CN116425402A

CN116425402A - Forming device is used in production of glass cosmetic bottle

Info

Publication number: CN116425402A
Application number: CN202310450771.XA
Authority: CN
Inventors: 辜文鑫
Original assignee: Guangdong Yijing Packaging Co ltd
Current assignee: Guangdong Yijing Packaging Co ltd
Priority date: 2023-04-25
Filing date: 2023-04-25
Publication date: 2023-07-14

Abstract

The invention provides a forming device for producing glass cosmetic bottles, belongs to the technical field of glass bottle production, and is used for solving the problem of low production and forming efficiency of the existing glass cosmetic bottles. The device comprises a bottom plate and a plurality of extrusion assemblies, wherein an installation cylinder is fixed above the bottom plate, a turntable is rotationally arranged on the installation cylinder, the extrusion assemblies comprise a chain wheel pair, a first loop bar, two third electric push rods and two placing plates, the two placing plates are all fixed on the turntable, two threaded rods are rotationally arranged between the two placing plates, a separating motor is fixed on the side face of the placing plate, an output shaft of the separating motor is connected with the threaded rods, two separating arc plates are connected on the threaded rods in a threaded manner, arc blocks are fixed on the separating arc plates, the first loop bar and the two third electric push rods are all fixed on the turntable, extrusion circular plates are fixed at the end parts of the two third electric push rods, a lifting assembly and a conveying assembly are arranged on the turntable, and a moving assembly is fixed on the conveying assembly; the invention can improve the production and molding efficiency of the glass cosmetic bottle.

Description

Forming device is used in production of glass cosmetic bottle

Technical Field

The invention belongs to the technical field of glass bottle production, and relates to a forming device for glass cosmetic bottle production.

Background

Cosmetic products, which are used for the preparation of the human body (soap removal) for beautifying, preserving or changing the appearance of the person (for example for performance), or for the preparation of the skin, hair, nails, eyes or teeth for cleaning, dyeing, wiping, straightening or protecting, most cosmetic bottles are contained in glass bottles, and at present, the method for manufacturing glass bottles mainly comprises the following steps: (1) preprocessing raw materials, and pulverizing blocky raw materials (quartz sand, sodium carbonate, limestone, feldspar, etc.); (2) preparing a batch; (3) melting, and heating the glass batch in a tank furnace at a high temperature (1550-1600 ℃ C.) to form liquid glass; (4) the principle of the method is the same as that of manually blowing bottles, and glass gobs are extruded into a primary mould by undershoot of a punch (in order to enable the gobs to easily fall into the primary mould, a funnel is usually adopted at present); then, firstly blowing compressed air into a primary mould to prepare a bottle primary mould, then transferring the bottle primary mould into a forming mould, and blowing compressed air again to finally obtain a glass bottle product; (5) and heat treatment, namely eliminating or generating stress, split phase or crystallization in the glass through annealing, quenching and other processes, and changing the structural state of the glass to finish processing.

In the existing blowing-blowing method for forming cosmetic glass bottles, glass drops (gobs) are required to be dripped into corresponding molds, the neck is shaped by upward blowing, then downward blowing is performed to form an internal cavity, the gobs which are initially shaped are turned over, conveyed to another mold and then upward blown again, so that blowing forming is performed, the existing processing steps are complicated, the processing equipment is complicated, the cost is high, and the forming processing efficiency is reduced.

Disclosure of Invention

The invention aims at solving the problems in the prior art, and provides a forming device for producing glass cosmetic bottles, which aims at solving the technical problems that: how to improve the production and molding efficiency of the glass cosmetic bottle.

The aim of the invention can be achieved by the following technical scheme:

the utility model provides a forming device is used in glass cosmetic bottle production, including bottom plate and a plurality of extrusion subassembly, the top of bottom plate is fixed with the installation section of thick bamboo, the top rotation of installation section of thick bamboo is provided with the carousel, the setting of a plurality of extrusion subassembly circumference equipartitions is on the carousel, extrusion subassembly includes the sprocket pair, first loop bar, two third electric putter and two place the board, two place the board and all fix on the carousel, it is provided with two threaded rods to rotate between the board to place two, the threaded rod is two-way threaded rod, one of them side that places the board is fixed with the separation motor, the output shaft of separation motor passes through one of them threaded rod of coupling connection, two threaded rods pass through sprocket pair connection, equal threaded connection has the separation arc board of two symmetries on the threaded rod, two a set of separation arc boards, the top of every separation arc board of group all is fixed with the arc piece, first loop bar and two third electric putter all fix the top at the carousel, two third electric putter are located the both sides of first loop bar, the tip of two third electric putter is fixed with extrusion plectane, the below of extrusion plectane, the plectane is provided with the second air inlet tube, the extension spring, set up on the extrusion fender has a plurality of extension springs, the extension spring and the extension spring, the extension spring is fixed with the ends on the top of the arc board, the fixed with the arc board, the arc board is fixed with the arc board on the top of a plurality of arc board, and fixed assembly.

