CN208378706U - Dust-protection type bottle die - Google Patents

Abstract

The utility model relates to glass containers to make mould applications, disclose a kind of dust-protection type bottle die, including rack, upper die and lower die, upper die and lower die slidably connect gear oralia, sliding slot is provided in opening, clamping plate is slidably connected in sliding slot, clamping plate side is provided with lozenges, it is provided with and channel in gear oralia, negative pressure cover is fixed in rack, negative pressure blade is rotatably connected in negative pressure cover, the first hose is communicated between negative pressure cover and channel, connecting tube is slidably connected in rack, intubation is slidably connected in connecting tube, one end of intubation is taper, it is fixed in rack and blows machine, it blows and is communicated with the second hose between machine and connecting tube, the first tapered bar is fixed in connecting tube, the second tapered bar is fixed on gear oralia；Compared with prior art, this programme ensure that bottle is clean by the setting of gear oralia and negative pressure blade etc., also reduce cleaning burden；It is arranged by the gearing of gear oralia and connecting tube, is operated simpler, conveniently.

Description

Dust-protection type bottle die

Technical field

The utility model relates to glass containers to make mould applications, in particular to a kind of dust-protection type bottle die.

Background technique

Currently, first glass raw material is melted through high temperature during making bottle, then by glass raw material liquid It is cast in first product mold, anneals after cooling down, then first product is put into blowing mold, using machine is blown, first product is blown Finished product bottle is made.The wine bottle mouth position of existing blowing mold generally be open wide setting, not to first product carry out blowing or Person's blowing finishes, and bottle mouth is to be in communication with the outside, and extraneous dust is easily advanced into bottle, so that gathering dust in bottle And become unclean, to increase the burden of cleaning.

In order to solve problem above, the utility model patent that Chinese Patent Application No. is 201720859529.8, discloses A kind of Novel wine bottle mold, including bottle die body are equipped with bottle die slot, one end of bottle die slot in bottle die body Pedestal seal groove is installed, bottle neck mould is installed above the bottle die slot other end, Bottle-mouth die is installed in bottle neck mould Have slot, preform mould support plate is installed above bottle neck mould slot, the middle position in preform mould support plate, which is provided with, wears Hole, is equipped with preform mould in preform mould support plate, and the side of bottle die body is equipped with card slot, bottle die body it is another Side is equipped with clamp.Preform mould, preform mould support plate, bottle neck mould and the bottle die body of above scheme are detachably to tie Structure is compared by disassembly and is easily installed, is convenient to clean, prevent dust from entering, ensure that the cleaning of bottle.

Above scheme is solved and existing in the prior art enter dust from bottle mouth and make by the setting of bottle neck mould The dirty problem of bottle, but above scheme there is problems: and bottle neck mould is removably mounted on bottle die body, is needed When blowing, also need to disassemble bottle neck mould, it is more inconvenient, and when use is blown machine and blown to first product, outside Boundary's air will carry dust and enter in bottle, still can make it is dirty in bottle, cleaning burden it is still larger.

Utility model content

The utility model is intended to provide one kind without dismantling bottle neck mould, will prevent dust from entering in bottle, reduce Clean the dust-protection type bottle die of burden.

Dust-protection type bottle die in this programme, including rack, upper die and lower die, upper die and lower die are slidably connected at rack On, mold slots are formed between upper die and lower die, upper die and lower die, which are located at the position of bottle mouth, slidably connects gear oralia, gear It is provided with opening on oralia, sliding slot is provided in opening, clamping plate is slidably connected in sliding slot, is connected between clamping plate and sliding slot bottom It moves spring, clamping plate is provided with lozenges far from the side of lower die, keeps off in oralia the channel being provided with open communication, is fixed in rack Negative pressure cover is rotatably connected to negative pressure blade in negative pressure cover, air outlet is provided on negative pressure cover, is communicated between negative pressure cover and channel One hose slidably connects connecting tube in rack, and intubation is slidably connected in connecting tube, is connected between intubation and connecting tube tube bottom There is the first spring, being intubated close to one end of gear oralia is the taper cooperated with clamping plate lozenges, is fixed in rack and blows machine, blows machine It is communicated with the second hose between connecting tube, the first tapered bar is fixed in connecting tube, keeps off on oralia and is fixed with the second tapered bar, first Tapered bar is connected with second spring between the second tapered bar and rack for offseting with the second tapered bar.

