A cosmetic powder compact pressing and molding processing device

By designing a cosmetic powder compact pressing and molding processing device, the problems of dust pollution and manual removal of powder compacts were solved, and the dust was cleaned up and recycled, improving the cleanliness of the processing environment and production efficiency.

CN224426646UActive Publication Date: 2026-06-30GUANGZHOU FUDA BIOTECHNOLOGY CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
GUANGZHOU FUDA BIOTECHNOLOGY CO LTD
Filing Date
2025-06-07
Publication Date
2026-06-30

AI Technical Summary

Technical Problem

Existing cosmetic powder compact pressing and forming equipment cannot effectively clean and collect dust, polluting the environment and affecting processing quality. Furthermore, the formed powder compacts need to be manually removed, posing a safety hazard.

Method used

A cosmetic powder compact pressing and forming device was designed, comprising a frame assembly, an upper mold assembly, a lower mold assembly, a dust collection mechanism, a pushing mechanism, and a receiving mechanism. The dust collection mechanism enables dust cleaning and recycling, and the pushing mechanism automatically removes the powder compact, reducing manual intervention.

Benefits of technology

It enables the cleaning and recycling of dust, ensuring a clean processing environment, improving processing quality, and eliminating the need for manual removal of powder cakes, thus improving production efficiency and safety.

✦ Generated by Eureka AI based on patent content.

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Patent Text Reader

Abstract

This utility model discloses a cosmetic powder compact pressing and molding processing device, including a frame assembly, an upper mold assembly, a lower mold assembly, a dust collection mechanism, a pushing mechanism, and a receiving mechanism. The frame assembly includes a top plate, a support plate, and a bottom plate. The lower mold assembly includes a lower mold, a forming column, and a lower mold drive mechanism. The lower mold has a forming through hole. One end of the forming column is connected to the support plate, and the other end is slidably connected to the forming through hole. The drive end of the lower mold drive mechanism is connected to the lower mold. In the normal state, a forming groove is formed at the forming through hole. In the non-normal state, the surface of the lower mold is flush with the upper end face of the forming column. The upper mold assembly includes an upper mold and an upper mold drive mechanism connected to the upper mold. The pushing mechanism and the receiving mechanism are located on both sides of the lower mold. This utility model realizes the cleaning, collection, and recycling of dust, ensuring a clean processing environment and improving processing quality. Moreover, it eliminates the need for manual removal of powder compacts from the mold, making it efficient and safe.
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Description

Technical Field

[0001] This utility model relates to the field of cosmetic processing technology, and in particular to a cosmetic powder compact pressing and forming device. Background Technology

[0002] Existing cosmetic powder compact pressing and forming devices suffer from the following problems due to structural limitations:

[0003] 1. The dust generated during the pressing process cannot be collected and recycled in a centralized manner, resulting in waste, pollution of the processing environment, and impact on the health of workers;

[0004] 2. Failure to promptly remove accumulated dust from the molds affects processing quality and causes contamination when producing different types of powder cakes;

[0005] 3. The powder compacts need to be manually removed from the mold after they are formed, which is inefficient and poses a safety hazard.

[0006] Therefore, in order to solve the above problems, it is necessary to develop a cosmetic powder compact pressing and molding processing device to achieve dust cleaning, collection and recycling, ensure a clean processing environment, and improve processing quality; moreover, it eliminates the need for manual removal of powder compacts from the mold, making it efficient and safe. Utility Model Content

[0007] To solve the above problems, the technical solution adopted by this utility model is as follows:

[0008] A cosmetic powder compact pressing and forming processing device includes a frame assembly, an upper mold assembly, a lower mold assembly, a dust collection mechanism, a pushing mechanism, and a receiving mechanism, characterized in that:

[0009] The frame assembly includes a top plate, a support plate, and a bottom plate, which are arranged from top to bottom.

[0010] The lower mold assembly includes a lower mold, a forming column, and a lower mold drive mechanism;

[0011] The lower mold has at least one forming through hole;

[0012] The forming column and the forming through hole are arranged in a one-to-one correspondence. One end of the forming column is fixedly connected to the support plate, and the other end is tightly slidably connected to the forming through hole.