The working principle of the invention is as follows: the production facility injects the inside of a plurality of arc with the glass liquid droplet after cutting, a plurality of arc carries out spacingly to the glass liquid droplet, two third electric putter drive extrusion plectane rise, the extrusion plectane rises and drives the glass liquid droplet and rise, simultaneously, the extrusion plectane rises and makes spacing arc piece seal the check keep off the groove, the extrusion plectane rises and makes the glass liquid droplet remove the inside of lifting unit, partial part is to glass liquid droplet bottom injection air, extrusion glass liquid droplet bottom, afterwards, the air is through the inside glass liquid droplet bottleneck of second intake pipe injection, make the preliminary shaping of glass liquid droplet, two third electric putter drive extrusion plectane decline, increase the shaping space, pour into the bottleneck through the second intake pipe inside, make the glass bottle complete shaping, afterwards, lifting unit releases the locking to the bottleneck, two third electric putter drive extrusion plectane decline, the glass bottle falls into the inside of arc piece, partial part drives the carousel and rotates, two places the board drives two threaded rods and rotates, two separate the arc board drives the arc piece and removes, the arc piece, the glass bottle is moved to the moving unit below, the glass bottle is moved to the moving unit, the glass bottle is moved to the top to the conveying subassembly, the glass bottle is carried out to the equipment.

The side of installation section of thick bamboo has seted up the air inlet, and the inside of installation section of thick bamboo is fixed with the connecting plate, and the below of connecting plate is fixed with the rotating electrical machines, and the output shaft and the carousel fixed connection of rotating electrical machines, the below of carousel are fixed with the air pump, and the second intake pipe of corresponding position is passed through to the end of giving vent to anger of air pump hose connection.

With the adoption of the structure, the rotating motor drives the turntable to rotate through the output shaft, and the air pump conveys air to the inside of the second air inlet pipe through the spring hose.

The lifting assembly comprises two vertical plates, wherein the two vertical plates are fixed above a bottom plate, a U-shaped plate is fixed between the two vertical plates, a mounting plate is fixed below the U-shaped plate, the mounting plate is fixed between the two vertical plates, two symmetrical U-shaped grooves are formed in the mounting plate, two second electric push rods are fixed above the U-shaped plate, lifting plates are fixed at the ends of the two second electric push rods, a cover plate is rotatably arranged on the lifting plates, two sealing blocks are fixed below the cover plate, conical shapes are arranged below the sealing blocks, two first air inlet pipes are arranged above the cover plate, the two first air inlet pipes are connected with an external air conveying pipe, a plurality of meshing teeth are formed in the side face of the cover plate, a gear motor is fixed above the cover plate, a gear is fixed on an output shaft of the gear motor, the gear is meshed with the meshing teeth, two bottle body molds are fixed below the mounting plate, two round holes are formed in the upper side of the mounting plate, two first electric push rods are fixed at the ends of the first electric push rods, and the semicircular molds are communicated with the bottle molds through the round holes.

By adopting the structure, the gear motor drives the gear to rotate through the output shaft, the gear drives the cover plate to rotate through the meshing teeth, the cover plate drives the sealing block to move to the upper part of the round hole, the two second electric push rods drive the lifting disc to descend, the lifting disc drives the sealing block to descend, and the sealing block seals the semicircular die.

The conveying assembly comprises two supporting plates, the two supporting plates are fixed above the bottom plate, a groove plate is fixed above the two supporting plates, two rotating rollers are arranged in the groove plate in a rotating mode, conveying belts are arranged on the two rotating rollers, a conveying motor is fixed on the side face of the groove plate, and an output shaft of the conveying motor is connected with one of the rotating rollers through a coupling.

By adopting the structure, the conveying motor drives one of the rotating rollers to rotate through the output shaft, the rotating roller drives the conveying belt to rotate, and the conveying belt conveys the formed glass bottle out of the device.

