CN214027158U - Stable in structure's blowing machine - Google Patents

Abstract

The utility model discloses a stable in structure's blowing machine, which comprises a frame, the left side fixed gate, the right side fixed gate, the left side dodge gate, right side dodge gate and sliding formwork frame, the door guide rail is installed to the front end top of frame, the door slider is all installed with the upper end of right side dodge gate to the upper end of left side dodge gate, the door slider slides on the door guide rail, the sliding formwork cylinder is installed to the lower extreme of sliding formwork frame, the drive end of sliding formwork cylinder is connected with the front mould arm, the stiff end of sliding formwork cylinder is connected with the back mould arm, the front mould arm all articulates on the sliding formwork frame with the back mould arm, the upper end of front mould arm articulates there is the front formwork, the upper end of back mould arm articulates there is the back formwork, the front formwork all slides on the sliding formwork frame along the horizontal direction with the back formwork, the side of frame still is provided with the labeller. In this stable in structure's blowing machine, mainly used production 4L capacity's bottle, the dodge gate will be opened from both sides pulling parallel, and the template is evenly atress in the structure, and overall structure's roughness is high, long service life, still attaches the mark function simultaneously.

Description

Stable in structure's blowing machine

Technical Field

The utility model relates to a technical field of blowing machine especially relates to a stable in structure's blowing machine.

Background

A blow molding machine is a plastic processing machine. After the liquid plastic is ejected, the plastic is blown into a shaped cavity by the force of the wind blowing out of the machine, which is called a blow molding machine, to produce the product.

In present blowing machine, the dodge gate all opens to the outside arc, and occupation place is more, and template structure atress is inhomogeneous moreover, holistic poor stability, and life is short, and the function is imperfect.

SUMMERY OF THE UTILITY MODEL

The utility model discloses an aim at: the blow molding machine with a stable structure is provided to solve the problems in the prior art.

To achieve the purpose, the utility model adopts the following technical proposal:

a blow molding machine with stable structure comprises a frame, a left fixed door, a right fixed door, a left movable door, a right movable door and a mold moving frame, wherein the left fixed door and the right fixed door are respectively and fixedly arranged at two sides of the front end of the frame, a door guide rail is arranged above the front end of the frame, door sliders are arranged at the upper end of the left movable door and the upper end of the right movable door, the door sliders slide on the door guide rails, a mold moving cylinder is arranged at the lower end of the mold moving frame, the driving end of the mold moving cylinder is connected with a front mold arm, the fixed end of the mold moving cylinder is connected with a rear mold arm, the front mold arm and the rear mold arm are both hinged on the mold moving frame, a front mold plate is hinged at the upper end of the front mold arm, a rear mold plate is hinged at the upper end of the rear mold arm, the front mold plate and the rear mold plate both slide on the mold moving frame along the horizontal direction, the side of the rack is also provided with a labeling machine, and a labeling arm of the labeling machine extends into the space between the front template and the rear template.

As a preferred technical scheme, install the die head in the frame, the die head includes master die head frame, thick jar group, thick jar control panel and mould mouth adjustment seat, thick jar group is located the top of master die head frame, the drive end of thick jar group is connected with thick jar fly leaf, the below of thick jar fly leaf with thick jar control panel is connected, thick jar control panel with install thick jar adjustment seat between the thick jar fly leaf, the lower extreme of thick jar control panel is connected with thick jar movable rod, thick jar movable rod runs through be connected to behind the master die head frame mould mouth adjustment seat.

As a preferable technical scheme, a main electric heating sheet is coated on the outer side of the main die head frame, and a main electric heating platen is fixedly mounted on the outer side of the main electric heating sheet.

As a preferable technical solution, the die head includes a die head adjusting joint, a die head cylinder and a main layer flow control block, the die head adjusting joint is installed at the lower end of the main die head frame, the main layer flow control block extends from the inside of the die head adjusting joint to the outside, and two ends of the die head cylinder are respectively connected between the die head adjusting joint and the die nozzle adjusting seat.

