CN213321250U

CN213321250U - Automatic powder puff production machine

Info

Publication number: CN213321250U
Application number: CN202022171720.8U
Authority: CN
Inventors: 吴有兴
Original assignee: Yantai Qiyunbao Selenium Biotechnology Co ltd; Dongguan Nicai Cosmetics Co ltd
Current assignee: Yantai Qiyunbao Selenium Biotechnology Co ltd; Dongguan Nicai Cosmetics Co ltd
Priority date: 2020-09-28
Filing date: 2020-09-28
Publication date: 2021-06-01
Anticipated expiration: 2030-09-28

Abstract

The invention relates to the technical field of automatic production equipment, in particular to an automatic powder puff production machine which comprises a powder puff forming assembly, a feeding mechanism, a cover closing mechanism, a cover opening mechanism, a moving driving mechanism and a powder puff discharging mechanism, wherein the powder puff forming assembly comprises a moving support, a powder puff forming die arranged on the moving support, a cover plate which is rotatably arranged on the moving support and used for covering the powder puff forming die, and a locking device which is arranged on the moving support and used for locking the cover plate, and the moving driving mechanism is used for driving the powder puff forming assembly to sequentially pass through the feeding mechanism, the cover closing mechanism, the cover opening mechanism and the powder puff discharging mechanism. The powder puff production device is simple and compact in structure, the whole powder puff production can be automatically completed, and manual feeding and discharging are not needed, so that the production efficiency of the powder puff is greatly improved, the labor intensity of workers is reduced, the production quality of the powder puff is improved, and the accident rate of manual operation is reduced.

Description

Automatic powder puff production machine

Technical Field

The invention relates to the technical field of automatic production equipment, in particular to an automatic powder puff production machine.

Background

The puff is used as a tool commonly used in makeup, and is used to apply foundation when makeup is performed. However, in the existing powder puff production, a powder puff forming die is manually placed on a filling machine, the filling machine fills liquid raw materials into the powder puff forming die, and then workers take out the powder puff forming die and place the powder puff forming die aside for cooling and forming; after the puff is formed, a worker takes the formed puff out of the puff forming die. Because the production quality and the production efficiency are related to the proficiency of manual operation, the manual operation mode has the defects of non-uniform quality standard, low production efficiency and high labor cost, and is easy to cause safety accidents.

Disclosure of Invention

The invention aims to provide an automatic powder puff production machine which is simple and compact in structure, high in production efficiency and good in production quality aiming at the defects of the prior art.

In order to achieve the purpose, the invention adopts the following technical scheme:

the invention provides an automatic powder puff production machine which comprises a powder puff forming assembly, a feeding mechanism, a cover closing mechanism, a cover opening mechanism, a moving driving mechanism and a powder puff discharging mechanism, wherein the powder puff forming assembly comprises a moving support, a powder puff forming die arranged on the moving support, a cover plate which is rotatably arranged on the moving support and used for covering the powder puff forming die, and a locking device which is arranged on the moving support and used for locking the cover plate, and the moving driving mechanism is used for driving the powder puff forming assembly to sequentially pass through the feeding mechanism, the cover closing mechanism, the cover opening mechanism and the powder puff discharging mechanism.

The automatic powder puff production machine further comprises a rack, and the moving driving mechanism comprises a rotating disc and a rotating driving mechanism, wherein the rotating disc is rotatably arranged on the rack, and the rotating driving mechanism is used for driving the rotating disc to rotate; the number of the powder puff forming assemblies is multiple, and the movable supports of the powder puff forming assemblies are arranged around the circumference of the rotating disc; the feeding mechanism, the cover closing mechanism, the cover opening mechanism and the powder puff discharging mechanism are respectively arranged on one side of the rotating disc.

Wherein, locking device sets up in the turning block of fixed block, with turning block cross arrangement's locking lever, set up lock cap on the locking lever and set up the fork groove piece on the apron including setting up in the fixed block that removes the support and be located one side of powder puff forming die, rotating, the one end and the fixed block of turning block rotate to be connected, the one end and the turning block of locking lever are close to one side of its rotation end and are connected.