The technical principle of this programme are as follows: rack plays the role of the entire mold of support, and first product is put into upper mold under In mold slots between mould, gear oralia will close the bottleneck of first product, prevent dust from entering in bottle, when needing to blow, lead to It crosses and connecting tube is pushed to move to close to the direction of gear oralia, so that the first tapered bar offsets with the second tapered bar, continue to press on connecting tube, Intubation offsets with gear oralia wooden partition, and intubation retracts into connecting tube, and the first spring will shrink storage power, utilize the first tapered bar With the interaction between the second tapered bar, the first tapered bar will push the second tapered bar upward sliding, and the second tapered bar will drive and keep off oralia Upward sliding utilizes negative pressure blade at this time, so that forming negative pressure in negative pressure cover, opening will be from extraneous sucking gas to gear oralia It in channel, and enters in negative pressure cover by the first hose, is finally flowed out from the air outlet of negative pressure cover, so that the opening of gear oralia The purging of wind is constantly passed through at place, prevents opening from gathering dust.

Gear oralia continues to slide up, and is connected to until being open with first product bottleneck, intubation will offset with clamping plate, utilize first The elastic force of spring, the first spring will will push intubation push clamping plate will opening open, intubation continue to slide, it will by opening into Enter into bottleneck, stops the rotation of negative pressure blade at this time, when intubation is by opening, because negative pressure blade does not stop operating completely, opening It is inside still within negative pressure, air can still be flowed by being open into channel, and intubation opens the air that clamping plate is flowed into opening It will be flowed into channel, to prevent outside air from entering in bottleneck, to guarantee clean in bottle；Then starting blows machine to first Finished product is blown, after being blow molded into finished product, then to the direction slip nipple far from gear oralia, when intubation is skidded off from opening, Negative pressure blade is recycled, so that re-forming negative pressure in negative pressure cover, the air that intubation opening clamping plate is flowed into opening will pass through again Opening is flowed into channel, so that bottleneck be prevented to contact with ambient atmos, prevents dust from entering in bottle, ensure that bottle is dry Only, cleaning burden is reduced.

Compared with prior art, this programme has the beneficial effect that

1, this programme, can be when opening be connected to bottleneck by the setting of gear oralia and negative pressure blade etc., and be open interior formed No matter negative pressure is intubated insertion opening or extracts opening, and outside air enters in opening, can by opening by channel and First hose enters in negative pressure cover, enters in bottle to prevent air from carrying dust, guarantees that bottle is clean, also reduces clear Wash burden.

2, this programme is arranged by the gearing of gear oralia and connecting tube, disassembles without that will keep off oralia, can be to bottle It is blown, operates simpler, conveniently, improve the efficiency of blowing operation.

Further, sliding slot includes upper hopper chute and gliding groove, and clamping plate includes upper clamp plate and lower clamp plate, and interlocking spring includes third Spring and the 4th spring, upper clamp plate are slidably connected in upper hopper chute, and third spring is connected between upper clamp plate and upper hopper chute bottom, Lower clamp plate is slidably connected in gliding groove, and the 4th spring is connected between lower clamp plate and downslide trench bottom, upper clamp plate and lower clamp plate It offsets, the side of upper clamp plate and lower clamp plate far from lower die is provided with stress wedge surface, and two stress wedge surface settings are in upper clamp plate under At the position that clamping plate offsets, the tapered end of two stress wedge surfaces and intubation is equipped with.When being intubated insertion opening, intubation will be pushed Upper clamp plate and lower clamp plate move toward one another, and upper clamp plate and lower clamp plate will be opened being open, and intubation will be inserted into bottleneck, and upper clamp plate is under The setting of clamping plate, when intubation is contacted with upper clamp plate and lower clamp plate, upper clamp plate and lower clamp plate move simultaneously, so that intubation can be faster Ground is inserted into bottleneck, saves the time of blowing operation, improves the efficiency of whole operation.

Further, motor is fixed on negative pressure cover, negative pressure blade is fixed on the output shaft of motor.Start motor, negative pressure Blade can be rotated constantly, to improve the degree of automation of entire mold.

Further, the first button that gear oralia bottom offsets for closing motor, gear oralia offset with the first button, on The second button for closing motor is installed, upper clamp plate with the second button for offseting in sliding slot bottom.Gear oralia is transported upwards Dynamic, gear oralia will be separated with the first button, and motor will will start, and negative pressure blade will can rotate, so that forming negative pressure in negative pressure cover； When being inserted into opening, intubation will first push upper clamp plate and the second button contacts, and motor also will start, and negative pressure blade also can Rotation, negative pressure cover is interior to realize negative pressure.

Further, lower die, which is located at the position of gear oralia opening, is provided with groove.The setting of groove, guarantee opening not with bottleneck When connection, in opening there is enough air to circulate.

Further, cylinder is fixed in rack, the output shaft of cylinder is fixedly connected with connecting tube.Start cylinder, cylinder will Connecting tube can be driven reciprocally to slide, to further improve the degree of automation of whole device.

