CN215151726U - IV-type high-pressure storage tank plastic liner reaction injection molding equipment - Google Patents

Abstract

The utility model relates to a IV type high pressure storage tank plastic inner bag reaction injection molding equips, equips including compound die system, hydraulic system, variable centre form system, mixed injection system, heating cooling system, exhaust system, inner bag drawing of patterns system and control system, the utility model discloses utilize flexible/soluble/crushable centre form to combine reaction injection molding technology, innovate the reaction injection molding technology and the equipment of a hollow part, realize hollow part integrated into one piece such as the IV type warehousing and transportation bottle of multidimension through changing the mould and use inner bag, solved the unstable problem of welding performance among the injection welding technology; the problem that the bottle mouth position of the inner container and the metal BOSS structure are difficult to combine precisely in the blow molding process can be solved well by using the reaction liquid with lower viscosity; the method realizes high-density molding by utilizing a mode of establishing pressure in the deformable internal mold, and has the advantages of high efficiency and high molding precision.

Description

IV-type high-pressure storage tank plastic liner reaction injection molding equipment

Technical Field

The utility model relates to a macromolecular material shaping field and special equipment field, concretely relates to IV type high pressure storage tank plastic inner bag reaction injection moulding equips.

Technical Field

With the rapid development of hydrogen fuel cells, high energy density engines and the like, the development demand of energy storage and transportation equipment is increased, particularly clean and green energy storage and transportation equipment, such as hydrogen storage and transportation equipment and the like. The energy storage and transportation technology which is most mature, has the lowest cost and has the highest safety in international application is the high-pressure gas storage and transportation technology. The most widely used high-pressure gas storage and transportation technology is type III storage and transportation bottle and type IV storage and transportation bottle. Compared with the III type storage and transportation bottle, the IV type storage and transportation bottle has lower material density because the inner container is replaced by the plastic inner container, can obtain higher air storage density in the aspect of storage and transportation, and further improves the economic benefit. For the formation of the plastic liner, the existing techniques include injection welding, blow molding and rotational molding. The injection welding molding has better molding precision, but the quality is difficult to ensure accurately in the welding process, so the injection welding molding becomes a big difficulty of molding; blow molding a biaxially oriented polymer melt, but the connection between the metal BOSS structure and the plastic liner becomes a great difficulty; the plastic inner container with large capacity can be well molded by rotational molding, the metal BOSS structure and the plastic inner container can be normally connected, but the problem of connection strength still exists, and the compactness of plastic molding is low. The liner material is usually made of PA, HDPE, PET, etc. Especially for high-barrier polymer materials with low viscosity, such as nylon, the blow molding and welding molding are difficult. The current US8658756B2 patent indicates that rotational molding reaction molding is used for manufacturing the plastic liner, but the precision and compactness of rotational molding are difficult to guarantee. Therefore, a process and equipment for forming a plastic liner with high efficiency, high precision and high reliability are needed to be developed for low-viscosity melts or reaction-formable high molecular materials.

SUMMERY OF THE UTILITY MODEL

The utility model provides a IV type high pressure storage tank plastic inner bag reaction injection moulding equips. The basic principle of the utility model lies in that the deformable/soluble/crushable internal mold is combined with the reaction injection molding process, and the reaction injection molding process and the equipment of the hollow part are newly developed. Meanwhile, according to the reaction injection molding process of the hollow part, the utility model discloses still derive a new technology to low viscosity polymer injection blow molding and extrusion blow molding. The utility model discloses IV type high pressure storage tank plastic inner bag reaction injection moulding technology and equipment can be high-efficient, high accuracy and high reliable ground integrated into one piece have the cavity plastic part of high separation nature.

The utility model discloses IV type high pressure storage tank plastic inner bag reaction injection moulding equips including compound die system, hydraulic system, variable centre form system, mixed injection system, heating cooling system, exhaust system, inner bag drawing of patterns system and control system, the compound die system includes frame, fixed die plate, cover half, movable mould, pull rod, mode locking hydro-cylinder, compound die shift mould hydro-cylinder, band-type brake mechanism. The hydraulic system comprises various hydraulic control valves and a hydraulic power source. The variable internal mold system comprises a variable internal mold, a supporting shaft, an X-axis mold moving mechanism, a Y-axis mold moving mechanism, an XY rotary mold moving mechanism and a sliding rail. The mixed injection system comprises an injection mechanism, an injection mechanism moving oil cylinder, a slide rail, a salivation preventing mechanism, a mixer and a power source. The heating and cooling system comprises a heating and cooling part, an outer mold temperature controller and an inner mold temperature controller which are coated on the mixer and the injection mechanism. The exhaust system comprises an air compressor and a vacuum pump. The liner demolding system comprises a plurality of mechanical claws. The control system comprises a human-computer interaction system, a controller, a data processor and the like.

