CN204687331U - Blowing machine structural improvement - Google Patents

Abstract

The utility model discloses a kind of blowing machine structural improvement, the top base displacement drive source of the paired quantity driving top base displacement is mainly arranged at the upper direction of top base by it, exerted a force in the relative both sides of top base by the top base displacement drive source of paired quantity, improve the stability of force accordingly.

Description

Blowing machine structural improvement

Technical field

It is relevant that the utility model and plastic cement penetrate the structure of blowing device, especially in regard to a kind of blowing machine structural improvement.

Background technology

Press, blowing machine 10 as Fig. 1 to Fig. 3 is, this blowing machine 10 mainly comprises a fixing board 11, board 11 is fixedly installed a lower base 12, lower base 12 is fixedly installed multiple work station, these work stations are respectively injection molding station, Wen Tiaozhan, blowine and forming station and take out station, and the work station of Fig. 1 to Fig. 3 is injection molding station 13.Blowing machine 10 is defined as lower direction D with the side of the adjoining board of lower base 12 11, be reversed direction U, the lower direction D of board 11 arranges a lower cylinder, this lower cylinder has the lower cylinder piston 141 of a scalable displacement, one end of lower cylinder piston 141 is stretched out lower cylinder and is fixed on board 11, the other end is placed in lower cylinder movablely, accordingly, makes the upper and lower displacement of lower cylinder relative board 11 when bottom cylinder piston 141 stretches.

Lower cylinder more fixed knot unifies towing plate 142 with lower cylinder synchronous shift, and towing plate 142 is more fixedly installed one end of multiple tie-rod 143, the other end of each tie-rod 143 is fixedly installed a fixed head 15 again, and the stage casing of tie-rod 143 is then fixedly installed a top base 16, the lower direction D of top base 16 more rotatably arranges a rotating disk 161, rotating disk 161 arranges multiple transferring members and in rotary manner transferring members can be transferred to the position of corresponding each work station; And the bottle embryo 162 that the transferring members as Fig. 1 ~ Fig. 3 is subject to eck mould spacing; And fixed head 15 being fixedly installed a upper cylinder 151, this upper cylinder 151 drives link one to penetrate core 17, makes injection core 17 can displacement between fixed head 15 and top base 16.

During running, be illustrated in figure 1 the die opening state of off working state, and during for carrying out injection molding work, drive lower cylinder 14, lower cylinder 14 D displacement in downward direction also drives each tie-rod 143 to bottom offset, the top base 16 on tie-rod 143 and fixed head 15 with portion to bottom offset, simultaneously, upper cylinder 151 on fixed head 15 and injection core 17 also synchronous to bottom offset, and when top base 16 is after bottom offset, the bottle embryo 162 on top base 16 enters injection molding station 13 becomes mold closing state; As shown in Figure 2.

Then, then drive upper cylinder 151, then upper cylinder 151 drives injection core 17 to bottom offset, and finally making injection core 17 insert bottle embryo 162 becomes mold closing state, and carries out the work of injection molding in this case; And be arranged at the lower direction D of the lower base 12 of board 11 due to the lower cylinder 14 of blowing machine 10, all the other components are then all positioned on the upper direction U of lower base 12, cannot once complete at the upper direction U of lower base 12 when maintaining, inconvenience when therefore maintaining is high.Similarly, because lower cylinder 14 is arranged at the lower direction D of the lower base 12 of board 11, when there being multiple board 11 side by side, the space of the lower direction D of the lower base 12 of board 11 will significantly be restricted, and the difficulty further increasing maintenance is thus to be improved.

Utility model content

The technical problems to be solved in the utility model is to provide a kind of blowing machine structural improvement, and its main purpose improves the disappearance of general blowing machine maintenance inconvenience.