Furthermore, the cover closing mechanism comprises a lock rod rotation driving device, a cover pressing device and a cover plate closing driving device, wherein the lock rod rotation driving device is arranged on one side of the lock rod and used for driving the lock rod to rotate, the cover pressing device is arranged above the puff forming die, and the cover plate closing driving device is arranged on one side of the movable support and used for driving the cover plate to rotate in the direction close to the puff forming die.

Furthermore, the locking rod rotation driving device comprises a first moving rod arranged on one side of the locking rod and a first driver used for driving the first moving rod to be close to or far away from the locking rod.

Further, the capping device comprises a pressure rod arranged above the puff forming die and a second driver used for driving the pressure rod to be close to or far away from the puff forming die.

Furthermore, the cover plate closing driving device comprises a lifting block arranged on one side of the movable support and positioned below the cover plate, a pulley rotatably arranged on the lifting block, and a third driver used for driving the lifting block to lift.

Furthermore, the cover opening mechanism comprises a rotating block driving device arranged on one side of the rotating block and used for driving the rotating block to rotate, and a cover plate opening driving device arranged on one side of the movable support close to the locking device and used for driving the cover plate to rotate in the direction away from the puff forming die.

Furthermore, the rotating block driving device comprises a second moving rod arranged on one side of the rotating block and a fourth driver used for driving the second moving rod to be close to or far away from the rotating block.

Further, the cover plate opening driving device comprises a top plate block arranged below the cover plate and a fifth driver used for driving the top plate block to be close to or far away from the cover plate.

The invention has the beneficial effects that:

the invention provides an automatic powder puff production machine, which comprises the following working procedures: in an initial state, the cover plate is in an open state, the movable driving mechanism drives the powder puff forming assembly to move to the feeding position of the feeding mechanism, and the feeding mechanism fills the powder puff forming die of the powder puff forming assembly; after the powder puff forming die is filled with the materials, the movable driving mechanism drives the powder puff forming assembly to move to the position of the cover closing mechanism, the cover closing mechanism drives the cover plate to rotate, so that the cover plate covers the filling port of the powder puff forming die, the cover plate is locked by the locking device at the moment, the cover plate is prevented from rotating when the movable support is moved, and the cover plate covers the filling port so as to facilitate cooling and forming of the liquid materials in the powder puff forming die. Then, the movable driving mechanism drives the powder puff forming assembly to continuously move, and the powder puff is gradually formed in the moving process of the powder puff forming assembly; when the powder puff forming assembly moves to the position of the cover opening mechanism, the powder puff is formed, and the cover opening mechanism drives the cover plate to rotate so as to open the material filling opening of the powder puff forming die; and finally, the movable driving mechanism drives the puff forming assembly to move to the puff discharging mechanism, and at the moment, the puff discharging mechanism automatically takes out the formed puff in the puff forming die. The powder puff production device is simple and compact in structure, the whole powder puff production can be automatically completed, and manual feeding and discharging are not needed, so that the production efficiency of the powder puff is greatly improved, the labor intensity of workers is reduced, the production quality of the powder puff is improved, and the accident rate of manual operation is reduced.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a top view of the present invention;

FIG. 3 is a schematic view of the construction of the puff forming assembly of the present invention;

fig. 4 is a side view of the puff-forming assembly of the present invention, wherein fig. a is a schematic view of the locking device in a locked state, and fig. b is a schematic view of the locking device in an unlocked state;

FIG. 5 is a schematic perspective view of the lid closing mechanism of the present invention;

FIG. 6 is a schematic structural view of the lid closing mechanism of the present invention;

fig. 7 is a schematic perspective view of the lid opening mechanism of the present invention;

fig. 8 is a schematic structural view of the lid opening mechanism of the present invention;

fig. 9 is an enlarged schematic view of a portion a in fig. 1.

