CN207423003U - For the pouring device of energized fluid - Google Patents

Abstract

The utility model is related to ammunition technology fields, propose the pouring device for energized fluid, which includes casting die, conveying cavity, the first conveyance conduit, the second conveyance conduit and the first control valve；Casting die is equipped with vacuum orifice and casting gate；Conveying cavity is sealedly attached to casting die, and the one side for conveying the close and casting die junction of cavity is equipped with blow vent, and the separate one side with casting die junction is equipped with delivery port；First conveyance conduit is communicated in delivery port for energized fluid to be transported to conveying cavity after casting die vacuumizes；Second conveyance conduit is communicated in casting gate and stretches into conveying cavity, for the in vivo energized fluid of conveyor chamber to be transported to casting die after casting die vacuumizes；First control valve is arranged on blow vent and is used to after energized fluid submerges the entrance of the second conveyance conduit control air importing conveying cavity that the junction of conveying cavity and casting die is made with energized fluid to isolate.Automatic butt can be realized using the device and is cast.

Description

For the pouring device of energized fluid

Technical field

The utility model is related to ammunition filling technique field more particularly to a kind of pouring devices for energized fluid.

Background technology

Energized fluid is frequently used in high energy weaponry.For example, nitroglycerine is exploded using it when shaking and squeeze Characteristic, be usually used in preparing high energy weapon.The nitroglycerine mechanical sensitivity freezed is higher than liquid, in semi-frozen state When, mechanical sensitivity higher.Therefore by sudden and violent cold sudden-heat, shock, friction, when meeting open fire, high fever, there is the danger that set off an explosion.With it is strong Kickback can occur for acid contact, cause burning or explosion.A small amount of nitroglycerine that absorbs can cause violent pulsatile headache, Often there are nausea, palpitaition, there is vomiting and abdominal pain, face fever, flush sometimes；Relatively large generation low blood pressure, depression, amentia, Accidental delirium, methemoglobinemia and cyanosis.After drinking, above-mentioned symptom aggravation, and can occur manic.This product The book of Changes skin It absorbs, should prevent skin contact.Chronic Effect：There can be the discomforts such as headache, tired.

At present, since nitroglycerine sensitivity is high, energy is big, blast accident easily occurs, in nitroglycerine pipeline and All it is the cautious operation in staff scene in casting, particularly when casting die and conveyance conduit dock, due to defeated It send and energized fluid is easily stained on pipeline.On the one hand, there are the danger of explosion, automatic butt can not be realized；On the other hand, work Personnel easily suck nitroglycerine and cause adverse reaction.Existing equipment does not accomplish man-machine isolation, it is difficult to ensure the people of operating personnel Body safety.

Therefore, it is necessary to study a kind of new pouring device for energized fluid.

Above- mentioned information disclosed in the background section is only used for strengthening the understanding to the background of the utility model, therefore It can include not forming the information to the prior art known to persons of ordinary skill in the art.

Utility model content

The purpose of the utility model is to overcome at least one deficiencies of the above-mentioned prior art, and providing one kind can be automatically right The pouring device for energized fluid for connecing and casting.

The additional aspect and advantage of the utility model will be set forth in part in the description, and partly will be from retouching It is apparent from stating or can be by the practice of the utility model and acquistion.

According to one aspect of the disclosure, a kind of pouring device for energized fluid is provided, including：

Casting die is provided with vacuum orifice and casting gate；

Cavity is conveyed, is sealedly attached to the casting die, conveying the close of cavity is connected with the casting die The one side at place is provided with blow vent, and the separate one side with the casting die junction is provided with delivery port；

First conveyance conduit is communicated in the delivery port, for after the casting die vacuumizes that energized fluid is defeated It send to the conveyor chamber body；

Second conveyance conduit is communicated in the casting gate and stretches into the conveyor chamber body, in the casting die The in vivo energized fluid of the conveyor chamber is delivered to the casting die after vacuumizing；

First control valve, arranged on the blow vent, in the energized fluid by the entrance of second conveyance conduit Air is controlled to import the conveying cavity after submergence makes the junction of the conveying cavity and casting die and the energized fluid Isolation.

In a kind of exemplary embodiment of the disclosure, the pouring device further includes：

Ventilation pipe, is communicated in the blow vent, and first control valve is arranged on the ventilation pipe；

Second control valve has setpoint distance on the ventilation pipe and between first control valve.