[0013] The lower mold drive mechanism is connected to the base plate, and the drive end is connected to the lower mold; the lower mold drive mechanism is used to drive the lower mold to rise and fall.

[0014] When the lower mold is in its normal state, a forming groove is formed at the forming through hole; when the lower mold is not in its normal state, the surface of the lower mold is flush with the upper surface of the forming column.

[0015] The upper mold assembly includes an upper mold and an upper mold driving mechanism. The upper mold driving mechanism is fixedly connected to the top plate, and the driving end is connected to the upper mold. The upper mold driving mechanism is used to drive the upper mold to rise and fall.

[0016] The pushing mechanism and the receiving mechanism are connected to the support plate and are located on both sides of the lower mold, respectively.

[0017] Preferably, the pushing mechanism includes a pusher plate and a telescopic driver;

[0018] The telescopic actuator is fixedly connected to the support plate, and the drive end of the telescopic actuator is connected to the push plate.

[0019] The lower end face of the push plate is flush with the upper end face of the forming column.

[0020] Preferably, the receiving mechanism includes a sliding table electric cylinder and a receiving tray;

[0021] The electric cylinder of the sliding table is fixedly connected to the support plate, and the sliding table of the electric cylinder is connected to the receiving tray through the upright;

[0022] The surface of the receiving tray is flush with the upper end face of the forming column.

[0023] Preferably, the dust collection mechanism includes a cover, a dust collection box, and a fan;

[0024] The cover is located behind the lower mold, with the opening facing the surface of the lower mold. The cover is connected to the lower mold or the frame assembly.

[0025] The dust collection box is detachably connected to the base plate. The air inlet of the dust collection box is connected to the cover through a pipe, and the air outlet is connected to the fan through a pipe.

[0026] A filter screen is installed on the air outlet of the dust collection box.

[0027] Preferably, the pushing mechanism is further provided with a blowing and washing mechanism;

[0028] The blowing and washing mechanism includes an air pump and multiple air nozzles connected by air pipes;

[0029] Multiple air nozzles are distributed from front to back, the air nozzles are connected to the back of the push plate, and the air outlet ends are tilted downwards;

[0030] The air pump's outlet is connected to an air nozzle via an air pipe, and the air pump is connected to a telescopic actuator or a frame.

[0031] Preferably, the lower mold driving mechanism includes a first connecting rod, a support plate, and a first driver.

[0032] The first connecting rod is slidably sleeved with the support plate, the upper end of the first connecting rod is connected to the upper mold, and the lower end is connected to the support plate;

[0033] The first driver is located between the support plate and the base plate, and the driving end of the first driver is connected to the support plate.

[0034] Preferably, the upper mold driving mechanism includes an upper mold plate, a guide rod, and a second driver;

[0035] The guide rod is slidably sleeved with the top plate, and its lower end is connected to the upper mold through the upper template;

[0036] The second driver is fixedly connected to the top plate, and the driving end penetrates downward through the top plate and connects to the upper template.

[0037] Compared with the prior art, the beneficial effects of this utility model are as follows:

[0038] This invention enables the cleaning, collection, and recycling of dust, ensuring a clean processing environment and improving processing quality; moreover, it eliminates the need for manual removal of powder cakes from the mold, making it both efficient and safe. Attached Figure Description

[0039] Figure 1 This is a schematic diagram of the overall structure of this utility model;

[0040] The components include: frame assembly 1, dust collection mechanism 2, pushing mechanism 3, receiving mechanism 4, blowing and washing mechanism 5, top plate 11, support plate 12, bottom plate 13, cover 21, dust collection box 22, fan 23, push plate 31, telescopic driver 32, sliding table electric cylinder 41, receiving tray 42, air pump 51, air nozzle 52, lower mold 10, forming column 20, lower mold driving mechanism 30, upper mold 40, upper mold driving mechanism 50, forming through hole 101, first connecting rod 301, support plate 302, first driver 303, upper template 501, guide rod 502, and second driver 503. Detailed Implementation

[0041] To facilitate understanding of this utility model, a more complete description will be given below with reference to the accompanying drawings. Preferred embodiments of this utility model are shown in the drawings. However, this utility model can be implemented in many different forms and is not limited to the embodiments described herein. Rather, these embodiments are provided to provide a more thorough and complete understanding of the disclosure of this utility model.