Description of the reference numerals

1. A puff forming assembly; 2. a feeding mechanism; 3. a cover closing mechanism; 4. a cover opening mechanism; 5. a powder puff discharge mechanism; 11. moving the support; 12. a powder puff forming die; 13. a cover plate; 14. a locking device; 141. a fixed block; 142. rotating the block; 143. a lock lever; 144. a lock cap; 145. a fork groove block; 301. a lock lever rotation driving device; 31. a first movable bar; 32. a first driver; 302. a capping device; 33. a pressure lever; 34. a second driver; 303. a cover plate closing drive device; 35. a lifting block; 36. a pulley; 37. a third driver; 51. a frame; 52. rotating the disc; 401. a turning block driving device; 41. a second movable bar; 42. a fourth driver; 402. a cover opening drive device; 43. a top plate block; 44. and a fifth driver.

Detailed Description

In order to facilitate understanding of those skilled in the art, the present invention will be further described with reference to the following examples and drawings, which are not intended to limit the present invention. The present invention is described in detail below with reference to the attached drawings.

As shown in fig. 1 to 9, the automatic powder puff maker provided by the present invention comprises a powder puff forming assembly 1, a feeding mechanism 2, a cover closing mechanism 3, a cover opening mechanism 4, a moving driving mechanism and a powder puff discharging mechanism 5, wherein the powder puff forming assembly 1 comprises a moving support 11, a powder puff forming mold 12 arranged on the moving support 11, a cover plate 13 rotatably arranged on the moving support 11 and used for covering the powder puff forming mold 12, and a locking device 14 arranged on the moving support 11 and used for locking the cover plate 13, and the moving driving mechanism is used for driving the powder puff forming assembly 1 to sequentially pass through the feeding mechanism 2, the cover closing mechanism 3, the cover opening mechanism 4 and the powder puff discharging mechanism 5.

Preferably, a material filling opening is formed in the top of the powder puff forming die 12, and the cover plate 13 is used for covering the material filling opening of the powder puff forming die 12. The feeding mechanism 2 is a conventional filling machine for filling a powder puff molding die 12 with a liquid material (a material for manufacturing a powder puff), and the principle thereof will not be described in detail here. The powder puff discharging mechanism 5 is an existing three-jaw manipulator, and the principle of the powder puff discharging mechanism is not described in detail herein. In the present embodiment, the production of the puff is exemplified, but the present embodiment is not limited to the production of the puff.

In an initial state, the cover plate 13 is in an open state, the movable driving mechanism drives the puff forming assembly 1 to move to the loading position of the feeding mechanism 2, and the feeding mechanism 2 fills the puff forming die 12 of the puff forming assembly 1; after the powder filling is completed, the movable driving mechanism drives the powder puff forming assembly 1 to move to the position of the cover closing mechanism 3, the cover closing mechanism 3 drives the cover plate 13 to rotate, so that the cover plate 13 closes the filling opening cover of the powder puff forming die 12, the cover plate 13 is locked by the locking device 14 at the moment, the cover plate 13 is prevented from rotating when the movable support 11 moves, and the cover plate 13 covers the filling opening cover so as to facilitate the cooling and forming of liquid materials in the powder puff forming die 12. Then, the movable driving mechanism drives the puff forming assembly 1 to continuously move, and the puff is gradually formed in the moving process of the puff forming assembly 1; when the puff forming assembly 1 moves to the position of the cover opening mechanism 4, the puff is formed, and the cover opening mechanism 4 drives the cover plate 13 to rotate so as to open the material filling opening of the puff forming die 12; finally, the movable driving mechanism drives the puff forming assembly 1 to move to the puff discharging mechanism 5, and at the moment, the puff discharging mechanism 5 automatically takes out the puff formed in the puff forming die 12. The powder puff production device is simple and compact in structure, production of the whole powder puff can be automatically completed, manual feeding and discharging are not needed, and therefore production efficiency of the powder puff is greatly improved, labor intensity of workers is reduced, production quality of the powder puff is improved, and safety accident rate of manual operation is reduced.

Preferably, one or more puff forming dies 12 may be provided on the movable support 11 according to actual production requirements.