Detailed description of the invention

Fig. 1 is a kind of schematic diagram of dust-protection type bottle die of the utility model embodiment.

Specific embodiment

It is further described below by specific embodiment:

Appended drawing reference in Figure of description includes: upper mold 1, lower die 2, gear oralia 3, the 4th spring 4, the second tapered bar 5, the One hose 6, negative pressure cover 7, negative pressure blade 8, motor 9, second spring 10, cylinder 11, the first tapered bar 12, connecting tube 13, intubation 14, Second hose 15 blows machine 16, the second button 17, opening 18, lower clamp plate 19, the first button 20, groove 21, the first spring 22.

Embodiment is substantially as shown in Fig. 1: dust-protection type bottle die, including rack, upper mold 1 and lower die 2, and upper mold 1 is under Mould 2 is slidably connected on the rack, and mold slots are formed between upper mold 1 and lower die 2, and upper mold 1 and lower die 2 are located at the position of bottle mouth Place slidably connects gear oralia 3, keeps off on oralia 3 and is provided with opening 18, and lower die 2 is provided with recessed at the position of gear oralia 3 opening 18 Slot 21, opening 18 in be provided with sliding slot, clamping plate is slidably connected in sliding slot, gearing spring is connected between clamping plate and sliding slot bottom, Sliding slot includes upper hopper chute and gliding groove, and clamping plate includes upper clamp plate and lower clamp plate 19, and interlocking spring includes third spring and the 4th bullet Spring 4, upper clamp plate is slidably connected in upper hopper chute, and third spring is connected between upper clamp plate and upper hopper chute bottom, and lower clamp plate 19 is sliding Dynamic to be connected in gliding groove, the 4th spring 4 is connected between lower clamp plate 19 and downslide trench bottom, upper clamp plate and 19 phase of lower clamp plate It supports, upper clamp plate and 19 left side of lower clamp plate are provided with stress wedge surface, and two stress wedge surface settings offset in upper clamp plate and lower clamp plate 19 Position at, two stress wedge surfaces and be intubated 14 tapered end be equipped with, keep off oralia 3 in be provided with opening 18 be connected to lead to Road is welded with negative pressure cover 7 in rack, negative pressure blade 8 is rotatably connected in negative pressure cover 7, has been bolted electricity on negative pressure cover 7 Machine 9,8 flat key of negative pressure blade are connected on the output shaft of motor 9, air outlet are provided on negative pressure cover 7, between negative pressure cover 7 and channel It is communicated with the first hose 6, the first button 20 that gear 3 bottom of oralia offsets for closing motor 9 keeps off oralia 3 and the first button 20 offset, and the second button 17 for closing motor 9 is equipped in upper hopper chute bottom, and upper clamp plate is used for and 17 phase of the second button It supports, connecting tube 13 is slidably connected in rack, cylinder 11, the output shaft and connecting tube of cylinder 11 have been bolted in rack 13 are bolted to connection, and intubation 14 is slidably connected in connecting tube 13, is connected between intubation 14 and 13 tube bottom of connecting tube First spring 22,14 right ends of intubation are the taper cooperated with clamping plate lozenges, have been bolted in rack and have blown machine 16, have blown machine It is communicated with the second hose 15 between 16 and connecting tube 13, is welded with the first tapered bar 12 in connecting tube 13, keeps off on oralia 3 and is welded with the Two tapered bars 5, the first tapered bar 12 are connected with second spring 10 between second tapered bar 5 and rack for offseting with the second tapered bar 5.

First product to be put into the mold slots between upper mold 1 and lower die 2, gear oralia 3 will close the bottleneck of first product, When needing to blow, starting cylinder 11, cylinder 11 pushes connecting tube 13 to move right, and the first tapered bar 12 will offset with the second tapered bar 5, Connecting tube 13 is continued to press on, intubation 14 offsets with gear 3 wooden partition of oralia, and intubation 14 retracts into connecting tube 13, the first spring 22 will shrink storage power, and the first tapered bar 12 will push 5 upward sliding of the second tapered bar, and the second tapered bar 5 will drive gear oralia 3 to slide up Dynamic, gear 3 bottom of oralia will be separated with the first button 20, and negative pressure blade 8 will rotate, and negative pressure, opening 18 will be formed in negative pressure cover 7 By out of extraneous sucking gas to the channel of gear oralia 3, gas enters in negative pressure cover 7 by the first hose 6, finally from negative pressure The air outlet outflow of cover 7, keeps off at the opening 18 of oralia 3 and constantly passes through the purging of wind, prevents from gathering dust at opening 18.