The movable assembly comprises a fixing plate, wherein the fixing plate is L-shaped, the end part of the fixing plate is fixed on the side surface of the groove plate, two symmetrical limiting plates are fixed on the side surface of the fixing plate, an X-shaped groove, two longitudinal grooves, two second guide grooves and two first guide grooves are formed in the side surface of the fixing plate, the two second guide grooves are respectively communicated with the X-shaped groove, the two first guide grooves are respectively communicated with the X-shaped groove, the two second guide grooves are respectively located above the first guide grooves at corresponding positions, the two longitudinal grooves are respectively communicated with the second guide grooves and the first guide grooves at corresponding positions, second lifting blocks are respectively arranged on the two longitudinal grooves, the X-shaped grooves are identical in depth with the longitudinal grooves, and the depth of the X-shaped grooves is lower than that of the second guide grooves and the first guide grooves.

By adopting the structure, the X-shaped groove, the longitudinal groove, the second guide groove and the first guide groove can guide part of the component, and the first lifting block and the second lifting block can facilitate the movement of the part of the component.

The movable assembly further comprises a fourth electric push rod, the fourth electric push rod is fixed below the fixed plate, the end portion of the fourth electric push rod is fixed with a sliding plate, the sliding plate is arranged between the two limiting plates in a sliding mode, a sliding groove is formed in the upper portion of the sliding plate, an L-shaped rod is arranged on the sliding groove in a sliding mode, an electric three-jaw chuck is fixed at the end portion of the L-shaped rod, a second loop bar is arranged inside the L-shaped rod, a spring is arranged inside the second loop bar, a diamond-shaped block is fixed at the end portion of the second loop bar, and the diamond-shaped block is arranged on the X-shaped groove, the longitudinal groove, the second guide groove and the first guide groove in a sliding mode.

By adopting the structure, the fourth electric push rod drives the sliding plate to lift, the sliding plate drives the L-shaped rod to move through the sliding groove, and the L-shaped rod drives the second loop bar to move.

Compared with the prior art, the forming device for producing the glass cosmetic bottle has the following advantages:

1. through the cooperation of the extrusion component and the lifting component, the gear motor drives the gear to rotate through the output shaft, the gear drives the cover plate to rotate through the meshing teeth, the cover plate drives the sealing block to move to the upper part of the round hole, the two second electric push rods drive the lifting disk to descend, the lifting disk drives the sealing block to descend, the sealing block seals the semicircular mould, the production equipment injects cut glass liquid drops into the inside of a plurality of arc plates, the arc plates limit the glass liquid drops, the two third electric push rods drive the extrusion circular plate to ascend, the extrusion circular plate ascends to drive the glass liquid drops to ascend, meanwhile, the extrusion circular plate ascends to enable the glass liquid drops to move into the semicircular mould, the air pump conveys air into the inside of the second air inlet pipe through the spring hose to extrude the bottom of the glass liquid drops, then, the air is injected into the inside of the glass liquid drops bottleneck through the second air inlet pipe to enable the glass circular plate to be primarily molded, the two third electric push rods drive the extrusion circular plate to descend, the molding space is increased, the glass bottle is completely molded through the second air inlet pipe, only one mould is needed, the glass bottle body is not required to be overturned, the glass bottle body is simplified, the processing steps are reduced, and the production efficiency of the glass cosmetic bottle is improved;

2. the conveying assembly is matched with the moving assembly, the fourth electric push rod drives the sliding plate to descend, the sliding plate drives the L-shaped rod to move through the sliding groove, the L-shaped rod drives the electric three-jaw chuck to descend, the electric three-jaw chuck is sleeved in the bottleneck, the electric three-jaw chuck locks the bottleneck, the separating motor drives one of the threaded rods to rotate through the output shaft to drive the two separating arc plates to move reversely, the separating arc plates drive the arc blocks to move, the arc blocks release the limit on the glass bottle, the fourth electric push rod drives the sliding plate to ascend, the sliding plate drives the L-shaped rod to move through the sliding groove, the L-shaped rod drives the second sleeve rod to move, the second sleeve rod drives the diamond blocks to move, and the diamond blocks move from the first guide groove to the first lifting block, then the first lifting block moves to the inside of the X-shaped groove, the diamond-shaped block moves to the inside of the second guide groove through the X-shaped groove, meanwhile, the L-shaped rod drives the electric three-jaw chuck to incline and ascend, the electric three-jaw chuck drives the glass bottle to ascend, the fourth electric push rod drives the sliding plate to descend, the sliding plate drives the L-shaped rod to move through the sliding groove, the L-shaped rod drives the electric three-jaw chuck to descend, when the bottom of the glass bottle falls onto the conveying belt, the electric three-jaw chuck releases locking of the glass bottle, the conveying motor drives one of the rotating rollers to rotate through the output shaft, the rotating rollers drive the conveying belt to rotate, and the conveying belt conveys the formed glass bottle out of the device, so that the glass bottle can be automatically conveyed out of the device.