In the technical scheme, the automatic powder puff production machine further comprises a rack 51, and the moving driving mechanism comprises a rotating disc 52 which is rotatably arranged on the rack 51 and a rotating driving mechanism for driving the rotating disc 52 to rotate; the number of the powder puff forming assemblies 1 is multiple, and the movable supports 11 of the powder puff forming assemblies 1 are arranged around the circumference of the rotating disc 52; the feeding mechanism 2, the cover closing mechanism 3, the cover opening mechanism 4 and the puff discharging mechanism 5 are respectively arranged on one side of the rotating disc 52. Specifically, the rotary driving mechanism may adopt an existing driving mechanism with a motor and a gear matched with each other.

In practical application, the rotation driving mechanism drives the rotating disc 52 to rotate, and the rotating disc 52 drives the powder puff forming assemblies 1 to rotate and sequentially pass through the feeding mechanism 2, the cover closing mechanism 3, the cover opening mechanism 4 and the powder puff discharging mechanism 5. By adopting the structure of the rotating disc 52, on one hand, a plurality of puff forming assemblies 1 can be driven to circularly rotate, so that the puff forming die 12 can continuously carry out the processes of feeding, forming and discharging, and the production efficiency of the puff is improved; on the other hand, the disk-shaped rotating disk 52 can save more space, so that the whole automatic puff production machine has a more compact structure and occupies less space.

In this technical scheme, locking device 14 is including setting up in mobile support 11 and being located the fixed block 141 of one side of puff forming die 12, rotating and setting up in the turning block 142 of fixed block 141, with turning block 142 cross arrangement's locking lever 143, set up locking cap 144 on locking lever 143 and set up the fork groove piece 145 on apron 13, the one end and the fixed block 141 of turning block 142 rotate to be connected, the one end and the turning block 142 of locking lever 143 are connected near one side of its turning end. Specifically, the rotating block 142 has a straight bar shape.

In practical applications, the upper end of the rotating block 142 is rotatably connected to the fixed block 141 via a pin. When the cover plate 13 is in an open state, the rotating block 142 is vertical to the bearing surface of the movable support 11, and the lock rod 143 is inclined in a direction away from the puff forming die 12; when the powder puff forming assembly 1 moves to the position of the cover closing mechanism 3, the cover closing mechanism 3 drives the cover plate 13 to rotate towards the powder puff forming die 12, so that the cover plate 13 covers the material filling opening of the powder puff forming die 12; when the cover plate 13 is covered, the fork groove of the fork groove block 145 corresponds to the position of the lock rod 143, then the cover closing mechanism 3 drives the lock rod 143 to rotate towards the direction of the fork groove block 145, so that the lock rod 143 is inserted into the fork groove of the fork groove block 145, the lock rod 143 rotating at this time drives the lock cap 144 to rotate above the fork groove block 145, and the lock cap 144 abuts against the top surface of the fork groove block 145 to compress the fork groove block 145, so as to lock the cover plate 13, at this time, the axis of the lock rod 143 is perpendicular to the bearing surface of the movable support 11, and the rotating block 142 is inclined to the bearing surface of the movable support 11; on the contrary, when the puff forming assembly 1 moves to the position of the cover opening mechanism 4, the rotating block 142 is in an inclined state, the cover opening mechanism 4 drives the rotating block 142 to rotate from the inclined state to be perpendicular to the bearing surface of the movable support 11, the rotating block 142 drives the lock rod 143 to rotate and leave the fork pocket block 145, and then the cover opening mechanism 4 drives the cover plate 13 to open so that the puff discharging mechanism 5 can take out the puff in the puff forming die 12. The locking device 14 has a simple and compact structural design, low manufacturing cost and simple and convenient operation.

In this embodiment, the cover closing mechanism 3 includes a lock lever rotation driving device 301 disposed on one side of the lock lever 143 for driving the lock lever 143 to rotate, a cover closing device 302 disposed above the puff forming die 12, and a cover closing driving device 303 disposed on one side of the movable support 11 for driving the cover 13 to rotate in a direction approaching the puff forming die 12. In practical application, when the puff forming assembly 1 moves to the cover closing mechanism 3, the cover plate closing driving device 303 drives the cover plate 13 to rotate so as to close the material filling opening of the puff forming die 12; then, the cover plate 13 is pressed by the cover pressing device 302, and after the cover plate 13 is pressed, the locking bar rotation driving device 301 drives the locking bar 143 to rotate towards the direction of the cover plate 13 until the locking bar 143 is inserted into the fork groove of the fork groove block 145, so that the locking cap 144 of the locking bar 143 is abutted against the top surface of the fork groove block 145, thereby locking the cover plate 13.