For solving the problems of the technologies described above, the blowing machine structural improvement that the utility model provides, comprises:

One board, has a table top and a lower space, and being defined as lower direction by described table top towards the direction of lower space, is then oppositely upper direction;

One lower base, is fixedly installed on the table top of described board; And described lower base arranges multiple work station;

Multiple steady arm, one end is fixedly installed in described lower base;

One top base, is set on each steady arm slippingly, and described top base arranges a rotating disk in the one side in lower direction, described rotating disk in lower direction more interval multiple eck mould is set; And multiple port is offered in the position of more corresponding each eck mould on described top base;

One core displacement unit, is fixedly installed on the eck mould upper and lower displacement that described top base can drive the relatively described top base of a core;

One fixture, is fixedly installed on each steady arm, and described fixture is positioned at the upper direction of top base; And

At least two top base displacement drive sources, the both sides described fixture being also positioned at relatively described core displacement unit are fixed in each top base displacement drive source, and each top base displacement drive source links described top base and drives top base displacement.

The top base displacement drive source of the paired quantity driving top base is arranged at the upper direction of top base by the utility model, accordingly in the both sides of top base force drive displacement, improves the stability of drive displacement; And the configuration that top base displacement drive source is arranged at direction on board then can be convenient to again maintenance, improves the convenience of follow-up maintenance.

Accompanying drawing explanation

Fig. 1 is the planar structure schematic diagram of general blowing machine, and is the state of display die sinking;

Fig. 2 is the planar structure schematic diagram of general blowing machine, and is the state of display eck mould and work station matched moulds;

Fig. 3 is the planar structure schematic diagram of general blowing machine, and is the state of display core and eck mould matched moulds;

Fig. 4 is the structure improved stereochemical structure schematic appearance of the utility model blowing machine;

Fig. 5 is the structure improved stereochemical structure sectional view of the utility model blowing machine;

Fig. 6 A is the structure improved planar structure schematic diagram of the utility model blowing machine, and is the view that display top base is positioned at farthest away from each work station;

Fig. 6 B is the close-up schematic view of Fig. 6 A;

Fig. 7 A is the structure improved planar structure schematic diagram of the utility model blowing machine, and is that display eck mould matched moulds is in the view of injection molding work station;

Fig. 7 B is the close-up schematic view of Fig. 7 A;

Fig. 8 A is the structure improved planar structure schematic diagram of the utility model blowing machine, and is that display core matched moulds is in the view of eck mould;

Fig. 8 B is the close-up schematic view of Fig. 8 A.

Wherein description of reference numerals is as follows:

Blowing machine 10 board 11

Lower base 12 injection molding station 13

Lower cylinder 14 lower cylinder piston 141

Towing plate 142 tie-rod 143

Fixed head 15 upper cylinder 151

Top base 16 rotating disk 161

Bottle embryo 162 penetrates core 17

Direction D under upper direction U

Board 20 table top 21

Discharging opening 211 lower space 22

Lower base 30 steady arm 40

Top base 50 rotating disk 51

Turn power source 52 eck mould 53

Port 54 interval box 60

Core displacement unit 70 vertical rod 71

Slide 72 fixed charge method end plate 73

Core displacement drive cylinder 74 cylinder body 741

Piston 742 core 75

Fixture 80 top base displacement drive source 90

Cylinder body 91 piston 92

Work station W injection molding work station W1

Insulation station W2 blow moulding station W3

Direction D under upper direction U

Detailed description of the invention

Below in conjunction with accompanying drawing and detailed description of the invention, the utility model is described in further detail.

For enabling juror have a better understanding and awareness the purpose of this utility model, feature and effect, hereby please coordinate below [brief description of drawingsfig] describe in detail as after.

The structure improved preferred embodiment of blowing machine of the present utility model as shown in Figures 4 to 6, comprises:

One board 20, hollow-core construction also has table top 21 and a lower space 22, and being defined as lower direction D by table top 21 towards the direction of lower space 22, is then oppositely upper direction U; The table top 21 of board 20 is offered a discharging opening 211;

One lower base 30, is fixedly installed on the table top 21 of board 20; And lower base 30 is arranged multiple work station W, each work station W is respectively an injection molding work station W1, insulation station W2 and blow moulding station W3, the injection molding work station W1 of the present embodiment, the position of insulation station W2, blow moulding station W3 and discharging opening 211 become the configuration of sequentially interval an angle of 90 degrees, make the relative blow moulding station W3 of injection molding work station W1, and the position of the relative discharging opening 211 in position of insulation station W2, and the position of insulation station W2 and discharging opening 211 is between injection molding work station W1 and blow moulding station W3;