In a kind of exemplary embodiment of the disclosure, the pouring device further includes：

Third control valve, on first conveyance conduit.

In a kind of exemplary embodiment of the disclosure, the pouring device further includes：

Barometer, in the conveyor chamber body, for measuring the atmospheric pressure value in the pouring device；

Control circuit is electrically connected to the barometer, vacuum extractor, first control valve, second control valve And the third control valve, for controlling first control valve, second control valve and institute according to the atmospheric pressure value State the start and stop of the switch and vacuum extractor of third control valve.

In a kind of exemplary embodiment of the disclosure, the pouring device further includes：

First connecting plate is connected to the casting die, the first through hole is provided in the middle part of first connecting plate, Periphery is provided with multiple through holes；

Second connecting plate arranged on the conveying cavity, is provided with the second through hole in the middle part of second connecting plate, week While it is provided with multiple threaded holes；

Gasket, between first connecting plate and second connecting plate；

Multiple fixing screws, through the through hole and the threaded hole thread fitting by first connecting plate and described the Two connecting plates connect.

In a kind of exemplary embodiment of the disclosure, second conveyance conduit passes through first through hole and institute It states the second through hole to stretch into the conveyor chamber body, the pouring device further includes：

First is connected every cylinder, its one end with first connecting plate, and the other end extends to the delivery port, and described One every cylinder be located at outside second conveyance conduit for will by aeroseal that blow vent enters described first every cylinder and institute It states in conveyor chamber body between side wall.

In a kind of exemplary embodiment of the disclosure, described first every cylinder to extend to the in vivo length of the conveyor chamber big The in vivo length of the conveyor chamber is extended in or equal to second delivery pipe.

In a kind of exemplary embodiment of the disclosure, the conveying cavity further includes：

Second is connected every cylinder, its one end with the madial wall of the conveying cavity, and the other end prolongs to second through hole It stretches, described second is located at second conveyance conduit and described first between cylinder every cylinder, and described second is provided with every cylinder bottom The intercommunicating pore connected with the inner cavity of the conveying cavity.

In a kind of exemplary embodiment of the disclosure, the conveying cavity further includes：

Connecting pipe, for connecting the top and bottom of the conveying cavity, the connecting pipe is transparent material.

In a kind of exemplary embodiment of the disclosure, second conveyance conduit includes：

Through pipe, stretched into through first through hole and second through hole in the conveyor chamber body；

Connecting tube, is connected to described between pipe and the casting gate, and inside be that hose outside is metal tube.

As shown from the above technical solution, the utility model possesses at least one of advantages below and good effect：

The pouring device for energized fluid of the utility model, casting die are connected to conveying by the second conveyance conduit Cavity, conveying cavity convey energized fluid by the first conveyance conduit；After being vacuumized in casting die, energized fluid passes through One conveyance conduit enters conveying cavity, is controlled after energized fluid submerges the entrance of the second conveyance conduit by the first control valve Air, which imports conveying cavity, makes the junction of conveying cavity and casting die isolate with energized fluid, and energized fluid is defeated by first Pipeline is sent to complete to cast to casting die.On the one hand, the fully automated progress of casting cycle is not required to manually participate in, and realizes people Machine is isolated, and ensures the personal safety of operating personnel；On the other hand, the connection of cavity and casting die will be conveyed by importing air Place isolates with energized fluid, and the friction of disassembly process is avoided to cause the explosion of energized fluid；In another aspect, since air will convey The junction of cavity and casting die isolates with energized fluid, and casting die can be realized with conveying the automatic butt of cavity.

Description of the drawings

Its example embodiment is described in detail by referring to accompanying drawing, above and other feature and advantage of the utility model will It becomes readily apparent from.

Fig. 1 is structure diagram of the utility model for one embodiment of pouring device of energized fluid；

Fig. 2 is the schematic top plan view of Fig. 1；

Fig. 3 is connecting structure for electrical equipment schematic block of the utility model for one embodiment of pouring device of energized fluid Figure.