The utility model discloses IV type high pressure storage tank plastic inner bag reaction injection moulding equips the structural connection relation and is: and a fixed template of the mold closing system is fixedly connected with the frame. The mould locking oil cylinder is fixedly connected with the fixed mould plate, and a piston of the mould locking oil cylinder is fixedly connected with the pull rod. The movable mould plate is connected with the pull rods in a sliding mode, and a band-type brake mechanism is installed at the position where each pull rod is connected with the movable mould plate in a sliding mode. The band-type brake mechanism is fixedly connected with the movable template. The fixed die is fixedly connected with the fixed template through bolts or a magnetic attraction mode, and the movable die is fixedly connected with the movable template through bolts or a magnetic attraction mode; the fixed die and the movable die jointly form an outer die. The cylinder body of the die closing and moving cylinder is fixedly connected with the fixed template, and the piston rod of the die closing and moving cylinder is fixedly connected with the movable template. The main shaft of the mixing injection system is superposed with the main shaft of the mold closing system. The injection mechanism is connected with the sliding rail in a sliding way through a power source, and the sliding rail is fixedly connected with the rack. The piston rod of the injection mechanism moving oil cylinder is fixedly connected with the power source, and the injection mechanism moving oil cylinder is fixedly connected with the rack. The mixer of the mixing injection system is fixedly connected to the position, close to the nozzle, of the cylinder of the injection mechanism through a one-way valve. The anti-drooling mechanism is arranged at the position of a nozzle of the injection mechanism. And the pipeline of the hydraulic system is connected with each actuating mechanism through a hydraulic valve. And a vacuum pump of the exhaust system is connected with the fixed die and the support shaft of the variable internal die system through pipelines. And an air compressor of the exhaust system is connected with the support shaft through a pipeline and can supply air to the deformable inner die through the support shaft. The deformable internal mold is hermetically connected with the supporting shaft, and the gas pressure in the deformable internal mold is jointly controlled by the air compressor and the vacuum pump through the supporting shaft. The X-axis mold moving mechanism, the Y-axis mold moving mechanism and the XY rotary mold moving mechanism jointly form a deformable inner mold moving mechanism. The deformable inner die moving mechanism is connected with a sliding rail in a sliding way, and the sliding rail is fixedly connected with the rack. The control system is used for controlling each actuating mechanism to orderly execute actions.

The utility model discloses a technology that IV type high pressure storage tank plastic inner bag reaction injection moulding was equipped is by control system automatic control after the prefabricated processing technology parameter of input, and includes five steps of plastify/prefabricated reaction liquid, compound die, injection, pressurize and drawing of patterns at least, and concrete technology content is as follows:

plasticizing/preparing reaction liquid: metering and conveying the reaction forming raw materials by a metering pump, and respectively entering a mixer from a feed inlet A and a feed inlet B for mixing; the reaction materials fully mixed by the mixer are sucked into an injection machine barrel of the injection mechanism by the driving of a power source of the injection mechanism; in the process, the salivation preventing mechanism is always in a closed state, so that the outflow of materials and the mixing of gas are prevented. At the same time, the heating and cooling means coated on the mixer and the injection mechanism always maintain the barrel temperatures of the mixer and the injection mechanism in a state where only the reaction raw materials can be melted without promoting the rapid progress of the reaction.