[0042] It should be noted that when a component is said to be "fixed" to another component, it can be directly attached to the other component or there may be an intervening component. When a component is said to be "connected" to another component, it can be directly connected to the other component or there may be an intervening component. The terms "vertical," "horizontal," "front," "back," "left," "right," "up," "down," and similar expressions used in this document are for illustrative purposes only.

[0043] Unless otherwise defined, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention pertains. The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. The term "and / or" as used herein includes any and all combinations of one or more of the associated listed items.

[0044] The present invention will now be further described in conjunction with the accompanying drawings and specific embodiments:

[0045] like Figure 1 As shown, a cosmetic powder compact pressing and molding processing device includes a frame assembly 1, an upper mold assembly, a lower mold assembly, a dust collection mechanism 2, a pushing mechanism 3, and a receiving mechanism 4, characterized in that:

[0046] The frame assembly 1 includes a top plate 11, a support plate 12, and a lower mold 10, which are distributed from top to bottom.

[0047] The lower mold assembly includes a lower mold 10, a forming column 20, and a lower mold drive mechanism 30;

[0048] The lower mold 10 is provided with at least one forming through hole 101;

[0049] The forming column 20 is provided in a one-to-one correspondence with the forming through hole 101. One end of the forming column 20 is fixedly connected to the support plate 12, and the other end is tightly slidably connected to the forming through hole 101.

[0050] The lower mold drive mechanism 30 is connected to the lower mold 10, and the drive end is connected to the lower mold 10; the lower mold drive mechanism 30 is used to drive the lower mold 10 to rise and fall.

[0051] When the lower mold 10 is in its normal state, a forming groove is formed at the forming through hole 101; when the lower mold 10 is not in its normal state, the surface of the lower mold 10 is flush with the upper surface of the forming column 20.

[0052] The upper mold assembly includes an upper mold 40 and an upper mold driving mechanism 50. The upper mold driving mechanism 50 is fixedly connected to the top plate 11, and its driving end is connected to the upper mold 40. The upper mold driving mechanism 50 is used to drive the upper mold 40 to rise and fall.

[0053] The pushing mechanism 3 and the receiving mechanism 4 are connected to the support plate 12 and are located on both sides of the lower mold 10, respectively.

[0054] In this embodiment, before operation, the upper mold assembly, the first driver 303, the dust collection mechanism 2 and the material receiving mechanism 4 are first connected to the power supply. The upper mold 40 is raised and lowered to achieve the extrusion between the upper mold 40 and the lower mold 10. Initially, the lower mold 10 is in the normal state. The powder cake raw material is manually placed into the forming groove. Then the upper mold drive mechanism 50 drives the upper mold 40 to descend until the mold is completely closed.

[0055] After the process time is set, the upper mold drive mechanism 50 drives in the reverse direction, the upper mold 40 rises, and then the first driver 303 drives in the forward direction, causing the lower mold 10 to descend until the surface of the lower mold 10 is flush with the upper surface of the forming column 20. At this time, the formed powder cake is completely placed on the surface of the lower mold 10.

[0056] Then the receiving mechanism 4 approaches the lower mold 10, and the pushing mechanism 3 drives the shaped powder cake located on the surface of the lower mold 10 to the receiving mechanism 4. Then the pushing mechanism 3 and the receiving mechanism 4 reset, and the shaped powder cake is manually removed from the receiving mechanism 4. Then the first driver 303 resets; thus, it is not necessary to manually remove the powder cake from the mold, which is efficient and safe.

[0057] During the processing, the dust collection mechanism 2 cleans and collects the dust generated during processing in real time, realizing dust recycling and reuse, ensuring a clean processing environment, and improving processing quality.

[0058] Furthermore, such as Figure 1 As shown, the pushing mechanism 3 includes a pusher plate 31 and a telescopic driver 32;

[0059] The telescopic actuator 32 is fixedly connected to the support plate 12, and the driving end of the telescopic actuator 32 is connected to the push plate 31.

