter the vacuum channel 5 through the second valve channel is recovered, the vacuum machine is communicated with the material injection nozzle 1 through the vacuum channel 5.

The vacuum valve 6 further comprises a second reset member (not shown in the figure), which is convenient for the second plunger 61 to restore the state of not entering the vacuum channel 5 through the second valve channel, specifically, the second reset member may be a handle or an annular handle located at the position of the second plunger 61 far away from the material injection nozzle 1, and the smoothness of the vacuum channel 5 is controlled in a manual manner, and the second reset member is not needed.

In addition, the second reset component may also be an elastic component, such as an extension spring or a compression spring, for example, the extension spring is used as an example, a protrusion is fixedly disposed on the periphery of the second plunger 61, two ends of the extension spring are respectively connected with the protrusion and the inner periphery of the housing, at this time, the vacuum valve 6 may further include a second positioning component (not shown in the figure), the second positioning component includes a positioning groove disposed on the lower portion of the second valve channel, a positioning block is disposed on the periphery of the second plunger 61, one end of the positioning block close to the material injection nozzle 1 is hinged to the second plunger 61, when the second plunger 61 moves towards the direction close to the material injection nozzle 1, the positioning groove passes through the second valve channel, the non-hinged end of the positioning block on the second plunger 61 falls into the positioning groove under the action of gravity, and the movement of the second plunger 61 towards the direction away from the material injection nozzle 1 is avoided.

Similarly, the two sides of the width direction of the positioning groove in the second valve channel can be obliquely opened, when the second plunger 61 is rotated, the positioning block can be separated from the positioning groove, so that the second plunger 61 moves towards the direction far away from the vacuum channel 5 under the action of manpower or a second resetting piece, and the second positioning piece can also be matched with a handle or an annular handle. The control of the vacuum channel 5 by the vacuum valve 6 can be realized more conveniently by automatic devices (such as an air cylinder, an oil cylinder, a servo motor and the like) such as air control, electric control and the like. When the vacuum channel 5 needs to be unobstructed, the second plunger 61 is located in the second valve channel, and when the vacuum channel 5 needs to be closed, one end of the second plunger 61 enters the material injection channel 3 through the second valve channel to close the vacuum channel 5.

When the powder surface structure molding machine is used, the material injection nozzle 1 is connected with a part to be injected, the material injection channel 3 is sealed through the material barrel valve 4 at the moment, the vacuum channel 5 is opened through the vacuum valve 6, a negative pressure environment is created by the vacuumizing device, the negative pressure value of the vacuum machine pre-vacuumizing is preferably less than or equal to 0.6Mpa, the effect on subsequent material injection is better when the negative pressure value is smaller, after vacuumizing is finished, the vacuum channel 5 is sealed through the vacuum valve 6, the material injection channel 3 is opened through the material barrel valve 4, the material injection device sucks rheological property into the part to be injected through negative pressure, and after manual demolding, the powder surface structure molding with a multi-dimensional structure, super-good tinting strength, silky skin sensitivity and fine and clear powder surface structure molding can be obtained through subsequent process drying treatment. The filling property is good, even a relatively thin part to be filled can be filled with the material body, and the problems of shape loss, air holes and the like caused by the fact that the rheological material body cannot reach the position of a relatively small fine cavity in the existing filling special-shaped die 8 are solved.

Example 2:

as shown in fig. 6 and 7, the present embodiment relates to a super-stereoscopic cosmetic production device, which includes a mold 8 in addition to the injection device in any one of the embodiments 1, the mold 8 is hollow to form a cavity, the front surface of the mold 8 may be provided with a complex spatial structure or pattern, the side surface thereof is provided with an injection port 9 and is communicated with the cavity, and the injection nozzle 1 may be inserted and matched with the injection port 9.

A third sealing member (not shown in the figure) is arranged between the material injection nozzle 1 and the material injection port 9 so as to increase the air tightness between the material injection nozzle 1 and the material injection port 9, and the third sealing member can be a rubber gasket, a silica gel gasket, a plastic packaging film and the like.

The mold 8 comprises a combined mold 8 or an integrated mold 8, and the material of the mold 8 comprises a hard material or a soft material. Wherein, hard material includes metal mold 8, rigid plastic, organic glass, plank mould 8, and soft material includes silica gel, rubber.

The evacuation device brings the cavity inside the mold 8 into a negative pressure state through the injection nozzle 1, and the injection device is used for storing the material or injecting the material into the inner cavity of the mold 8 through the injection nozzle 1.