As a preferred technical scheme, the upper end of the main die head frame is connected with a die head seat plate, a wire material pipe is installed on the die head seat plate, the lower end of the wire material pipe is connected to the side wall of the die head cylinder, a feeding connector is further installed at the lower end of the wire material pipe, a sub-layer flow control block is arranged on the side edge of the feeding connector, an outer die head is arranged in the die head cylinder, and a die head core is further arranged inside the outer die head.

As a preferable technical scheme, a ferrule electric heating sheet is arranged on the outer side wall of the die head cylinder in a surrounding manner, and a die head heat insulation plate is arranged between the die head seat plate and the main die head frame.

As a preferred technical scheme, one side of the main die head frame is connected with an outer layer feeding connection pipe, and the rear end of the main die head frame is connected with a main feeding connection pipe.

As a preferred technical scheme, an air blowing plate is installed above the die moving frame, an air blowing cylinder is installed on the air blowing plate, and a driving end of the air blowing cylinder is connected with an air blowing nozzle.

As a preferred technical scheme, a die carrier guide rail is arranged at the front end of the frame, a die carrier sliding block is installed at the lower end of the die carrier moving frame, and the die carrier sliding block slides on the die carrier guide rail.

As a preferred technical scheme, bottle moving manipulators are arranged on two sides of the rack, suction nozzles are arranged on the bottle moving manipulators, and conveying tracks are arranged at the rear end of the rack.

The utility model has the advantages that: the stable structure blow molding machine has the advantages that the movable door can be pulled from two sides to be opened in parallel, the template is stressed uniformly in the structure, the integral structure is high in flatness and long in service life, and the labeling function is attached.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and examples.

FIG. 1 is a schematic diagram of the overall construction of a structurally stabilized blow molding machine according to an exemplary embodiment;

FIG. 2 is a partial block diagram of a structurally stabilized blow molding machine according to an exemplary embodiment;

FIG. 3 is an enlarged view of a portion of FIG. 2 at A;

FIG. 4 is a schematic structural view of a mold transfer part according to an embodiment;

FIG. 5 is a schematic structural view of a glue injection site according to an embodiment;

FIG. 6 is a schematic structural diagram of an air blowing portion according to an embodiment;

FIG. 7 is a schematic diagram of a first configuration of a die site according to an embodiment;

FIG. 8 is a schematic diagram of a second configuration of a die site according to an embodiment;

FIG. 9 is a schematic view of a partial structure of a die site according to an embodiment.

In fig. 1 to 9:

1. a main die head frame; 2. a thick cylinder group; 3. a thick cylinder control plate; 4. a die nozzle adjusting seat; 5. adjusting a joint of the die head; 6. a die head cylinder; 7. a main layer flow control block; 8. a main electric hot-pressing plate; 9. a thick cylinder movable plate; 10. a thick cylinder movable rod; 11. a die head seat plate; 12. a wire tube; 13. a feeding joint; 14. a sub-layer flow control block; 15. an outer layer die head; 16. a die core; 17. a ring is sleeved on the electric heating sheet; 18. a die head heat insulation plate; 19. a thick cylinder adjusting seat; 20. feeding a connecting pipe on the outer layer; 21. feeding a flange on the outer layer; 22. a main feeding pipe connection; 23. a material net main body; 24. a wire drive motor; 25. a wire screw; 26. a wire hopper; 27. a frame; 28. a left side fixed door; 29. a right side fixed door; 30. a left side movable door; 31. a right movable door; 32. moving the die frame; 33. a door guide rail; 34. a door slider; 35. a mold moving cylinder; 36. a front mold arm; 37. a rear mold arm; 38. a front template; 39. a rear template; 40. a labeling machine; 41. a blowing plate; 42. a blowing cylinder; 43. an air blowing nozzle; 44. a mold frame guide rail; 45. a mould frame slide block; 46. a bottle moving manipulator; 47. a suction nozzle; 48. a conveying track; 49. a leak detection weighing machine; 50. feeding a material pipe on the outer layer; 51. a die head.

Detailed Description

The technical solution of the present invention is further explained by the following embodiments with reference to the accompanying drawings.