A mold closing process: the process of mold closing is carried out simultaneously with the process of plasticizing/prefabricating the reaction liquid. Firstly, an insert is placed in a fixed die, for example, a deformable inner die of a metal BOSS structure of a plastic inner container of a hydrogen storage bottle and a support shaft act through a deformable inner die moving mechanism, so that the top end of the support shaft is positioned with the tail part of an inner container cavity in the fixed die, the axis of the support shaft is superposed with the axis of the inner container cavity of the fixed die, and the tail end of the support shaft can form a sealing state with a die at a bottle mouth after the support shaft is completely closed. When the deformable inner mold moves to a designated position, the mold closing and moving oil cylinder drives the movable mold plate to move axially along the pull rod and to close the mold; when the mold closing position is reached, the movable mold plate and the pull rod are locked through the band-type brake mechanism and are fixedly connected; and the mold locking oil cylinder works and locks the mold. Then, the vacuum pump works to evacuate all gas in the cavity; meanwhile, the air compressor works to charge gas with certain pressure into the deformable inner die to expand the deformable inner die.

And (3) injection process: the injection mechanism moves the nozzle of the oil cylinder drive injection mechanism and contacts closely with runner of the fixed die, open the anti-drooling mechanism. The power source drives the injection mechanism to inject the reaction materials into the cavity, and the pressure in the deformable inner die is adjusted by the air compressor in the injection process, so that the reaction materials in the cavity are uniformly distributed.

And (3) pressure maintaining process: and (3) maintaining the pressure after enough reaction materials are injected into the cavity, and adjusting the temperature of the cavity through a mold temperature controller to enable the product to react and solidify quickly. After the pouring gate in the fixed die is solidified, the anti-drooling mechanism is closed, and the injection mechanism stores the reaction material again for the next injection.

And (3) demolding: and after the materials in the cavity are fully solidified, cooling the die to a set temperature through a die temperature controller. And the mould locking oil cylinder releases pressure, the band-type brake mechanism loosens the pull rod, the movable mould plate and the variable internal mould system are driven by the mould moving oil cylinder and the Y-axis mould moving mechanism respectively to open the mould, and the moving speed of the movable mould plate is slightly greater than that of the variable internal mould system. After the mold is opened to the preset position, the inner container is separated from the outer mold under the control of the variable inner mold system; at the moment, the X-axis mold moving mechanism drives the inner container to move along the X axis, and meanwhile, the XY rotating mold moving mechanism drives the inner container to enable the inner container to be completely separated from the mold closing system. After the mechanical claw grabs the plastic inner container, the vacuum pump vacuumizes the interior of the deformable inner mold, air naturally enters the space between the deformable inner mold and the inner container, and the deformable inner mold and the supporting shaft are extracted after the interior of the deformable inner mold reaches a preset vacuum degree. And the deformable inner die moving mechanism acts to reset the support shaft and the deformable inner die. A second reaction injection molding is performed.

The utility model discloses in the IV type high pressure storage tank plastic inner bag reaction injection moulding technology the main objective of plastify/prefabricated reaction liquid process be the reaction liquid after the mixture of preparation capacity, provide stable, sufficient raw materials for the injection process.

Alternatively: if the metering pump can provide sufficient materials for the cavity in the injection process, the injection mechanism can be removed, and the materials are directly metered by the metering pump and mixed by the mixer and then injected into the cavity.

The utility model discloses in the IV type high pressure storage tank plastic inner bag reaction injection moulding technology the concrete execution objective of compound die process be the outer mould closely laminate, the axle center and the coincidence of die cavity axle center of flexible centre form and back shaft to guarantee that die cavity bottleneck department is sealed. The specific execution action can be adjusted according to the structure and the size of the cavity.

Alternatively: in the process of die assembly, a soluble/crushable rigid inner die, such as a rigid inner die made of PVA, gypsum and the like, can be placed in a die cavity; after the inner container is formed and demoulded, the rigid inner mold can be taken out through physical dissolution or crushing and the like. The outer surface of the rigid inner mold can be designed according to the structure of the liner, and the outer diameter of the rigid inner mold is equal to the inner diameter of the target cylinder. Generally, the rigid inner mold can be manufactured in a split mode and is mainly used for shaping, and pressure of materials entering a cavity is borne by the deformable inner mold. The alternative process can improve the uniformity of the wall thickness of the inner container.