[0060] The lower end face of the push plate 31 is flush with the upper end face of the forming column 20.

[0061] In this embodiment, after the pressing is completed and the lower mold 10 descends to the point where its surface is flush with the upper surface of the forming column 20, the telescopic driver 32 drives the push plate 31 to move toward the lower mold 10, thereby automatically pushing the formed powder cake from the lower mold 10 to the receiving mechanism 4.

[0062] Furthermore, such as Figure 1 As shown, the receiving mechanism 4 includes a sliding table electric cylinder 41 and a receiving tray 42;

[0063] The electric cylinder 41 is fixedly connected to the support plate 12, and the slide of the electric cylinder 41 is connected to the receiving tray 42 through the upright;

[0064] The surface of the receiving tray 42 is flush with the upper surface of the forming column 20.

[0065] In this embodiment, initially, the receiving tray 42 is located outside the lower mold 10. After the powder cake is pressed and the upper mold 40 is reset, the sliding table electric cylinder 41 drives the receiving tray 42 to approach the lower mold 10 (close to the lower mold 10). After the formed powder cake is placed on the receiving tray 42, the sliding table electric cylinder 41 is reset, and then the formed powder cake is manually removed from the receiving tray 42 (or the powder cake is sent to the next process). Compared with the existing technology of manually removing it from the mold, this method is more efficient and safer.

[0066] Furthermore, such as Figure 1 As shown, the dust collection mechanism 2 includes a cover 21, a dust collection box 22, and a fan 23;

[0067] The cover 21 is located on the rear side of the lower mold 10, and the opening of the cover faces the surface of the lower mold 10. The cover 21 is connected to the lower mold 10 or the frame assembly 1.

[0068] The dust collection box 22 is detachably connected to the lower mold 10. The air inlet of the dust collection box 22 is connected to the cover 21 through a pipe, and the air outlet is connected to the fan 23 through a pipe.

[0069] A filter screen (not shown in the figure) is installed on the air outlet of the dust collection box 22.

[0070] In this embodiment, the fan 23 is started, which creates a negative pressure at the opening of the cover 21, causing the dust to pass through the cover 21 and the pipe and be stored in the dust collection box 22, thereby realizing the recycling and reuse of the dust.

[0071] Furthermore, such as Figure 1 As shown, the pushing mechanism 3 is also equipped with a blowing and washing mechanism 5;

[0072] The blowing and washing mechanism 5 includes an air pump 51 and a plurality of air nozzles 52 connected by an air pipe;

[0073] Multiple air nozzles 52 are distributed from front to back, and the air nozzles 52 are connected to the back of the push plate 31, with the air outlet end tilted downwards.

[0074] The air outlet of the air pump 51 is connected to the air nozzle 52 via an air pipe, and the air pump 51 is connected to the telescopic actuator 32 or the frame.

[0075] In this embodiment, while the pusher plate 31 moves on the lower mold 10, the air pump 51 is started, causing the air nozzle 52 to generate airflow to blow away the dust accumulated on the surface of the lower mold 10. During the pushing and blowing process, the dust collection mechanism 2 can collect the dust that is raised, thereby realizing the simultaneous operation of pushing, dust removal and dust collection, and improving processing efficiency and effect.

[0076] Furthermore, such as Figure 1As shown, the lower mold drive mechanism 30 includes a first connecting rod 301, a support plate 302, and a first driver 303;

[0077] The first connecting rod 301 is slidably sleeved with the support plate 12. The upper end of the first connecting rod 301 is connected to the upper mold 40, and the lower end is connected to the support plate 302.

[0078] The first driver 303 is located between the support plate 302 and the lower mold 10, and the driving end of the first driver 303 is connected to the support plate 302.

[0079] In this embodiment, the first driver 303 is a heavy-duty electric cylinder. The first driver 303 drives the support plate 302 and the first connecting rod 301 to rise and fall, thereby realizing the lifting and lowering control of the lower mold 10.

[0080] Furthermore, such as Figure 1 As shown, the upper mold driving mechanism 50 includes an upper mold plate 501, a guide rod 502, and a second driver 503;

[0081] The guide rod 502 is slidably sleeved with the top plate 11, and its lower end is connected to the upper mold 40 through the upper template 501;

[0082] The second driver 503 is fixedly connected to the top plate 11, and the driving end passes through the top plate 11 downward and connects to the upper template 501.