As shown in fig. 1 to 9, in this embodiment, a blow molding machine with a stable structure includes a frame 27, a left fixed door 28, a right fixed door 29, a left movable door 30, a right movable door 31, and a mold moving frame 32, where the left fixed door 28 and the right fixed door 29 are respectively and fixedly installed at two sides of a front end of the frame 27, a door guide rail 33 is installed above a front end of the frame 27, door sliders 34 are installed at an upper end of the left movable door 30 and an upper end of the right movable door 31, the door sliders 34 slide on the door guide rails 33, a mold moving cylinder 35 is installed at a lower end of the mold moving frame 32, a driving end of the mold moving cylinder 35 is connected with a front mold arm 36, a fixed end of the mold moving cylinder 35 is connected with a rear mold arm 37, the front mold arm 36 and the rear mold arm 37 are both hinged to the mold moving frame 32, an upper end of the front mold arm 36 is hinged to a front mold plate 38, the upper end of the rear mold arm 37 is hinged with a rear mold plate 39, the front mold plate 38 and the rear mold plate 39 both slide on the mold moving frame 32 along the horizontal direction, a labeling machine 40 is further arranged on the side edge of the frame 27, and a labeling arm of the labeling machine 40 extends between the front mold plate 38 and the rear mold plate 39.

In this stable in structure's blowing machine, left side fixed door 28, right side fixed door 29, left side dodge gate 30 and right side dodge gate 31 protect the inner structure jointly, when needs are opened, only need with left side dodge gate 30 is to the left side pulling, right side dodge gate 31 is to the right side pulling can, rely on door slider 34 with the sliding door is slided to the effect of door guide rail 33, and is more convenient.

Moreover, the labeling machine 40 extends a labeling arm into a space between the front mold plate 38 and the rear mold plate 39 in advance to perform labeling in the cavity, then the mold moving frame 32 brings the front mold plate 38 and the rear mold plate 39 to a position below the mold head 51, the mold moving cylinder 35 controls the front mold arm 36 and the rear mold arm 37 to rotate at a certain angle respectively, the front mold plate 38 and the rear mold plate 39 move horizontally to approach each other, then the mold head 51 performs glue injection, and the label is directly molded at the position where the bottle body is molded.

The die head 51 is mounted on the frame 27, the die head 51 comprises a main die head frame 1, a thick cylinder group 2, a thick cylinder control plate 3, a die nozzle adjusting seat 4, a die head adjusting joint 5, a die head cylinder 6 and a main layer flow control block 7, a main heating plate is wrapped on the outer side of the main die head frame 1, a main heating plate 8 is fixedly mounted on the outer side of the main heating plate, the thick cylinder group 2 is positioned above the main die head frame 1, a thick cylinder movable plate 9 is connected to the driving end of the thick cylinder group 2, the lower side of the thick cylinder movable plate 9 is connected with the thick cylinder control plate 3, a thick cylinder movable rod 10 is connected to the lower end of the thick cylinder control plate 3, the thick cylinder movable rod 10 penetrates through the main die head frame 1 and then is connected to the die nozzle adjusting seat 4, the die head adjusting joint 5 is mounted at the lower end of the main die head frame 1, and the main layer flow control block 7 extends out of the die head adjusting joint 5, the die head comprises a die head cylinder 6, a die head adjusting joint 5, a die nozzle adjusting seat 4, a die head seat plate 11, a wire pipe 12, a feeding joint 13, a sub-layer flow control block 14, an outer die head 15 and a die head core 16, wherein the two ends of the die head cylinder 6 are connected between the die head adjusting joint 5 and the die nozzle adjusting seat 4 respectively, the upper end of a main die head frame 1 is connected with the die head seat plate 11, the wire pipe 12 is installed on the die head seat plate 11, the lower end of the wire pipe 12 is connected to the side wall of the die head cylinder 6, the lower end of the wire pipe 12 is further provided with the feeding joint 13, the side edge of the feeding joint 13 is provided with the sub-layer flow control block 14, the die head cylinder 6 is internally provided with the outer die head 15, and the inner part of the outer die head 15 is further provided with the die head core 16.