Alternatively: in the die closing process, a prefabricated functional reinforcing cylinder body with certain strength/rigidity can be placed in the die cavity, the outer diameter of the cylinder body does not exceed the outer diameter of the target inner container, and the inner diameter of the cylinder body is not smaller than the inner diameter of the target inner container. The reinforced cylinder body is directly used for reinforcing the liner through reaction injection molding. The functionality may include one or more of barrier properties, strength, stiffness, thermal stability, and the like. The shape of the functional enhancement cylinder body can be various shapes such as a straight cylinder shape, a corrugated pipe shape, a seal head containing a part of ellipses, a special-shaped pipe shape and the like. The reinforcing cylinder can be fixed directly by using a deformable inner die and fixed by using a bracket made of the same material as the reaction injection base material. For the position which is not filled with the reaction raw materials normally, a hole can be properly formed on the reinforcing cylinder body. The alternative process can improve the uniformity of the wall surface of the inner container and strengthen the inner container.

The utility model discloses in the IV type high pressure storage tank plastic inner bag reaction injection moulding technology the final objective of drawing of patterns process take off fashioned inner bag from outer mould and flexible centre form. The specific demoulding action can be adjusted according to the structure and the size of the cavity.

Alternatively: in the demolding process, the inner container can be grasped after the inner container is completely separated from the outer mold by directly utilizing a plurality of mechanical claws, and the deformable inner mold in the inner container is removed through the X-axis mold moving mechanism after the vacuum degree in the deformable inner mold reaches a preset value.

The utility model discloses the material of IV type high pressure storage tank plastic inner bag reaction injection molding technology and equipment is except selecting for use double-phase reaction raw materials such as nylon reaction molding material, also can additionally increase functional reinforcing filler as required and be used for improving the inner bag performance. Alternatively: optionally, the method is used for injection molding of hollow articles from low viscosity melts.

The utility model discloses the mould runner design as required of IV type high pressure storage tank plastic inner bag reaction injection moulding technology and equipment, preferred many runners symmetrical arrangement also can choose other runner arrangement modes for use.

The utility model discloses the outer mould of IV type high pressure storage tank plastic inner bag reaction injection moulding technology and equipment and the connected mode of template can adopt mechanical connection such as bolt, also can adopt the electromagnetism to adsorb the formula and connect.

The utility model discloses the preferred elastomer of material of the flexible centre form of IV type high pressure storage tank plastic inner bag reaction injection molding technology and equipment. The shape of the outer wall surface of the deformable inner mold, which is blown up when the inner side and the outer side are both normal pressure, is preferably consistent with the shape of the inner wall surface of the inner container. Therefore, the size stability of the inner container can be improved. Meanwhile, the outer wall surface of the deformable inner die can be designed according to the inner wall surface structure of the inner container. Alternatively: the deformable inner die is tightly attached to the supporting shaft under normal pressure.

The utility model discloses it has a plurality of gas pockets to open on the back shaft of IV type high pressure storage tank plastic inner bag reaction injection molding technology and equipment, and can form along the axial direction combination by a plurality of minor axes, also can make the shaping by an entire axle.

The utility model discloses but IV type high pressure storage tank plastic inner bag reaction injection moulding technology and the blender and the injection mechanism of equipment coaxial integration, install static mixer promptly in injection mechanism barrel, or utilize the screw rod misce bene that has better mixed effect, at this moment, the feed inlet should the rigid coupling in far away nozzle end.

The utility model discloses the compound die system of IV type high pressure storage tank plastic inner bag reaction injection moulding technology and equipment can design into two board-like compound die systems, also can design into three board axostylus axostyle formula compound die system.

The utility model discloses the power of IV type high pressure storage tank plastic inner bag reaction injection moulding technology and equipment can be provided by hydraulic pressure, also can electronic or electric liquid composite drive.

The utility model discloses IV type high pressure storage tank plastic inner bag reaction injection molding technology and equipment utilize flexible/soluble/crushable centre form to combine reaction injection molding technology, have newly developed the reaction injection molding technology and the equipment of a cavity part. The process and the equipment can realize the integral molding of hollow parts such as the liner for the multi-size IV-type storage and transportation bottle and the like by changing the mould, thereby solving the problem of unstable welding performance in the injection welding process; the problem that the bottle mouth position of the inner container and the metal BOSS structure are difficult to combine precisely in the blow molding process can be solved well by using the reaction liquid with lower viscosity; the problem that rotational molding is difficult to realize high-density molding is solved by utilizing a mode of establishing pressure in the deformable inner mold. The utility model discloses IV type high pressure storage tank plastic inner bag reaction injection molding technology and equipment have high efficiency, advantage that the shaping precision is high.