Drawings

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

FIG. 2 is a schematic side elevational view of the present invention;

FIG. 3 is a schematic top view of the present invention;

FIG. 4 is a schematic elevational view of the present invention;

FIG. 5 is a schematic cross-sectional view of the present invention;

FIG. 6 is a schematic perspective view of a compression assembly according to the present invention;

FIG. 7 is an enlarged schematic view of the structure of FIG. 4A;

FIG. 8 is an enlarged schematic view of the structure at B in FIG. 5;

in the figure: 1. a U-shaped plate; 2. a first air inlet pipe; 3. a turntable; 4. a mounting cylinder; 5. a second air inlet pipe; 6. a vertical plate; 7. a bottom plate; 8. a support plate; 9. a conveying motor; 10. a conveyor belt; 11. a limiting plate; 12. a gear motor; 13. a gear; 14. a semicircular mold; 15. a sprocket set; 16. a bottle body mold; 17. a first electric push rod; 18. a lifting disc; 19. an arc-shaped block; 20. limiting arc blocks; 21. a second electric push rod; 22. a mounting plate; 23. an L-shaped rod; 24. an electric three-jaw chuck; 25. a trough plate; 26. a fixing plate; 27. a tension spring; 28. a third electric push rod; 29. separating the motor; 30. a cover plate; 31. a connecting plate; 32. a rotating electric machine; 33. a rotating roller; 34. placing a plate; 35. a threaded rod; 36. a first loop bar; 37. separating the arc plates; 38. an X-shaped groove; 39. a second loop bar; 40. a sliding groove; 41. a fourth electric push rod; 42. a cylinder; 43. a grid baffle groove; 44. a first guide groove; 45. a first lifting block; 46. a sliding plate; 47. a longitudinal slot; 48. a second lifting block; 49. a second guide groove; 50. an arc-shaped plate.

Detailed Description

The technical scheme of the patent is further described in detail below with reference to the specific embodiments.

Embodiments of the present patent are described in detail below, examples of which are illustrated in the accompanying drawings, wherein the same or similar reference numerals refer to the same or similar elements or elements having the same or similar functions throughout. The embodiments described below by referring to the drawings are exemplary only for explaining the present patent and are not to be construed as limiting the present patent.

In the description of this patent, it should be understood that the terms "center," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like indicate orientations or positional relationships based on the orientation or positional relationships shown in the drawings, merely to facilitate describing the patent and simplify the description, and do not indicate or imply that the devices or elements being referred to must have a particular orientation, be configured and operated in a particular orientation, and are therefore not to be construed as limiting the patent.

In the description of this patent, it should be noted that, unless explicitly stated and limited otherwise, the terms "mounted," "connected," and "disposed" are to be construed broadly, and may be fixedly connected, disposed, detachably connected, disposed, or integrally connected, disposed, for example. The specific meaning of the terms in this patent will be understood by those of ordinary skill in the art as the case may be.

Referring to fig. 1-8, this embodiment provides a forming device for glass cosmetic bottle production, including bottom plate 7 and a plurality of extrusion subassembly, the top of bottom plate 7 is fixed with mounting cylinder 4, the top rotation of mounting cylinder 4 is provided with carousel 3, the setting of a plurality of extrusion subassembly circumference equipartitions is on carousel 3, the extrusion subassembly includes sprocket pair 15, first loop bar 36, two third electric putter 28 and two placing plates 34, two placing plates 34 are all fixed on carousel 3, rotate between two placing plates 34 and be provided with two threaded rods 35, threaded rod 35 is two-way threaded rod, the side of one of them placing plate 34 is fixed with separating motor 29, separating motor 29's output shaft passes through one of them threaded rod 35 of coupling joint, two threaded rod 35 pass through sprocket pair 15 connection, equal threaded connection has two symmetrical separating arc plates 37 on the threaded rod 35, two liang of four separating arc plates 37, the top of every separating arc plates 37 all is fixed with arc piece 19, first loop bar 36 and two third electric putter 28 are all fixed in the top of carousel 3, two third electric putter 28 are all fixed in the top of the first, two third electric putter 28 are located the third electric putter 36 and are provided with the extension spring, two ends of a plurality of arc plates 36 are fixed with arc plates 42, the tip of the cylinder assembly is fixed with one of arc plates 42, the tip of the cylinder assembly is fixed with two ends of arc plates 42 are fixed on the top of the carousel 3, the cylinder assembly is provided with two ends of the arc plates 50, the cylinder assembly is fixed with two ends of the top ends of the cylinder assembly is fixed with one end plate assembly is fixed with 35, the top of the cylinder assembly is provided with the extension plate assembly, and is 50, the cylinder assembly is provided with the top is fixed with the top plate assembly is 50.