The main material falls into the die head cylinder 6 after being heated by the main heating sheet from the main die head frame 1, is guided into the die through the die head core 16, and simultaneously, the strand falls from the strand pipe 12 and enters the outer layer die head 15 through the feeding connector 13, so that the strand supplements and forms the main material.

In the whole process, the thick cylinder group 2 controls the thick cylinder movable plate 9 to move downwards, the thick cylinder movable plate 9 controls the thick cylinder control plate 3 to move downwards, so that the thick cylinder movable rod 10 pushes the die nozzle adjusting seat 4 to move to a die for injection molding, the wire pipe 12 also inputs wires at the same time, and the thick cylinder movable plate 9 ensures that the whole structure is stable and heavy, so that the positioning is accurate, and the main layer flow control block 7 and the auxiliary layer flow control block 14 control the flow of the main material and the wire respectively, and the control is convenient.

A ferrule electric heating sheet 17 is arranged on the outer side wall of the die head cylinder 6 in a surrounding mode.

The main material and the wire material are continuously heated by the ferrule electric heating sheet 17.

A die head heat insulation plate 18 is arranged between the die head base plate 11 and the main die head frame 1.

Due to the die head heat insulation plate 18, when the interior of the main die head frame 1 is heated, the operation of the thick cylinder group 2 above the main die head frame is not influenced.

And a thick cylinder adjusting seat 19 is arranged between the thick cylinder control plate 3 and the thick cylinder movable plate 9.

Wherein the thick cylinder adjustment seat 19 is present to add weight to the overall structure.

Specifically, an outer layer feeding connecting pipe 20 is connected to one side of the main die head frame 1, an outer layer feeding flange 21 is installed at one end, far away from the main die head frame 1, of the outer layer feeding connecting pipe 20, and the outer layer feeding flange 21 is connected with an outer layer feeding pipe; the rear end of the main die head frame 1 is connected with the main feeding connecting pipe 22, and a material net main body 23 is arranged between the main feeding connecting pipe 22 and the main die head frame 1.

The main material enters the main die head frame 1 from the main feeding connecting pipe 22, and the outer layer material carries out feeding treatment on the outer side of the main material from the outer layer feeding connecting pipe 20.

The upper end of the wire material pipe 12 is provided with a wire driving motor 24, the driving end of the wire driving motor 24 is connected with a wire screw 25, and the wire screw 25 is positioned inside the wire material pipe 12.

The wire driving motor 24 controls the wire screw 25 to rotate, thereby controlling the falling of the wire material.

One side of the wire tube 12 is connected with a wire hopper 26.

The strands are fed from the strand hopper 26.

An air blowing plate 41 is installed above the mold moving frame 32, an air blowing cylinder 42 is installed on the air blowing plate 41, and an air blowing nozzle 43 is connected to the driving end of the air blowing cylinder 42.

When the mold moving frame 32 moves to the position below the air blowing plate 41, the air blowing cylinder 42 controls the air blowing nozzle 43 to close to the hole between the front template 38 and the rear template 39 for air blowing, so that the colloid inside is formed into a bottle shape.

The front end of the frame 27 is provided with a mould frame guide rail 44, the lower end of the mould moving frame 32 is provided with a mould frame sliding block 45, and the mould frame sliding block 45 slides on the mould frame guide rail 44.

The mold moving frame 32 is moved using the mold frame guide rail 44 and the mold frame slider 45, and the processes are continuously circulated between labeling, glue injection and air blowing.

Bottle moving manipulators 46 are arranged on two sides of the rack 27, suction nozzles 47 are arranged on the bottle moving manipulators 46, and conveying rails 48 are arranged at the rear end of the rack 27.

After the blowing is completed, the front mold plate 38 is separated from the rear mold plate 39, and the bottle moving robot 46 takes out the bottles by using the suction nozzle 47 and places the bottles on the conveying rail 48 to be conveyed out.

Further, a leak detection weighing machine 49 (patent publication No. CN 209589363U) is provided at the end of the conveying rail 48.