Drawings

FIG. 1 is a schematic view of the assembly of the IV-type high-pressure storage tank plastic liner reaction injection molding equipment of the utility model.

Figure 2 is the flexible inner mold blowing schematic diagram of the IV type high pressure storage tank plastic inner container reaction injection molding equipment of the utility model.

Fig. 3 is the inner mold blowing schematic diagram containing the soluble/crushable inner mold of the iv-type high-pressure storage tank plastic liner reaction injection molding equipment of the present invention.

Fig. 4 is a partial schematic view of the iv-type high-pressure storage tank plastic liner reaction injection molding equipment of the present invention containing a functional reinforced cylinder.

Fig. 5 is a partial schematic view of the support shaft of the iv-type high-pressure storage tank plastic liner reaction injection molding equipment of the present invention.

In the figure: 1-mixing the power source of the injection system; 2-an injection mechanism; 3-closing and moving the mould cylinder; 4-a mixer; 5-A feed inlet; 6-B feed inlet; 7-a mold locking oil cylinder; 8-fixing a template; 9-a piston rod of a mold moving oil cylinder; 10-a pull rod; 11-fixing the mold; 12-moving the template; 13-moving the mould; 14-a deformable inner mold; 15-X axis mold moving mechanism; 16-a band-type brake mechanism; 17-XY rotating mold-moving mechanism; 18-Y axis mold moving mechanism; 19-a drooling prevention mechanism; 20-moving the oil cylinder by the injection mechanism; 21-a frame; 22-a slide rail; 23-supporting the shaft; 24-soluble/pulverizable internal mold; a 25-metal BOSS structure; 26-functional enhancement cartridge.

Detailed Description

As shown in figure 1, the utility model discloses IV type high pressure storage tank plastic inner bag reaction injection molding process and equipment is equipped including compound die system, hydraulic system, variable centre form system, mixed injection system, heating cooling system, exhaust system, inner bag drawing of patterns system, control system. The mold closing system comprises a rack 21, a fixed mold plate 8, a fixed mold 11, a movable mold plate 12, a movable mold 13, a pull rod 10, a mold locking oil cylinder 7, a mold closing and moving oil cylinder 3 and a band-type brake mechanism 16. The hydraulic system comprises various hydraulic control valves and a hydraulic power source. The variable inner die system comprises a variable inner die 14, a support shaft 23, an X-axis die moving mechanism 15, a Y-axis die moving mechanism 18, an XY rotary die moving mechanism 17 and a slide rail. The mixed injection system comprises an injection mechanism 2, an injection mechanism moving oil cylinder 20, a slide rail 22, a slobbering prevention mechanism 19, a mixer 4 and a power source 1. The heating and cooling system comprises a heating and cooling part, an outer mold temperature controller and an inner mold temperature controller which are coated on the mixer 4 and the injection mechanism 2. The exhaust system comprises an air compressor and a vacuum pump. The liner demolding system comprises a plurality of mechanical claws. The control system comprises a human-computer interaction system, a controller, a data processor and the like.