Preferably, the locking lever rotation driving means 301 includes a first moving lever 31 provided at one side of the locking lever 143 and a first actuator 32 for driving the first moving lever 31 to approach or separate from the locking lever 143. The capping device 302 includes a pressing rod 33 disposed above the puff-forming die 12 and a second driver 34 for driving the pressing rod 33 to approach or separate from the puff-forming die 12. The cover closing driving device 303 includes an elevating block 35 disposed at one side of the movable support 11 and below the cover 13, a pulley 36 rotatably disposed at the elevating block 35, and a third driver 37 for driving the elevating block 35 to ascend and descend. Specifically, the first driver 32, the second driver 34, and the third driver 37 are all driving cylinders.

In practical application, when the puff forming assembly 1 moves to the cover closing mechanism 3, the cover plate 13 is in an open state, and the cover plate 13 is positioned above the lifting block 35; firstly, the third driver 37 drives the lifting block 35 to ascend, the ascending lifting block 35 drives the pulley 36 to ascend and enables the pulley 36 to abut against the cover plate 13, and the ascending pulley 36 pushes the cover plate 13 to rotate at the moment, so that the cover plate 13 closes the filling port of the puff forming die 12; then, the second driver 34 drives the pressing rod 33 to descend, and the descending pressing rod 33 is abutted against the top surface of the cover plate 13, so that the cover plate 13 is pressed; finally, the first driver 32 drives the first moving rod 31 to move close to the locking rod 143, the moving first moving rod 31 abuts against the locking rod 143 and pushes the locking rod 143 to rotate close to the cover plate 13, so that the locking rod 143 is inserted into the fork groove of the fork groove block 145, the locking cap 144 presses the fork groove block 145, the cover plate 13 is locked, and the cover plate 13 is prevented from being opened due to the centrifugal force during the rotation process.

In this embodiment, the uncovering mechanism 4 includes a rotating block driving device 401 disposed on one side of the rotating block 142 and configured to drive the rotating block 142 to rotate, and a cover opening driving device 402 disposed on one side of the movable support 11 close to the locking device 14 and configured to drive the cover 13 to rotate in a direction away from the puff forming die 12. In practical application, when the puff forming assembly 1 moves to the position of the cover opening mechanism 4, the rotating block driving device 401 drives the rotating block 142 to rotate anticlockwise, the rotating block 142 drives the locking rod 143 to rotate in the direction away from the cover plate 13, and then the locking rod 143 moves out of the fork groove block 145, so that the locking cap 144 of the locking rod 143 releases the locking of the fork groove block 145; then, the cover plate opening driving device 402 drives the cover plate 13 to rotate clockwise, so that the cover plate 13 opens the material filling opening of the puff forming die 12, so that the puff discharging mechanism 5 can take out the puff in the puff forming die 12.

Preferably, the rotating block driving device 401 includes a second moving bar 41 disposed at one side of the rotating block 142, and a fourth driver 42 for driving the second moving bar 41 to approach or separate from the rotating block 142. The cover opening driving means 402 includes a top plate block 43 disposed below the cover plate 13 and a fifth driver 44 for driving the top plate block 43 to approach or separate from the cover plate 13. Specifically, the fourth driver 42 and the fifth driver 44 are each a driving cylinder.

In practical applications, when the puff forming assembly 1 moves to the lid opening mechanism 4, the lid 13 is in a closed state, and one end of the lid 13 is located above the top plate block 43. Firstly, the fourth driver 42 drives the second moving rod 41 to move close to the rotating block 142, the moving second moving rod 41 is abutted against the rotating block 142 and pushes the rotating block 142 to rotate anticlockwise, and the rotating block 142 drives the locking rod 143 and the locking cap 144 to rotate away from the cover plate 13, so that the locking cap 144 leaves the fork groove block 145 and releases locking of the fork groove block 145; then, the fifth driver 44 drives the top plate block 43 to move in a direction approaching the cover plate 13, and the moving top plate block 43 interferes with the cover plate 13 or the fork groove block 145, and thereby pushes the cover plate 13 to rotate clockwise, so that the cover plate 13 opens the charging opening of the puff forming die 12.