The production facility injects the glass droplet after cutting into the inside of a plurality of arc 50, a plurality of arc 50 carry out spacing to the glass droplet, two third electric putter 28 drive extrusion plectane rise, the extrusion plectane rises and drives the glass droplet, simultaneously, the extrusion plectane rises and makes spacing arc piece 20 seal check baffle slot 43, the extrusion plectane rises and makes the glass droplet remove the inside of lifting assembly, part spare is to glass droplet bottom injection air, extrusion glass droplet bottom, afterwards, the air is injected into the glass droplet bottleneck through second intake pipe 5 inside, make the glass droplet preliminary shaping, two third electric putter 28 drive extrusion plectane decline, increase the shaping space, inject the bottleneck inside through second intake pipe 5, make the glass bottle fully shaped, afterwards, lifting assembly releases the locking to the bottleneck, two third electric putter 28 drive extrusion plectane decline, the glass bottle falls into the inside of arc piece 19, part spare drives carousel 3 and rotates, carousel 3 drive two placing plates 34 rotate, two placing plates 34 drive two threaded rods 35 rotate, two threaded rods 35 drive separating arc 37 rotate, separating plate 37 drive the piece 19 and remove the piece 19 and move the piece, move the subassembly and move the arc bottle below, carry out the arc component to move out of the glass bottle, carry the arc component to move the glass bottle, carry out the arc component to move the glass bottle below.

An air inlet is formed in the side face of the mounting cylinder 4, a connecting plate 31 is fixed in the mounting cylinder 4, a rotating motor 32 is fixed below the connecting plate 31, an output shaft of the rotating motor 32 is fixedly connected with the rotary table 3, an air pump is fixed below the rotary table 3, and an air outlet end of the air pump is connected with a second air inlet pipe 5 at a corresponding position through a spring hose; the rotary motor 32 drives the turntable 3 to rotate through the output shaft, and the air pump conveys air to the inside of the second air inlet pipe 5 through the spring hose.

The lifting assembly comprises two vertical plates 6, wherein the two vertical plates 6 are fixed above a bottom plate 7, a U-shaped plate 1 is fixed between the two vertical plates 6, a mounting plate 22 is fixed below the U-shaped plate 1, the mounting plate 22 is fixed between the two vertical plates 6, two symmetrical U-shaped grooves are formed in the mounting plate 22, two second electric push rods 21 are fixed above the U-shaped plate 1, lifting plates 18 are fixed at the ends of the two second electric push rods 21, a cover plate 30 is rotatably arranged on the lifting plates 18, two sealing blocks are fixed below the cover plate 30, the lower parts of the sealing blocks are conical, two first air inlet pipes 2 are arranged above the cover plate 30, the two first air inlet pipes 2 are connected with an external air pipe, a plurality of meshing teeth are formed in the side face of the cover plate 30, a gear motor 12 is fixed above the cover plate 30, a gear 13 is fixed on an output shaft of the gear motor 12, the gear 13 is meshed with the meshing teeth, two bottle body molds 16 are fixed below the mounting plate 22, two round holes are formed in the upper part of the mounting plate 22, two electric push rods 16 are fixed above the mounting plate 22, two first round molds 14 are fixed above the electric push rods 17, and the round body molds 14 are communicated with the round molds 14; the gear motor 12 drives the gear 13 to rotate through the output shaft, the gear 13 drives the cover plate 30 to rotate through the meshing teeth, the cover plate 30 drives the sealing block to move to the upper part of the round hole, the two second electric push rods 21 drive the lifting disc 18 to descend, the lifting disc 18 drives the sealing block to descend, and the sealing block seals the semicircular die 14.