Similarly, when the material injection filling machine is used, a uniformly premixed material body is firstly added into the material barrel 2 with air tightness, the material injection nozzle 1 is connected with the mold 8, the material barrel valve 4 is closed, the vacuum valve 6 is opened, the mold 8 is vacuumized through the vacuum channel 5, so that air in a cavity in the mold 8 is pumped away, the cavity of the mold 8 is in a negative pressure state, when the material barrel valve 4 is opened, the material body in the material barrel 2 is extruded into the cavity of the mold 8 through the material injection channel 3 by pressurization, and one-time material body injection filling is completed in the process. And taking out the mold 8, standing for a certain time at normal temperature or processing in a freezing mode, opening the mold 8, and drying through subsequent processes to obtain the super-three-dimensional color cosmetic powder 10.

With pressing the powder process, pouring the powder, roast powder technology etc. is different completely, the utility model discloses the product filling nature that obtains is better, even 8 positions of more tiny mould also can pour into the material body, have solved current filling abnormal shape mould 8, and the rheological property material body can't reach less slight cavity position, molding disappearance, gas pocket scheduling problem that lead to.

The foregoing description of the specific embodiments of the invention has been presented. It is to be understood that the present invention is not limited to the specific embodiments described above, and that various changes or modifications may be made by one skilled in the art within the scope of the appended claims without departing from the essential spirit of the invention. The embodiments and features of the embodiments of the present application may be combined with each other arbitrarily without conflict.

Claims (10)

1. The material injection equipment is characterized by comprising a material injection device, a vacuumizing device and a material injection nozzle (1), wherein the material injection device and the vacuumizing device are respectively communicated with the material injection nozzle (1);

the material injection device comprises a charging bucket (2), an injection channel (3) and a charging bucket valve (4), wherein the charging bucket (2) is connected with the injection nozzle (1) through the injection channel (3);

the vacuumizing device comprises a vacuum channel (5), a vacuum valve (6) and a vacuum machine, wherein one end of the vacuum channel (5) is connected with the material injection nozzle (1), and the other end of the vacuum channel is connected with the vacuum machine.

2. The injection equipment according to claim 1, characterized in that the barrel valve (4) is used for controlling the barrel (2) to communicate with the injection nozzle (1) through the injection channel (3) or to close the injection channel (3).

3. The injection equipment according to claim 2, wherein the barrel valve (4) comprises a first plunger (41) and a first valve channel, the first plunger (41) is in plug fit with the first valve channel, the first valve channel is communicated with the injection channel (3), one end of the first plunger (41) can be in plug fit with the middle of the injection channel (3) through the first valve channel, and the barrel (2) is not communicated with the injection nozzle (1);

a first sealing member is arranged on the outer periphery side of the first plunger (41); the charging basket valve (4) further comprises a first resetting piece and a first positioning piece.

4. The injection apparatus according to claim 1, wherein the vacuum valve (6) is used for controlling the injection nozzle (1) to communicate with a vacuum machine through a vacuum channel (5) or to close the vacuum channel (5).

5. The injection equipment according to claim 4, characterized in that the vacuum valve (6) comprises a second plunger (61) and a second valve passage, wherein the second plunger (61) is inserted and matched with the second valve passage, the second valve passage is communicated with the vacuum passage (5), one end of the second plunger (61) can be inserted and matched with the middle part of the vacuum passage (5) through the second valve passage and the vacuum machine is not communicated with the injection nozzle (1);

a second seal is arranged on the outer peripheral side of the second plunger (61); the vacuum valve (6) further comprises a second resetting piece and a second positioning piece.

6. A hyper-three-dimensional cosmetic production device is characterized by comprising the injection device and a mould (8) according to any one of claims 1 to 5, wherein the mould (8) is hollow to form a cavity, the side surface of the mould is provided with an injection port (9) and is communicated with the cavity, and the injection nozzle (1) is in inserted fit with the injection port (9);

the vacuum pumping device enables the cavity in the mold (8) to be in a negative pressure state through the material injection nozzle (1), and the material injection device is used for storing the material body or injecting the material body into the inner cavity of the mold (8) through the material injection nozzle (1).

7. Equipment for the production of a hypersolid cosmetic product according to claim 6, characterized in that a third seal is provided between the injection nozzle (1) and the injection opening (9).

8. The hyperstereo cosmetic production apparatus according to claim 6, wherein the mold (8) comprises a split mold (8) or an integral mold (8); the material of the mould (8) comprises hard material or soft material.

9. The hyperstereo cosmetic production apparatus of claim 8, wherein the hard material comprises metal, rigid plastic, plexiglas, wood board.

10. The apparatus for producing super-stereoscopic cosmetics according to claim 8, wherein the soft material includes silicone rubber, rubber.

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