The reference numerals are as follows for main element in figure：

1st, casting die；2nd, cavity is conveyed；3rd, the first control valve；4th, the second control valve；5th, third control valve；6th, cast tubes Road；7th, connecting tube；71st, hose；72nd, copper pipe；8th, through pipe；9th, the first connecting plate；10th, the second connecting plate；11st, the first delivery pipe Road；12nd, first every cylinder；13rd, second every cylinder；14th, connecting pipe；15th, barometer；16th, ventilation pipe；

H, the height of blow vent；

L, the height of the entrance of the second conveyance conduit.

Specific embodiment

Example embodiment is described more fully with reference to the drawings.However, example embodiment can be with a variety of shapes Formula is implemented, and is not understood as limited to embodiment set forth herein；On the contrary, these embodiments are provided so that this practicality is new The design of example embodiment fully and completely, and comprehensively will be communicated to those skilled in the art by type.It is identical in figure Reference numeral represents same or similar structure, thus will omit their detailed description.

With reference to Fig. 1 and the structure diagram of pouring device one embodiment shown in Fig. 2 for energized fluid, this is poured Casting device can include casting die 1, conveying cavity 2, the first conveyance conduit 11, the second conveyance conduit and the first control valve 3 Etc..Vacuum orifice and casting gate are provided on casting die 1；Conveying cavity 2 is sealedly attached to casting die 1, conveys cavity 2 The close one side with 1 junction of casting die be provided with blow vent, the separate one side with 1 junction of casting die is provided with Delivery port；First conveyance conduit 11 is communicated in delivery port, for energized fluid to be delivered to conveying after casting die 1 vacuumizes In cavity 2；Second conveyance conduit is communicated in casting gate and stretches into conveying cavity 2, for will be defeated after casting die 1 vacuumizes The energized fluid in cavity 2 is sent to be delivered to casting die 1；First control valve 3 is arranged on blow vent, in energized fluid by second Air is controlled to import conveying cavity 2 after the entrance submergence of conveyance conduit makes junction and the high energy of conveying cavity 2 and casting die 1 Liquid is isolated.

In this example embodiment, it is necessary to by casting die 1 be mounted on conveying cavity 2 on, then by convey cavity 2 to Conveying energized fluid in casting die 1, after the amount of energized fluid reaches required value in casting die 1, by casting die 1 from defeated It send and is disassembled on cavity 2, carry out the casting of next casting die 1.

Casting gate can be provided in the lower end of casting die 1, casting pipeline 6 can be provided in casting gate.Cast tubes Road 6 can be connected with the second conveyance conduit, and the second conveyance conduit is stretched into conveying cavity 2, and the second conveyance conduit can cast Mold 1 vacuumize after by convey cavity 2 in energized fluid be delivered to casting die 1.In this example embodiment, second is defeated Send pipeline that can include connecting tube 7 and through pipe 8, connecting tube 7 is connected to casting pipeline 6, and the inside of connecting tube 7 is hose 71 Outside is metal tube, and metal tube can be copper pipe 72 or iron pipe, aluminum pipe etc.；Through pipe 8 through the first through hole with And second through hole stretch into it is described conveying cavity 2 in.Can connecting tube 7 be pressed from both sides by deformation by fixture after the completion of casting, connected The hose 71 of 7 inside of pipe can play sealing function, and the copper pipe 72 in 7 outside of connecting tube can play the shape for being fixedly connected with pipe 7 Effect, make connecting tube 7 keep deformation state, the energized fluid in casting die 1 is avoided to flow out.Certainly, in the utility model Other example embodiments in, can the second conveyance conduit be directly connected to casting gate.Second conveyance conduit can also be complete Portion is that the inside of connecting tube 7 is the form that 71 outside of hose is copper pipe 72.Casting gate can also be arranged on the upper end of casting die 1 Or side.

Vacuum orifice is also provided on casting die 1, vacuum orifice can be connected with vacuum extractor, pass through pumping Vacuum plant can vacuumize casting die 1 and conveying cavity 2.Energized fluid is sucked by negative pressure after vacuumizing and is conveyed In cavity 2 and casting die 1.

In this example embodiment, the first connecting plate 9 can also be connected on casting die 1, the first connecting plate 9 Middle part can be provided with the first through hole, and periphery can be provided with multiple through holes.Through pipe 8 through the first through hole and with the One connecting plate 9 is tightly connected, i.e., casting die 1 is connected by running through pipe 8 with the first connecting plate 9.