The conveying assembly comprises two supporting plates 8, the two supporting plates 8 are fixed above the bottom plate 7, a groove plate 25 is fixed above the two supporting plates 8, two rotating rollers 33 are rotatably arranged in the groove plate 25, a conveying belt 10 is arranged on the two rotating rollers 33, a conveying motor 9 is fixed on the side face of the groove plate 25, and an output shaft of the conveying motor 9 is connected with one of the rotating rollers 33 through a coupling; the conveying motor 9 drives one of the rotating rollers 33 to rotate through the output shaft, the rotating roller 33 drives the conveying belt 10 to rotate, and the conveying belt 10 conveys the formed glass bottles out of the device.

The moving assembly comprises a fixed plate 26, the fixed plate 26 is L-shaped, the end part of the fixed plate 26 is fixed on the side surface of a groove plate 25, two symmetrical limiting plates 11 are fixed on the side surface of the fixed plate 26, an X-shaped groove 38, two longitudinal grooves 47, two second guide grooves 49 and two first guide grooves 44 are formed in the side surface of the fixed plate 26, the two second guide grooves 49 are respectively communicated with the X-shaped groove 38, the two first guide grooves 44 are respectively communicated with the X-shaped groove 38, the two second guide grooves 49 are respectively located above the first guide grooves 44 at corresponding positions, the two longitudinal grooves 47 are respectively communicated with the second guide grooves 49 and the first guide grooves 44 at corresponding positions, two first lifting blocks 45 are respectively arranged on the two longitudinal grooves 47, the X-shaped groove 38 and the longitudinal grooves 47 are the same in depth, and the depth of the X-shaped groove 38 and the longitudinal grooves 47 are lower than the depth of the second guide grooves 49 and the first guide grooves 44; the X-shaped groove 38, the longitudinal groove 47, the second guide groove 49 and the first guide groove 44 can guide a part of the component, and the first lifting block 45 and the second lifting block 48 can facilitate the movement of the part of the component.

The moving assembly further comprises a fourth electric push rod 41, the fourth electric push rod 41 is fixed below the fixed plate 26, the end part of the fourth electric push rod 41 is fixed with a sliding plate 46, the sliding plate 46 is arranged between the two limiting plates 11 in a sliding mode, a sliding groove 40 is formed above the sliding plate 46, an L-shaped rod 23 is arranged on the sliding groove 40 in a sliding mode, an electric three-jaw chuck 24 is fixed at the end part of the L-shaped rod 23, a second sleeve rod 39 is arranged inside the L-shaped rod 23, a spring is arranged inside the second sleeve rod 39, a diamond block is fixed at the end part of the second sleeve rod 39, and the diamond block is arranged on the X-shaped groove 38, the longitudinal groove 47, the second guide groove 49 and the first guide groove 44 in a sliding mode; the fourth electric push rod 41 drives the sliding plate 46 to lift, the sliding plate 46 drives the L-shaped rod 23 to move through the sliding groove 40, and the L-shaped rod 23 drives the second sleeve rod 39 to move.

The working principle of the invention is as follows:

the gear motor 12 drives the gear 13 to rotate through an output shaft, the gear 13 drives the cover plate 30 to rotate through meshing teeth, the cover plate 30 drives the sealing block to move to the upper part of the round hole, the two second electric push rods 21 drive the lifting disc 18 to descend, the lifting disc 18 drives the sealing block to descend, the sealing block seals the semicircular mould 14, the production equipment injects cut glass drops into the arc plates 50, the arc plates 50 limit the glass drops, the two third electric push rods 28 drive the extrusion circular plate to ascend, the extrusion circular plate ascends to drive the glass drops to ascend, meanwhile, the extrusion circular plate ascends to enable the glass drops to move into the semicircular mould 14, the air pump conveys air into the inside of the second air inlet pipe 5 through a spring hose to extrude the bottoms of the glass drops, then the air is injected into the bottleneck of the glass drops through the second air inlet pipe 5 to enable the glass drops to be primarily molded, the two third electric push rods 28 drive the extrusion circular plate to descend to increase molding space, and the second air inlet pipe 5 is injected into the bottleneck to enable the glass drops to be completely molded;