As shown in figure 1, the equipment structure connection relationship of the IV type high pressure storage tank plastic inner container reaction injection molding process and the equipment of the utility model is as follows: the fixed die plate 8 of the die clamping system is fixedly connected with the frame 21. The mould locking oil cylinder 7 is fixedly connected with the fixed mould plate 8, and a piston of the mould locking oil cylinder 7 is fixedly connected with the pull rod 10. The movable mould plate 12 is connected with the pull rods 10 in a sliding mode, and a band-type brake mechanism 16 is installed at the position where each pull rod 10 is connected with the movable mould plate 12 in the sliding mode. The band-type brake mechanism 16 is fixedly connected with the movable template 12. The fixed die 11 is fixedly connected with the fixed die plate 8 through bolts or a magnetic suction mode, and the movable die 13 is fixedly connected with the movable die plate 12 through bolts or a magnetic suction mode; the fixed die 11 and the movable die 13 jointly form an outer die. The cylinder body of the mold closing and moving cylinder 3 is fixedly connected with the fixed template 8, and the piston rod 9 of the mold moving cylinder is fixedly connected with the movable template 12. The main shaft of the mixing injection system is superposed with the main shaft of the mold closing system. The injection mechanism 2 is connected with a slide rail 22 in a sliding way through a power source 1, and the slide rail 22 is fixedly connected with a frame 21. The piston rod of the injection mechanism moving oil cylinder 20 is fixedly connected with the power source 1, and the injection mechanism moving oil cylinder 20 is fixedly connected with the frame 21. The mixer 4 of the mixing injection system is fixedly connected to the near nozzle part of the cylinder of the injection mechanism 2 through a one-way valve. The drooling prevention mechanism 19 is installed at the nozzle position of the injection mechanism 2. And the pipeline of the hydraulic system is connected with each actuating mechanism through a hydraulic valve. And a vacuum pump of the exhaust system is connected with the fixed die 11 and the support shaft 23 of the variable internal die system through pipelines. An air compressor of the exhaust system is connected to the support shaft 23 through a pipeline, and can supply air to the deformable inner mold 14 through the support shaft 23. The deformable inner die 14 is hermetically connected with a support shaft 23, and the gas pressure in the deformable inner die 14 is jointly controlled by an air compressor and a vacuum pump through the support shaft 23. The X-axis mold moving mechanism 15, the Y-axis mold moving mechanism 18 and the XY rotary mold moving mechanism 17 jointly form a deformable inner mold 14 mold moving mechanism. The deformable inner die 14 moving mechanism is connected with a sliding rail in a sliding way, and the sliding rail is fixedly connected with the frame 21. The control system is used for controlling each actuating mechanism to orderly execute actions.

The utility model discloses the technology of IV type high pressure storage tank plastic inner bag reaction injection moulding technology and equipment is by control system automatic control after the prefabricated processing technology parameter of input, and includes five steps of plastify/prefabricated reaction liquid, compound die, injection, pressurize and drawing of patterns at least, and concrete technology content is as follows:

plasticizing/preparing reaction liquid: the reaction forming raw materials are metered and conveyed by a metering pump and respectively enter a mixer 4 from a feed inlet A5 and a feed inlet B6 for mixing; the reaction materials fully mixed by the mixer 4 are driven by the power source 1 of the injection mechanism 2 to be sucked into the injection machine barrel of the injection mechanism 2; in this process, the slobbering prevention mechanism 19 is always in a closed state, and the outflow of the material and the mixing of the gas are prevented. Meanwhile, the heating and cooling means coated on the mixer 4 and the injection mechanism 2 always maintain the barrel temperatures of the mixer 4 and the injection mechanism 2 in a state where only the reaction raw material can be melted without promoting the rapid progress of the reaction.

A mold closing process: the process of mold closing is carried out simultaneously with the process of plasticizing/prefabricating the reaction liquid. First, a metal BOSS structure 25 of an insert, such as a plastic liner of a hydrogen storage cylinder, is placed in the stationary mold 11. The deformable inner die 14 and the supporting shaft 23 act through the deformable inner die 14 moving mechanism, so that the top end of the supporting shaft 23 is positioned with the tail part of the inner container cavity in the fixed die 11, the axis of the supporting shaft 23 is overlapped with the axis of the inner container cavity of the fixed die 11, and the tail end of the supporting shaft 23 can form a sealing state with a die at a bottle mouth after being completely closed, as shown in fig. 3. When the deformable inner die 14 moves to a designated position, the die closing and moving oil cylinder 3 drives the movable die plate 12 to move axially along the pull rod 10 and close the die; when the mold closing position is reached, the movable mold plate 12 and the pull rod 10 are locked by the band-type brake mechanism 16 and are fixedly connected; the mold locking oil cylinder 7 works and locks the mold. Then, the vacuum pump works to evacuate all gas in the cavity; meanwhile, the air compressor works to charge gas with certain pressure into the deformable inner die to expand the deformable inner die.

And (3) injection process: the injection mechanism moving oil cylinder 20 drives the nozzle of the injection mechanism 2 to be in close contact with the runner of the fixed die 11, and the drooling prevention mechanism 19 is opened. The power source 1 drives the injection mechanism 2 to inject reaction materials into the cavity, and the pressure in the deformable inner die 14 is adjusted by the air compressor in the injection process, so that the reaction materials in the cavity are uniformly distributed.