Gear oralia 3 continues to slide up, and until opening 18 is connected to first product bottleneck, intubation 14 will offset with clamping plate, benefit With the elastic force of the first spring 22, the first spring 22 will will push intubation 14 and upper clamp plate and lower clamp plate 19 is pushed to open opening 18, Upper clamp plate will also offset with the second button 17, and motor 9 will be out of service, and negative pressure blade 8 will stop operating at this time, intubation 14 after Continuous sliding, intubation 14 will pass through opening 18 and enter in bottleneck, when intubation 14 is by opening 18, because negative pressure blade 8 is not complete It stops operating, negative pressure is still in opening 18, air can still be flowed by opening 18 into channel, and intubation 14 opens clamping plate stream The air entered at opening 18 will be also flowed into channel, to prevent outside air from entering in bottleneck；Then machine is blown in starting 16 pairs of first products are blown, and after finished product makes, then by cylinder 11, control connecting tube 13 is slided to the left, when intubation 14 When skidding off from opening 18, upper clamp plate is separated with the second button 17 again, and negative pressure blade 8 rotates again, so that re-forming in negative pressure cover 7 Negative pressure, 14 opening clamping plates of intubation are flowed into the air at opening 18 18 will be flowed into channel again by opening, be intubated 14 from opening Mouth 18 is extracted, and connecting tube 13 continues to slide, and the first tapered bar 12 will be separated with the second tapered bar 5, and second spring 10 will gradually push gear Oralia 3 resets, and gear oralia 3 will offset with the first button 20, and motor 9 again will be out of service.

Above-described is only the embodiments of the present invention, and the common sense such as well known specific structure and characteristic are herein in scheme It does not describe excessively.It should be pointed out that for those skilled in the art, in the premise for not departing from the utility model structure Under, several modifications and improvements can also be made, these also should be considered as the protection scope of the utility model, these all will not influence The effect and patent practicability that the utility model is implemented.This application claims protection scope should be with the content of its claim Subject to, the records such as specific embodiment in specification can be used for explaining the content of claim.

Claims (6)

1. dust-protection type bottle die, including rack, upper die and lower die, upper die and lower die are slidably connected on the rack, upper mold is under Mold slots are formed between mould, which is characterized in that upper die and lower die, which are located at the position of bottle mouth, slidably connects gear oralia, gear It is provided with opening on oralia, sliding slot is provided in opening, clamping plate is slidably connected in sliding slot, is connected between clamping plate and sliding slot bottom It moves spring, clamping plate is provided with lozenges far from the side of lower die, keeps off in oralia the channel being provided with open communication, is fixed in rack Negative pressure cover is rotatably connected to negative pressure blade in negative pressure cover, air outlet is provided on negative pressure cover, is communicated between negative pressure cover and channel One hose slidably connects connecting tube in rack, and intubation is slidably connected in connecting tube, is connected between intubation and connecting tube tube bottom There is the first spring, being intubated close to one end of gear oralia is the taper cooperated with clamping plate lozenges, is fixed in rack and blows machine, blows machine It is communicated with the second hose between connecting tube, the first tapered bar is fixed in connecting tube, keeps off on oralia and is fixed with the second tapered bar, first Tapered bar is connected with second spring between the second tapered bar and rack for offseting with the second tapered bar.

2. dust-protection type bottle die according to claim 1, it is characterised in that: the sliding slot includes upper hopper chute and downslide Slot, clamping plate include upper clamp plate and lower clamp plate, and interlocking spring includes third spring and the 4th spring, and upper clamp plate is slidably connected at cunning In slot, third spring is connected between upper clamp plate and upper hopper chute bottom, and lower clamp plate is slidably connected in gliding groove, and the 4th spring connects It connects between lower clamp plate and downslide trench bottom, upper clamp plate offsets with lower clamp plate, and the side of upper clamp plate and lower clamp plate far from lower die is equal It is provided with stress wedge surface, two stress wedge surfaces are arranged at the position that upper clamp plate and lower clamp plate offset, two stress wedge surfaces and intubation Tapered end be equipped with.

3. dust-protection type bottle die according to claim 2, it is characterised in that: be fixed with motor on the negative pressure cover, bear Pressure blade is fixed on the output shaft of motor.

4. dust-protection type bottle die according to claim 3, it is characterised in that: the gear oralia bottom offsets for closing Close the first button of motor, gear oralia offsets with the first button, be equipped in upper hopper chute bottom for closing motor second by Button, upper clamp plate with the second button for offseting.

5. dust-protection type bottle die according to claim 1, it is characterised in that: the lower die is located at the position of gear oralia opening The place of setting is provided with groove.

6. dust-protection type bottle die according to claim 5, it is characterised in that: be fixed with cylinder, cylinder in the rack Output shaft be fixedly connected with connecting tube.