afterwards, the two first electric push rods 17 shrink, the first electric push rods 17 drive the semicircular molds 14 at corresponding positions to move, the locking of the bottle neck is released, the two third electric push rods 28 drive the extrusion circular plate to descend, the glass bottle falls into the arc-shaped block 19, the rotating motor 32 drives the rotary table 3 to rotate through the output shaft, the rotary table 3 drives the two placing plates 34 to rotate, the two placing plates 34 drive the two threaded rods 35 to rotate, the two threaded rods 35 drive the separating arc plates 37 to rotate, the separating arc plates 37 drive the arc blocks 19 to rotate, the arc blocks 19 drive the glass bottle to move below the electric three-jaw chuck 24, the fourth electric push rods 41 drive the sliding plates 46 to descend, the sliding plates 46 drive the L-shaped rods 23 to move through the sliding grooves 40, the L-shaped rods 23 drive the electric three-jaw chuck 24 to descend, the electric three-jaw chuck 24 is sleeved into the bottle neck, the separating motor 29 drives one of the threaded rods 35 to rotate through the output shaft, and accordingly the two separating arc plates 37 drive the arc blocks 19 to move reversely, and the arc blocks 19 release the limit of the glass bottle 19;

the fourth electric push rod 41 drives the sliding plate 46 to ascend, the sliding plate 46 drives the L-shaped rod 23 to move through the sliding groove 40, the L-shaped rod 23 drives the second sleeve rod 39 to move, the second sleeve rod 39 drives the diamond block to move, the diamond block moves from the first guide groove 44 to the first lifting block 45, the first lifting block 45 moves to the inside of the X-shaped groove 38, the diamond block is prevented from being misplaced at the center of the X-shaped groove 38, the diamond block moves to the inside of the second guide groove 49 through the X-shaped groove 38, meanwhile, the L-shaped rod 23 drives the electric three-jaw chuck 24 to obliquely ascend, the electric three-jaw chuck 24 drives the glass bottle to ascend, the fourth electric push rod 41 drives the sliding plate 46 to descend, the sliding plate 46 drives the L-shaped rod 23 to move through the sliding groove 40, the L-shaped rod 23 drives the second loop bar 39 to move, the second loop bar 39 drives the diamond blocks to move, the diamond blocks move from the second guide grooves 49 to the second lifting blocks 48, and then the second lifting blocks 48 move to the inside of the longitudinal grooves 47, so that the L-shaped rod 23 drives the electric three-jaw chuck 24 to descend, when the bottom of a glass bottle falls onto the conveying belt 10, the electric three-jaw chuck 24 releases locking of the glass bottle, the steps are repeated, the electric three-jaw chuck 24 moves to an initial position, the conveying motor 9 drives one of the rotating rollers 33 to rotate through an output shaft, the rotating roller 33 drives the conveying belt 10 to rotate, and the conveying belt 10 conveys the formed glass bottle out of the equipment.

While the preferred embodiments of the present patent have been described in detail, the present patent is not limited to the above embodiments, and various changes may be made without departing from the spirit of the present patent within the knowledge of those skilled in the art.

Claims

1. The utility model provides a forming device for glass cosmetic bottle production, including bottom plate (7) and a plurality of extrusion subassembly, its characterized in that, the top of bottom plate (7) is fixed with mounting cylinder (4), the top rotation of mounting cylinder (4) is provided with carousel (3), a plurality of extrusion subassembly circumference equipartitions set up on carousel (3), extrusion subassembly includes sprocket pair (15), first loop bar (36), two third electric putter (28) and two place board (34), two place board (34) all fix on carousel (3), rotate between two placing board (34) and be provided with two threaded rods (35), threaded rod (35) are two threaded rods, the side of one of them placing board (34) is fixed with separation motor (29), the output shaft of separation motor (29) passes through shaft coupling connection one of them threaded rod (35), two threaded rod (35) pass through sprocket pair (15) to be connected, equal threaded connection has two symmetrical separation arc plates (37) on threaded rod (35), four separation arc plates (37) are two liang, two liang of groups, the top of each group separation plate (37) is fixed with two electric putter (36) on two third electric putter (28) both sides of arc plates (36), the end parts of the two third electric push rods (28) are fixedly provided with extrusion circular plates, the second air inlet pipe (5) is arranged below the extrusion circular plates, a plurality of grid blocking grooves (43) are formed in the extrusion circular plates, the end parts of the first sleeve rods (36) are fixedly provided with cylinders (42), a plurality of arc plates (50) are fixedly arranged above the cylinders (42), the end parts of the arc plates (50) are fixedly provided with limiting arc blocks (20), tension springs (27) are arranged on the first sleeve rods (36), two ends of the tension springs (27) are respectively connected to a rotary table (3) and the cylinders (42), lifting assemblies and conveying assemblies are arranged above the rotary table (3), and moving assemblies are fixedly arranged above the conveying assemblies.