In this example embodiment, the second connecting plate 10, the second connecting plate 10 can be equipped in the upper end of conveying cavity 2 To extending around for conveying cavity 2；The middle part of second connecting plate 10 is provided with the second through hole, and periphery is provided with multiple spiral shells Pit.Gasket can be equipped between the first connecting plate 9 and the second connecting plate 10.Multiple fixing screws pass through through hole and screw thread Hole thread fitting connects the first connecting plate 9 and the second connecting plate 10, i.e., is tightly connected casting die 1 and conveying cavity 2.The The link position of one connecting plate 9 and the second connecting plate 10 is in the surrounding of the first connecting plate 9 and the second connecting plate 10.

In addition, the sealed connection between casting die 1 and conveying cavity 2 is not limited to foregoing description.For example, it is also possible to using Engagement thread connects, and can set external screw thread on the first connecting plate 9, sets internal thread in conveying cavity 2, such setting can The second connecting plate 10 is not required；The buckle of mutual cooperation can also be set on the first connecting plate 9 and the second connecting plate 10, It is connected by a snap.

In this example embodiment, conveying cavity 2 can be arranged on the lower section of casting die 1, convey cavity 2 and casting The junction of mold 1 is located at the top of conveying cavity 2.In one of the top, that is, close of conveying cavity 2 with 1 junction of casting die Side is provided with blow vent, and lower part, that is, separate one side with 1 junction of casting die of conveying cavity 2 is provided with delivery port.Tool For body, blow vent is arranged on the upper portion side wall of conveying cavity 2, and delivery port is arranged on the middle position of the lower plate of conveying cavity 2 It puts.Certainly, it will be appreciated by persons skilled in the art that conveying cavity 2 can be arranged on the one side of casting die 1, by second Conveyance conduit bending, which is set, to be delivered to the energized fluid conveyed in cavity 2 in casting die 1.

One end of first conveyance conduit 11 is communicated in delivery port, and the other end is communicated in energized fluid storage device.It is casting Energized fluid in energized fluid storage device after vacuumizing by the first conveyance conduit 11 is delivered to and conveys cavity 2 by mold 1 It is interior.In this example embodiment, third control valve 5 is equipped on the first conveyance conduit 11, can be controlled by third control valve 5 Make the break-make of the first conveyance conduit 11.

The first control valve 3 can be equipped in blow vent, the first control valve 3 can be in energized fluid by the second conveyance conduit Air is controlled to import conveying cavity 2 after entrance submergence makes conveying cavity 2 and the junction of casting die 1 isolate with energized fluid. In this example embodiment, ventilation pipe 16 is communicated in blow vent, the first control valve 3 is arranged on ventilation pipe 16, logical The second control valve 4 is additionally provided in feed channel 16, there is setpoint distance between the second control valve 4 and the first control valve 3.In high energy After liquid submerges the entrance of the second conveyance conduit, the first control valve 3 is opened, is made between the first control valve 3 and the second control valve 4 Ventilation pipe 16 in gas enter conveying cavity 2, the connection of cavity 2 and casting die 1 will be conveyed by the air of entrance Place isolates with energized fluid；Therefore, the numerical value of setpoint distance needs to count into the air capacity in conveying cavity 2 as needed It calculates, the technology which is known to the skilled person, details are not described herein again.It is of course also possible to the first control is only set Valve 3 processed, by control open the first control valve 3 time come control into conveying cavity 2 in air capacity number.

Further, which can also include barometer 15, and barometer 15 is arranged in conveying cavity 2, passes through Barometer 15 can measure the atmospheric pressure value in conveying cavity 2.Certainly, barometer 15 can also be arranged in ventilation pipe 16, and Between the first control valve 3 and conveying cavity 2.

Further, with reference to shown in Fig. 3.The pouring device can also include control circuit, can be with by control circuit Control the start and stop of the first control valve 3, the switch of the second control valve 4 and third control valve 5 and control vacuum extractor.Control Circuit processed is electrically connected to barometer 15, vacuum extractor, the first control valve 3, the second control valve 4 and third control valve 5, control Circuit controls opening for the first control valve 3, the second control valve 4 and third control valve 5 according to the atmospheric pressure value of the measurement of barometer 15 Close and control the start and stop of vacuum extractor.