And (3) pressure maintaining process: and (3) maintaining the pressure after enough reaction materials are injected into the cavity, and adjusting the temperature of the cavity through a mold temperature controller to enable the product to react and solidify quickly. After the gate in the fixed mold is solidified, the anti-drooling mechanism 19 is closed, and the injection mechanism 2 stores the reaction material again for the next injection.

And (3) demolding: and after the materials in the cavity are fully solidified, cooling the die to a set temperature through a die temperature controller. The mould locking oil cylinder 7 is decompressed, the band-type brake mechanism 16 loosens the pull rod 10, the movable mould plate 12 and the variable internal mould system are driven by the mould closing and moving oil cylinder 3 and the Y-axis mould moving mechanism 18 to open the mould respectively, and the moving speed of the movable mould plate 12 is slightly larger than that of the variable internal mould system. After the mold is opened to the preset position, the inner container is separated from the outer mold under the control of the variable inner mold system; at this time, the X-axis mold moving mechanism 15 drives the inner container to move along the X-axis, and simultaneously the XY-rotation mold moving mechanism 17 drives the inner container to completely separate the inner container from the mold clamping system. After the mechanical claw grabs the plastic inner container, the vacuum pump vacuumizes the interior of the deformable inner mold, air is naturally fed between the deformable inner mold 14 and the inner container, and the deformable inner mold 14 and the support shaft 23 are drawn out after the interior of the deformable inner mold 14 reaches a preset vacuum degree. The mould moving mechanism of the deformable inner mould 14 acts to reset the supporting shaft and the deformable inner mould. A second reaction injection molding is performed.

The utility model discloses in the technology of IV type high pressure storage tank plastic inner bag reaction injection moulding technology and equipment the main objective of plastify/prefabricated reaction liquid process be the reaction liquid after the mixture of preparation capacity, provide stable, sufficient raw materials for the injection process.

Alternatively: if the metering pump can provide sufficient materials for the cavity in the injection process, the injection mechanism can be removed, and the materials are directly metered by the metering pump and mixed by the mixer and then injected into the cavity.

The utility model discloses in the technology of IV type high pressure storage tank plastic inner bag reaction injection moulding technology and equipment the specific execution objective of compound die process be that the outer mould closely laminates, and the axle center and the coincidence of die cavity axle center of flexible centre form 14 and back shaft 23 to guarantee that die cavity bottleneck department is sealed. The specific execution action can be adjusted according to the structure and the size of the cavity.

Alternatively: as shown in fig. 3, during the mold closing process, a soluble/crushable rigid inner mold 24, such as a rigid inner mold 24 made of PVA, gypsum, etc., may be placed inside the cavity; after the inner container is formed and demoulded, the rigid inner mold 24 can be taken out by physical dissolution or crushing and the like. The outer surface of the rigid inner mold 24 can be designed according to the structure of the liner, and the outer diameter of the rigid inner mold 24 should be equal to the inner diameter of the target cylinder. Typically, the rigid inner mold 24 is manufactured in segments, primarily for sizing, and the pressure of the material entering the cavity is taken up by the deformable inner mold 14. The alternative process can improve the uniformity of the wall thickness of the inner container.

Alternatively: as shown in fig. 4, during the mold closing process, a prefabricated functional reinforcing cylinder 26 with certain strength/rigidity can be placed in the cavity, the outer diameter of the cylinder 26 does not exceed the outer diameter of the target liner, and the inner diameter of the cylinder 26 is not smaller than the inner diameter of the target liner. The reinforcing cylinder 26 is directly used to reinforce the liner by reaction injection molding. The functionality may include one or more of barrier properties, strength, stiffness, thermal stability, and the like. The shape of the functional enhancement cylinder 26 can be various shapes such as a straight cylinder shape, a corrugated pipe shape, a partially-oval end socket, a special-shaped pipe shape and the like. The reinforcement cylinder 26 may be held directly in place using the deformable inner mold 14, the same support as the reaction injection matrix material. For locations that are not properly filled with reaction materials, the reinforcing cylinder 26 may be suitably perforated. The alternative process can improve the uniformity of the wall surface of the inner container and strengthen the inner container.

The utility model discloses in the technology of IV type high pressure storage tank plastic inner bag reaction injection moulding technology and equipment the final objective of drawing of patterns process take off fashioned inner bag from outer mould and flexible centre form 14. The specific demoulding action can be adjusted according to the structure and the size of the cavity.