Multiple steady arm 40, one end is fixedly installed in lower base 30;

One top base 50, be set on each steady arm 40 slippingly, and top base 50 arranges a rotating disk 51 in the one side of lower direction D, top base 50 arranges one to the one side of U up and turns power source 52, this turns power source 52 power and links rotating disk 51 and rotating disk 51 can be driven to rotate, and rotating disk 51 more arranges multiple eck mould 53 in interval at lower direction D, each eck mould 53 sequentially 90 degree, interval configuration and by rotating disk 51 rotate after relatively each work station W and discharging opening 211; And multiple port 54 is offered in the position of more corresponding each eck mould 53 on top base 50;

One interval box 60, is fixed on each steady arm 40, and interval box 60 is positioned at the upper direction U of top base 50;

One core displacement unit 70, comprise multiple vertical rod 71, one slide 72, one fixed charge method end plate 73, one core displacement drive cylinder 74 and a core 75, one end of each vertical rod 71 is fixedly installed on top base 50, slide 72 is set in each vertical rod 71 slippingly, the other end of each vertical rod 71 then fixedly wears and arranges fixed charge method end plate 73, one cylinder body 741 of core displacement drive cylinder 74 is fixedly installed on fixed charge method end plate 73, and core displacement drive cylinder 74 has the piston 742 of a telescopic displacement, one end of piston 742 is placed in core displacement drive cylinder 74 slippingly, the other end passes core displacement drive cylinder 74 and links slide 72 and can drive slide 72 displacement, and core 75 is fixedly installed on slide 72 and be positioned at the lower direction D of slide 72,

One fixture 80, is fixedly installed on each steady arm 40, and fixture 80 is positioned at the upper direction U of top base 50 and interval box 60; And

At least two top base displacement drive sources 90, each top base displacement drive source 90 comprises the piston 92 that a cylinder body 91 and one end are placed in cylinder body 91 movablely respectively, the cylinder body 91 in each top base displacement drive source 90 is fixed on both sides fixture 80 being also positioned at relatively core displacement unit 70, the other end of piston 92 then stretches out cylinder body 91 and links top base 50, and the present embodiment arranges two top base displacement drive sources 90.

Be more than the structure improved structural configuration of the utility model blowing machine and feature, and be illustrated in figure 6 the die opening state of off working state, now, in the piston 92 retraction cylinder body 91 in each top base displacement drive source 90, and top base 50 is positioned at the position farthest away from each work station W; And the piston 742 of the core displacement drive cylinder 74 of each core displacement unit 70 is also the state of retraction cylinder body 741, then namely slide 72 is positioned at the position near fixed charge method end plate 73 by drawing.

And when injection molding work will be carried out, first top base displacement drive source 90 is driven, the piston 92 in top base displacement drive source 90 is stretched out to D downward, then the piston 92 in top base displacement drive source 90 just can drive top base 50 downward to D displacement simultaneously, the corresponding work station W of the eck mould 53 of the lower direction D of top base 50 is finally made to form mold closing, now, the core displacement unit 70 on top base 50 is also synchronous downward to D displacement, as shown in Figure 7; Certainly, when carrying out different work, as long as turn power source 52, make to turn power source 52 and drive rotating disk 51 to rotate, then eck mould 53 just can be transferred to different work station W and carry out different work by rotating disk 51.

Then, drive the core displacement drive cylinder 74 of core displacement unit 70 again, the piston 742 of core displacement drive cylinder 74 stretches out to D downward, when the piston 742 of core displacement drive cylinder 74 stretches out to D downward, the piston 742 of core displacement drive cylinder 74 just can synchronously drive slide 72 downward to D displacement, finally makes the core 75 on slide 72 can complete matched moulds with eck mould 53 near eck mould 53; When eck mould 53 and work station W complete matched moulds, and when core 75 also completes matched moulds with eck mould 53, just injection molding work can be carried out, as shown in Figure 8.