The utility model by air insulated energized fluid with conveying cavity 2 and casting die 1 junction, air it is close Degree is smaller, is typically in the top of conveying cavity 2, therefore the junction for conveying cavity 2 and casting die 1 is arranged on conveyor chamber The top of body 2；And air is imported by blow vent, therefore blow vent is also disposed to the top of conveying cavity 2.Blow vent For height H higher than the height L of the entrance of the second conveyance conduit, making will not after energized fluid submerges the entrance of the second conveyance conduit Blow vent is submerged, can air be imported by blow vent.

Further, pouring device can also can be connected every cylinder 12, first including first every one end of cylinder 12 with first Plate 9 connects, and the other end extends to delivery port, and first every cylinder 12 be located at outside the second conveyance conduit be used for will by blow vent into The aeroseal entered is first between cylinder 12 and conveying 2 madial wall of cavity.In this example embodiment, first is every cylinder 12 Setting up and down, first connects for first every the upper end of cylinder 12 every one end of cylinder 12, first every the upper end of cylinder 12 and the first connecting plate 9 Connect, first every 12 lower end of cylinder for first every cylinder 12 the other end, first extends downwardly every the lower end of cylinder 12；First extends every cylinder 12 Length in conveying cavity 2 is greater than or equal to the second delivery pipe and extends to length in conveying cavity 2, in energized fluid by the First can be submerged every the lower end of cylinder 12 during the entrance submergence of two conveyance conduits, so that first can will be by logical every cylinder 12 The aeroseal that gas port enters is first between cylinder 12 and conveying 2 madial wall of cavity.In this example embodiment, first connects The junction of 9 and second connecting plate 10 of fishplate bar is arranged on peripheral position, and the second conveyance conduit passes through the first through hole and second Through hole is stretched into the conveying cavity 2, and the second conveyance conduit is located at medium position；It can be defeated by second every cylinder 12 by first Pipeline and the junction of the first connecting plate 9 and the second connecting plate 10 is sent to isolate.It can be reduced every cylinder 12 by first and be passed through conveying The amount of air in cavity 2.

Further, second can also be included every cylinder 13 by conveying cavity 2, and second every one end of cylinder 13 and conveying cavity 2 Madial wall connects, and the other end extends to the second through hole, second every cylinder 13 be located at the second conveyance conduit and first every cylinder 12 it Between, second is provided with the intercommunicating pore that connects of inner cavity with conveying cavity 2 every 13 bottom of cylinder.In this example embodiment, second Every cylinder 13 to be setting up and down, second every the lower end of cylinder 13 for second every one end of cylinder 13, second every the lower end of cylinder 13 and conveyor chamber Body 2 madial wall connection, second every the upper end of cylinder 13 for second every cylinder 13 the other end, second prolongs upwards every the upper end of cylinder 13 It stretches.Delivery port and second is essentially set every cylinder 13 with central axis, makes to flow into first by the energized fluid that delivery port flows into Second, every in cylinder 13, then flows into second every in the conveying cavity 2 outside cylinder 13 by intercommunicating pore.Second is higher than every the height of cylinder 13 The height L of the entrance of second conveyance conduit.Second cooperatively forms curved gas channel every cylinder 13 and first every cylinder 12, can subtract Influence when gently vacuumizing to the air-tightness between the first connecting plate 9 and the second connecting plate 10, further avoids in energized fluid Gas is mixed into energized fluid in casting cycle to influence product quality.

Further, connecting pipe 14 can also be included by conveying cavity 2, and connecting pipe 14 can be used for connection conveying cavity 2 top and bottom, connecting pipe 14 are transparent materials.Connecting pipe 14 forms a linker, communicating pipe with conveying cavity 2 The liquid level of energized fluid is identical with the liquid level of energized fluid in conveying cavity 2 in road 14.Connecting pipe 14 is set For transparent material, the liquid level conveyed in cavity 2 can be learnt by observing the liquid level in connecting pipe 14.It can be with Scale is set on connecting pipe 14, when the liquid level of energized fluid reaches the scale, control circuit controls the first control valve 3 to beat It opens and admits air into the conveying realization of cavity 2 conveying cavity 2 and the junction of casting die 1 and isolating for energized fluid.Certainly, The connecting pipe 14 can be not provided with, but liquid level gauge is set in conveying cavity 2, is obtained by liquid level gauge in conveying cavity 2 The liquid level of energized fluid.