[0083] In this embodiment, the structural design of the guide rod 502 and the second driver 503 ensures the smooth lifting of the upper mold 40 and improves the pressing quality.

[0084] For those skilled in the art, various other corresponding changes and modifications can be made based on the technical solutions and concepts described above, and all such changes and modifications should fall within the protection scope of the claims of this utility model patent.

Claims

1. A cosmetic powder compact pressing and forming processing device, comprising a frame assembly, an upper mold assembly, a lower mold assembly, a dust collection mechanism, a pushing mechanism, and a receiving mechanism, characterized in that: The frame assembly includes a top plate, a support plate, and a bottom plate, which are arranged from top to bottom. The lower mold assembly includes a lower mold, a forming column, and a lower mold drive mechanism; The lower mold has at least one forming through hole; The forming column and the forming through hole are arranged in a one-to-one correspondence. One end of the forming column is fixedly connected to the support plate, and the other end is tightly slidably connected to the forming through hole. The lower mold drive mechanism is connected to the base plate, and the drive end is connected to the lower mold; the lower mold drive mechanism is used to drive the lower mold to rise and fall. When the lower mold is in its normal state, a forming groove is formed at the forming through hole; when the lower mold is not in its normal state, the surface of the lower mold is flush with the upper surface of the forming column. The upper mold assembly includes an upper mold and an upper mold driving mechanism. The upper mold driving mechanism is fixedly connected to the top plate, and the driving end is connected to the upper mold. The upper mold driving mechanism is used to drive the upper mold to rise and fall. The pushing mechanism and the receiving mechanism are connected to the support plate and are located on both sides of the lower mold, respectively.

2. The cosmetic powder compact press forming processing apparatus according to claim 1, wherein The feeding mechanism includes a pusher plate and a telescopic driver; The telescopic actuator is fixedly connected to the support plate, and the drive end of the telescopic actuator is connected to the push plate. The lower end face of the push plate is flush with the upper end face of the forming column.

3. The cosmetic compact press forming device according to claim 1, wherein The receiving mechanism includes a sliding table electric cylinder and a receiving tray; The electric cylinder of the sliding table is fixedly connected to the support plate, and the sliding table of the electric cylinder is connected to the receiving tray through the upright; The surface of the receiving tray is flush with the upper end face of the forming column.

4. The cosmetic compact press forming device according to claim 1, wherein The dust collection mechanism includes a cover, a dust collection box, and a fan; The cover is located behind the lower mold, with the opening facing the surface of the lower mold. The cover is connected to the lower mold or the frame assembly. The dust collection box is detachably connected to the base plate. The air inlet of the dust collection box is connected to the cover through a pipe, and the air outlet is connected to the fan through a pipe. A filter screen is installed on the air outlet of the dust collection box.

5. The cosmetic compact press forming device according to claim 2, wherein The pushing mechanism is also equipped with a blowing and washing mechanism; The blowing and washing mechanism includes an air pump and multiple air nozzles connected by air pipes; Multiple air nozzles are distributed from front to back, the air nozzles are connected to the back of the push plate, and the air outlet ends are tilted downwards; The air pump's outlet is connected to an air nozzle via an air pipe, and the air pump is connected to a telescopic actuator or a frame.

6. The cosmetic compact press forming device according to claim 1, wherein The lower mold drive mechanism includes a first connecting rod, a support plate, and a first driver. The first connecting rod is slidably sleeved with the support plate, the upper end of the first connecting rod is connected to the upper mold, and the lower end is connected to the support plate; The first driver is located between the support plate and the base plate, and the driving end of the first driver is connected to the support plate.

7. The cosmetic compact press forming device according to claim 1, wherein The upper mold driving mechanism includes an upper mold plate, a guide rod, and a second driver. The guide rod is slidably sleeved with the top plate, and its lower end is connected to the upper mold through the upper template; The second driver is fixedly connected to the top plate, and the driving end penetrates downward through the top plate and connects to the upper template.