The utility model by by each this work station W, turn power source 52, core displacement drive cylinder 74 and each top base displacement drive source 90 and be all arranged on the upper direction U of the table top 21 of board 20, accordingly, above-listed each mechanism is revealed on the table top 21 of board 20 completely, therefore the table top 21 of board 20 upper direction U Single Maintenance or maintain all components, have and preferably guarantee to keep in good repair convenience;

In addition, the utility model drives the quantity in the top base displacement drive source 90 of top base 50 displacement to be paired quantity, and each top base displacement drive source 90 is arranged at the both sides of core displacement unit 70, can drive in the relative both sides force of top base 50 accordingly, improve the stability driving strength, certainly, under the situation that band dynamic stability improves, also just and then running speed can be improved, enhance productivity and economic benefit.

By specific embodiment, the utility model has been described in detail above, but these are not formed restriction of the present utility model.When not departing from the utility model principle, those skilled in the art can make many distortion and equivalent replacement, and these also should be considered as protection domain of the present utility model.

Claims (7)

1. a blowing machine structural improvement, is characterized in that, comprises:

One board, has a table top and a lower space, and being defined as lower direction by described table top towards the direction of lower space, is then oppositely upper direction;

One lower base, is fixedly installed on the table top of described board; And described lower base arranges multiple work station;

Multiple steady arm, one end is fixedly installed in described lower base;

One top base, is set on each steady arm slippingly, and described top base arranges a rotating disk in the one side in lower direction, described rotating disk in lower direction more interval multiple eck mould is set; And multiple port is offered in the position of more corresponding each eck mould on described top base;

One core displacement unit, is fixedly installed on the eck mould upper and lower displacement that described top base can drive the relatively described top base of a core;

One fixture, is fixedly installed on each steady arm, and described fixture is positioned at the upper direction of top base; And

At least two top base displacement drive sources, the both sides described fixture being also positioned at relatively described core displacement unit are fixed in each top base displacement drive source, and each top base displacement drive source links described top base and drives top base displacement.

2. blowing machine structural improvement as claimed in claim 1, it is characterized in that, each top base displacement drive source comprises the piston that a cylinder body and one end are placed in cylinder body movablely respectively, the cylinder body in each top base displacement drive source is fixed on described fixture, and the other end of piston then stretches out cylinder body and links described top base.

3. blowing machine structural improvement as claimed in claim 1, it is characterized in that, the quantity in described top base displacement drive source is two.

4. blowing machine structural improvement as claimed in claim 1, is characterized in that, described top base up to one side arrange one and turn power source, described in turn power source power and link described rotating disk and drive turntable rotation.

5. blowing machine structural improvement as claimed in claim 1, it is characterized in that, described core displacement unit comprises multiple vertical rod, one slide, one fixed charge method end plate, one core displacement drive cylinder and core, one end of each vertical rod is fixedly installed on described top base, described slide is set in each vertical rod slippingly, the other end of each vertical rod then fixedly wears and arranges described fixed charge method end plate, one cylinder body of described core displacement drive cylinder is fixedly installed on described fixed charge method end plate, and described core displacement drive cylinder has the piston of a telescopic displacement, one end of described piston is placed in core displacement drive cylinder slippingly, the other end passes core displacement drive cylinder and links described slide and drive slide displacement, and described core is fixedly installed on slide and be positioned at the lower direction of slide.

6. blowing machine structural improvement as claimed in claim 1, is characterized in that, the table top of described board is offered a discharging opening; And each work station is respectively an injection molding work station, insulation station and blow moulding station, the position sequentially interval an angle of 90 degrees configuration of described injection molding work station, insulation station, blow moulding station and described discharging opening, and make the relatively described blow moulding station of described injection molding work station, and the position of the relatively described discharging opening in position at described insulation station, and the position of described insulation station and discharging opening is between described injection molding work station and blow moulding station; And each eck mould sequentially configures and relatively each work station and discharging opening after passing through dial rotation at 90 degree, interval.

7. blowing machine structural improvement as claimed in claim 1, it is characterized in that, each steady arm is more fixedly installed an interval box, described interval box is positioned at the upper direction of top base, and described fixture is positioned at the upper direction of interval box.