Although the present invention has been described with reference to the above preferred embodiments, it should be understood that various changes, substitutions and alterations can be made herein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims

1. The utility model provides a powder puff automatic production machine which characterized in that: including powder puff forming component, feed mechanism, closing lid mechanism, mechanism of uncapping, mobile drive mechanism and powder puff shedding mechanism, powder puff forming component is including removing the support, setting up powder puff forming die on removing the support, rotating and setting up on removing the support and be used for the lid to close powder puff forming die's apron and set up in removing the support and be used for carrying out the locking device who locks to the apron, mobile drive mechanism is used for driving powder puff forming component in proper order through feed mechanism, closing lid mechanism, mechanism of uncapping and powder puff shedding mechanism.

2. An automatic powder puff maker according to claim 1, wherein: the automatic powder puff production machine also comprises a rack, and the moving driving mechanism comprises a rotating disc which is rotatably arranged on the rack and a rotating driving mechanism for driving the rotating disc to rotate; the number of the powder puff forming assemblies is multiple, and the movable supports of the powder puff forming assemblies are arranged around the circumference of the rotating disc; the feeding mechanism, the cover closing mechanism, the cover opening mechanism and the powder puff discharging mechanism are respectively arranged on one side of the rotating disc.

3. An automatic powder puff maker according to claim 1, wherein: the locking device comprises a fixed block, a rotating block, a locking rod, a locking cap and a fork groove block, wherein the fixed block is arranged on the movable support and located on one side of the powder puff forming die, the rotating block is arranged on the fixed block in a rotating mode, the locking rod is arranged in a crossing mode with the rotating block, the locking cap is arranged on the locking rod, the fork groove block is arranged on the cover plate, one end of the rotating block is connected with the fixed block in a rotating mode, and one end of the locking rod is connected with.

4. An automatic powder puff maker according to claim 3, wherein: the cover closing mechanism comprises a lock rod rotation driving device, a cover pressing device and a cover plate closing driving device, wherein the lock rod rotation driving device is arranged on one side of a lock rod and used for driving the lock rod to rotate, the cover pressing device is arranged above the puff forming die, and the cover plate closing driving device is arranged on one side of a movable support and used for driving a cover plate to rotate in the direction close to the puff forming die.

5. An automatic powder puff maker according to claim 4, wherein: the locking rod rotation driving device comprises a first moving rod arranged on one side of the locking rod and a first driver used for driving the first moving rod to be close to or far away from the locking rod.

6. An automatic powder puff maker according to claim 4, wherein: the capping device comprises a pressure rod arranged above the powder puff forming die and a second driver used for driving the pressure rod to be close to or far away from the powder puff forming die.

7. An automatic powder puff maker according to claim 4, wherein: the cover plate closing driving device comprises a lifting block, a pulley and a third driver, wherein the lifting block is arranged on one side of the movable support and is positioned below the cover plate, the pulley is rotatably arranged on the lifting block, and the third driver is used for driving the lifting block to lift.

8. An automatic powder puff maker according to claim 3, wherein: the cover opening mechanism comprises a rotating block driving device arranged on one side of the rotating block and used for driving the rotating block to rotate, and a cover plate opening driving device arranged on one side of the movable support close to the locking device and used for driving the cover plate to rotate in the direction away from the puff forming die.

9. An automatic powder puff maker according to claim 8, wherein: the rotating block driving device comprises a second moving rod arranged on one side of the rotating block and a fourth driver used for driving the second moving rod to be close to or far away from the rotating block.

10. An automatic powder puff maker according to claim 8, wherein: the cover plate opening driving device comprises a top plate block arranged below the cover plate and a fifth driver used for driving the top plate block to be close to or far away from the cover plate.