The specifically used process of pouring device for energized fluid of the utility model is as follows：

Second conveyance conduit is penetrated in conveying cavity 2, the first connecting plate 9 is fixedly connected with the second connecting plate 10, from And casting die 1 is installed on conveying cavity 2.The first control valve 3, the second control valve 4 and the are closed in control circuit control Three control valves 5, then vacuum extractor is controlled to start to work, will be vacuumized in casting die 1 and conveying cavity 2 and passes through pressure Pressure inside meter measurement pouring device, makes the vacuum degree in pouring device reach the vacuum values of setting, controls vacuum extractor It is stopped；Then third control valve 5 is opened in control, and energized fluid is flowed under the action of negative pressure by the first conveyance conduit 11 It conveys in cavity 2, the liquid level on observation connecting pipe 14, after the scale on the liquid level arrival connecting pipe 14 of energized fluid, control System opens the first control valve 3, and the air between the first control valve 3 and the second control valve 4 is made to enter conveying cavity inner wall and first Between cylinder 12；Under the action of air pressure, the liquid level of energized fluid rises slower in conveying cavity 2, and energized fluid passes through Second conveyance conduit enters casting die 1, and by measuring the pressure inside pouring device in real time, the pressure in pouring device reaches During setting value, the amount of the energized fluid of injection reaches required value in casting die 1；Control circuit control fixture presss from both sides connecting tube 7 Tightly, casting is terminated；The second control valve 4 is opened in control circuit control, and remaining energized fluid passes back into energized fluid storage device It is interior.Finally casting die 1 from conveying cavity 2 is disassembled, next casting die 1 is installed, starts next cast Journey.

The pouring device for energized fluid of the utility model, casting die 1 are connected to defeated by the second conveyance conduit Cavity 2 is sent, conveying cavity 2 conveys energized fluid by the first conveyance conduit 11；After being vacuumized in casting die 1, High-energy liquid Body by the first conveyance conduit 11 into conveying cavity 2, by the after energized fluid submerges the entrance of the second conveyance conduit One control valve 3 control air, which imports conveying cavity 2, makes conveying cavity 2 and the junction of casting die 1 isolate with energized fluid, high Energy liquid is delivered to casting die 1 by the first conveyance conduit 11 and completes casting.On the one hand, the fully automated progress of casting cycle, It is not required to manually participate in, realizes man-machine isolation, ensure the personal safety of operating personnel；On the other hand, will be conveyed by importing air The junction of cavity 2 and casting die 1 isolates with energized fluid, and the friction of disassembly process is avoided to cause the explosion of energized fluid； In another aspect, since air isolates the junction for conveying cavity 2 and casting die 1 with energized fluid, it can realize and pour mold The automatic butt of tool 1 and conveying cavity 2.

Above-mentioned described feature, structure or characteristic can be incorporated in one or more embodiment party in any suitable manner In formula, if possible, it is characterized in discussed in each embodiment interchangeable.In above description, provide many specific thin It saves to provide fully understanding to the embodiment of the utility model.It it will be appreciated, however, by one skilled in the art that can be real The technical solution of the utility model is trampled without one or more in the specific detail or others side may be employed Method, component, material etc..In other cases, known features, material or operation are not shown in detail or describe to avoid fuzzy sheet The each side of utility model.

Although the term of relativity, such as " on " " under " is used to describe icon component for another in this specification The relativeness of one component, but these terms in this specification merely for convenient, such as with reference to the accompanying drawings described in show The direction of example.Be appreciated that, if it is made to turn upside down the overturning of the device of icon, describe " on " component will As " under " component.The term of other relativities, such as " height " " low " " top " " bottom " etc. also make have similar meaning.When certain Structure other structures " on " when, it is possible to refer to that certain structural integrity is formed in other structures or refers to certain structure " direct " and sets It puts in other structures or refers to certain structure and be arranged on by another structure " indirect " in other structures.

In this specification, term "one", " one ", "the" and " described " be representing that there are one or more elements/groups Into part/etc.；Term "comprising", " comprising " and " having " to represent the open meaning being included and refer to except The element/component/listed also may be present outside waiting other element/component/etc.；Term " first ", " second " and " 3rd " etc. only uses as mark, is not the quantity limitation to its object.