It should be noted that the above embodiments are only preferred embodiments of the present invention and the technical principles applied, and any changes or substitutions which can be easily conceived by those skilled in the art within the technical scope of the present invention are covered by the protection scope of the present invention.

Claims (10)

1. A blowing machine with stable structure is characterized by comprising a frame, a left fixed door, a right fixed door, a left movable door, a right movable door and a mold moving frame, wherein the left fixed door and the right fixed door are respectively and fixedly arranged at two sides of the front end of the frame, a door guide rail is arranged above the front end of the frame, a door slider is arranged at the upper end of the left movable door and the upper end of the right movable door, the door slider slides on the door guide rail, a mold moving cylinder is arranged at the lower end of the mold moving frame, the driving end of the mold moving cylinder is connected with a front mold arm, the fixed end of the mold moving cylinder is connected with a rear mold arm, the front mold arm and the rear mold arm are hinged on the mold moving frame, a front mold plate is hinged at the upper end of the front mold arm, a rear mold plate is hinged at the upper end of the rear mold arm, the front mold plate and the rear mold plate slide on the mold frame along the horizontal direction, the side of the rack is also provided with a labeling machine, and a labeling arm of the labeling machine extends into the space between the front template and the rear template.

2. The structurally stable blow molding machine according to claim 1, wherein the frame is provided with a die head, the die head comprises a main die head frame, a thick cylinder group, a thick cylinder control plate and a die nozzle adjusting seat, the thick cylinder group is located above the main die head frame, a thick cylinder movable plate is connected to a driving end of the thick cylinder group, the thick cylinder movable plate is connected to the thick cylinder control plate below, the thick cylinder adjusting seat is installed between the thick cylinder control plate and the thick cylinder movable plate, a thick cylinder movable rod is connected to a lower end of the thick cylinder control plate, and the thick cylinder movable rod penetrates through the main die head frame and then is connected to the die nozzle adjusting seat.

3. The blow molding machine according to claim 2, wherein the main mold frame is covered with a main heating sheet, and a main heating platen is fixedly mounted on the outer side of the main heating sheet.

4. The structurally stable blow molding machine of claim 2, wherein said die head includes a die head adjusting adapter, a die head cylinder and a primary layer flow control block, said die head adjusting adapter is mounted at the lower end of said primary die head frame, said primary layer flow control block extends from the inside to the outside of said die head adjusting adapter, and two ends of said die head cylinder are respectively connected between said die head adjusting adapter and said die nozzle adjusting seat.

5. The structurally stable blow molding machine according to claim 4, characterized in that a die head seat plate is connected to the upper end of the main die head frame, a wire tube is mounted on the die head seat plate, the lower end of the wire tube is connected to the side wall of the die head cylinder, a material inlet joint is further mounted at the lower end of the wire tube, a sub-layer flow control block is arranged on the side edge of the material inlet joint, an outer die head is arranged in the die head cylinder, and a die head core is further arranged in the outer die head.

6. A structurally stable blow molding machine according to claim 5 wherein ferrule glow packs are circumferentially disposed on the outside walls of said die cylinder and die insulation panels are disposed between said die base plate and said main die frame.

7. The structurally stable blow molding machine according to claim 2, wherein an outer layer material feeding connection pipe is connected to one side of the main die head frame, and a main material feeding connection pipe is connected to a rear end of the main die head frame.

8. The structurally stable blow molding machine according to claim 1, wherein a blowing plate is mounted above the mold moving frame, a blowing cylinder is mounted on the blowing plate, and a blowing air nozzle is connected to a driving end of the blowing cylinder.

9. The structurally stable blow molding machine according to claim 1, wherein a mold frame guide rail is arranged at the front end of the frame, a mold frame sliding block is installed at the lower end of the mold moving frame, and the mold frame sliding block slides on the mold frame guide rail.

10. The structurally stable blow molding machine according to claim 1, wherein bottle moving manipulators are arranged on two sides of the machine frame, suction nozzles are arranged on the bottle moving manipulators, and conveying rails are arranged at the rear end of the machine frame.

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