2. The molding device for glass cosmetic bottle production according to claim 1, wherein the air inlet is formed in the side surface of the mounting cylinder (4), a connecting plate (31) is fixed in the mounting cylinder (4), a rotating motor (32) is fixed below the connecting plate (31), an output shaft of the rotating motor (32) is fixedly connected with the rotary disc (3), an air pump is fixed below the rotary disc (3), and an air outlet end of the air pump is connected with the second air inlet pipe (5) at a corresponding position through a spring hose.

3. The molding device for producing glass cosmetic bottles according to claim 1 or 2, wherein the lifting assembly comprises two vertical plates (6), the two vertical plates (6) are fixed above the bottom plate (7), a U-shaped plate (1) is fixed between the two vertical plates (6), a mounting plate (22) is fixed below the U-shaped plate (1), the mounting plate (22) is fixed between the two vertical plates (6), two symmetrical U-shaped grooves are formed in the mounting plate (22), two second electric push rods (21) are fixed above the U-shaped plate (1), lifting plates (18) are fixed at the ends of the two second electric push rods (21), a cover plate (30) is rotatably arranged on the lifting plates (18), two sealing blocks are fixed below the cover plate (30), two first air inlet pipes (2) are connected with external pipes in a taper mode, a side face of the cover plate (30) is provided with a gear (12) meshed with a plurality of gears (12) of the motor, a plurality of gears (12) meshed with the gears (13) are meshed with the gears (12) of the two output shafts (13) mounted on the cover plate (30), two first electric push rods (17) are fixed above the mounting plate (22), semicircular molds (14) are fixed at the end parts of the first electric push rods (17), and the semicircular molds (14) are communicated with the bottle body molds (16) through round holes.

4. A forming device for glass cosmetic bottle production according to claim 3, characterized in that the conveying assembly comprises two supporting plates (8), the two supporting plates (8) are fixed above the bottom plate (7), a groove plate (25) is fixed above the two supporting plates (8), two rotating rollers (33) are rotatably arranged in the groove plate (25), a conveying belt (10) is arranged on the two rotating rollers (33), a conveying motor (9) is fixed on the side face of the groove plate (25), and an output shaft of the conveying motor (9) is connected with one of the rotating rollers (33) through a coupling.

5. The device for producing glass cosmetic bottles according to claim 4, wherein the moving assembly comprises a fixing plate (26), the fixing plate (26) is in an L shape, the end part of the fixing plate (26) is fixed on the side surface of the groove plate (25), two symmetrical limiting plates (11) are fixed on the side surface of the fixing plate (26), an X-shaped groove (38), two longitudinal grooves (47), two second guide grooves (49) and two first guide grooves (44) are formed on the side surface of the fixing plate (26), the two second guide grooves (49) are respectively communicated with the X-shaped groove (38), the two first guide grooves (44) are respectively communicated with the X-shaped groove (38), the two second guide grooves (49) are located above the first guide grooves (44) at corresponding positions, the two longitudinal grooves (47) are respectively communicated with the second guide grooves (49) and the first guide grooves (44) at corresponding positions, second lifting blocks (48) are respectively arranged on the two longitudinal grooves (47), and the X-shaped grooves (38) are respectively arranged at the same depth as the first lifting blocks (45) and the second lifting blocks (47), and the depth of the two longitudinal grooves (47) is equal to the depth of the first guide grooves (47) and the depth of the two first guide grooves (47) is equal to the depth of the first lifting blocks.

6. The molding device for glass cosmetic bottle production according to claim 5, wherein the moving assembly further comprises a fourth electric push rod (41), the fourth electric push rod (41) is fixed below the fixed plate (26), a sliding plate (46) is fixed at the end of the fourth electric push rod (41), the sliding plate (46) is slidably arranged between the two limiting plates (11), a sliding groove (40) is formed in the upper portion of the sliding plate (46), an L-shaped rod (23) is slidably arranged on the sliding groove (40), an electric three-jaw chuck (24) is fixed at the end of the L-shaped rod (23), a second sleeve rod (39) is arranged inside the L-shaped rod (23), a spring is arranged inside the second sleeve rod (39), diamond-shaped blocks are fixed at the end of the second sleeve rod (39), and the diamond-shaped blocks are slidably arranged on the X-shaped groove (38), the longitudinal groove (47), the second guide groove (49) and the first guide groove (44).