It should be appreciated that the utility model be not limited in its application to this specification proposition component detailed construction and Arrangement.The utility model can have other embodiment, and can realize and perform in many ways.Foregoing change Shape form and modification fall in the scope of the utility model.It should be appreciated that this disclosure and this reality limited It is mentioned or all alternative groups of two or more apparent independent features with the new text and/or drawings that extend to It closes.All these different combinations form multiple alternative aspects of the utility model.Embodiment described in this specification is said Understand the best mode for becoming known for realizing the utility model, and those skilled in the art will be enable new using this practicality Type.

Claims (10)

1. a kind of pouring device for energized fluid, which is characterized in that including：

Casting die is provided with vacuum orifice and casting gate；

Cavity is conveyed, is sealedly attached to the casting die, the close and casting die junction of the conveying cavity One side is provided with blow vent, and the separate one side with the casting die junction is provided with delivery port；

First conveyance conduit is communicated in the delivery port, for being delivered to energized fluid after the casting die vacuumizes In the conveyor chamber body；

Second conveyance conduit is communicated in the casting gate and stretches into the conveyor chamber body, true for being taken out in the casting die The in vivo energized fluid of the conveyor chamber is delivered to the casting die after sky；

First control valve, arranged on the blow vent, for submerging the entrance of second conveyance conduit in the energized fluid Air is controlled to import the conveying cavity afterwards makes the junction of the conveying cavity and casting die isolate with the energized fluid.

2. the pouring device according to claim 1 for energized fluid, which is characterized in that the pouring device also wraps It includes：

Ventilation pipe, is communicated in the blow vent, and first control valve is arranged on the ventilation pipe；

Second control valve has setpoint distance on the ventilation pipe and between first control valve.

3. the pouring device according to claim 2 for energized fluid, which is characterized in that the pouring device also wraps It includes：

Third control valve, on first conveyance conduit.

4. the pouring device according to claim 3 for energized fluid, which is characterized in that the pouring device also wraps It includes：

Barometer, in the conveyor chamber body, for measuring the atmospheric pressure value in the pouring device；

Control circuit, be electrically connected to the barometer, vacuum extractor, first control valve, second control valve and The third control valve, for controlling first control valve, second control valve and described the according to the atmospheric pressure value The start and stop of the switch and vacuum extractor of three control valves.

5. the pouring device according to claim 1 for energized fluid, which is characterized in that the pouring device also wraps It includes：

First connecting plate is connected to the casting die, the first through hole, periphery is provided in the middle part of first connecting plate It is provided with multiple through holes；

Second connecting plate arranged on the conveying cavity, is provided with the second through hole, periphery is set in the middle part of second connecting plate It is equipped with multiple threaded holes；

Gasket, between first connecting plate and second connecting plate；

Multiple fixing screws connect first connecting plate and described second through the through hole and the threaded hole thread fitting Fishplate bar connects.

6. the pouring device according to claim 5 for energized fluid, which is characterized in that second conveyance conduit is worn It crosses first through hole and second through hole is stretched into the conveyor chamber body, the pouring device further includes：

First is connected every cylinder, its one end with first connecting plate, and the other end extends to the delivery port, and described first every Cylinder be located at outside second conveyance conduit for will by aeroseal that blow vent enters described first every cylinder with it is described defeated It send between inside cavities wall.

7. the pouring device according to claim 6 for energized fluid, which is characterized in that described first extends to every cylinder The in vivo length of conveyor chamber extends to the in vivo length of the conveyor chamber more than or equal to second delivery pipe.

8. the pouring device according to claim 6 for energized fluid, which is characterized in that the conveying cavity also wraps It includes：

Second is connected every cylinder, its one end with the madial wall of the conveying cavity, and the other end extends to second through hole, institute State second and be located at second conveyance conduit and described first between cylinder every cylinder, described second every cylinder bottom be provided with it is described Convey the intercommunicating pore of the inner cavity connection of cavity.

9. the pouring device according to claim 5 for energized fluid, which is characterized in that the conveying cavity also wraps It includes：

Connecting pipe, for connecting the top and bottom of the conveying cavity, the connecting pipe is transparent material.

10. the pouring device according to claim 5 for energized fluid, which is characterized in that second conveyance conduit Including：

Through pipe, stretched into through first through hole and second through hole in the conveyor chamber body；

Connecting tube, is connected to described between pipe and the casting gate, and inside be that hose outside is metal tube.