Alternatively: in the demolding process, the inner container can be grasped after the inner container is completely separated from the outer mold by directly utilizing a plurality of mechanical claws, and the deformable inner mold 14 in the inner container is removed through the X-axis mold moving mechanism 15 after the vacuum degree in the deformable inner mold 14 reaches a preset value.

The utility model discloses the preferred elastomer of material of the flexible centre form of IV type high pressure storage tank plastic inner bag reaction injection molding technology and equipment. The shape of the outer wall surface of the deformable inner mold, which is blown up when the inner side and the outer side are both normal pressure, is preferably consistent with the shape of the inner wall surface of the inner container. Therefore, the size stability of the inner container can be improved. Meanwhile, the outer wall surface of the deformable inner die can be designed according to the inner wall surface structure of the inner container, as shown in fig. 2.

As shown in figure 5, the supporting shaft 23 of the IV type high pressure storage tank plastic liner reaction injection molding process and the equipment of the utility model is provided with a plurality of air holes, and can be formed by a plurality of short shafts along the axial direction in a combined way, and also can be manufactured and molded by one whole shaft.

The above description is made by referring to the drawings for the specific equipment and process conditions of the present invention. However, the present invention is not limited to the specific apparatus and process described above, and any modification or replacement of the related apparatus based on the above description, or any local adjustment of the related process based on the above description, all belong to the present invention.

Claims (4)

1. IV type high pressure storage tank plastic inner bag reaction injection moulding is equipped, its characterized in that: the mold closing system comprises a frame, a fixed mold plate, a fixed mold, a movable mold plate, a movable mold, a pull rod, a mold locking oil cylinder, a mold closing and moving oil cylinder and a band-type brake mechanism, the hydraulic system comprises various hydraulic control valves and a hydraulic power source, the variable internal mold system comprises a deformable internal mold, a support shaft, an X-axis mold moving mechanism, a Y-axis mold moving mechanism, an XY rotary mold moving mechanism and a slide rail, the hybrid injection system comprises an injection mechanism, an injection mechanism moving oil cylinder, a slide rail, a drooling prevention mechanism, a mixer and a power source, the heating and cooling system comprises a heating and cooling part, an external mold temperature machine and an internal mold temperature machine which are coated on the mixer and the injection mechanism, and the exhaust system comprises an air compressor and a vacuum pump, the inner container demolding system comprises a plurality of mechanical claws, and the control system comprises a human-computer interaction system, a controller, a data processor and the like.

2. The IV-type high-pressure storage tank plastic liner reaction injection molding equipment according to claim 1, which is characterized in that: a fixed template of the mold closing system is fixedly connected with the frame, a mold locking oil cylinder is fixedly connected with the fixed template, a piston of the mold locking oil cylinder is fixedly connected with a pull rod, a movable template is slidably connected with the pull rod, and a brake mechanism is arranged at the position where each pull rod is slidably connected with the movable template; the fixed die and the movable die jointly form an outer die, a cylinder body of the die assembly and moving cylinder is fixedly connected with the fixed die plate, and a piston rod of the die assembly and moving cylinder is fixedly connected with the movable die plate; the main shaft of the mixed injection system is superposed with the main shaft of the mold closing system; the injection mechanism is connected with a slide rail in a sliding way through a power source, and the slide rail is fixedly connected with the rack; a piston rod of the injection mechanism moving oil cylinder is fixedly connected with a power source, and the injection mechanism moving oil cylinder is fixedly connected with the rack; the mixer of the mixing injection system is fixedly connected to the position, close to the nozzle, of a machine barrel of the injection mechanism through a one-way valve, and the salivation preventing mechanism is arranged at the position of the nozzle of the injection mechanism; the pipeline of the hydraulic system is connected with each actuating mechanism through a hydraulic valve; a vacuum pump of the exhaust system is connected with the fixed die and a support shaft of the variable inner die system through a pipeline, and an air compressor of the exhaust system is connected with the support shaft through a pipeline and can supply air to the variable inner die through the support shaft; the deformable inner die is connected with the supporting shaft in a sealing mode, the gas pressure in the deformable inner die is controlled by the air compressor and the vacuum pump through the supporting shaft, the X-axis die moving mechanism, the Y-axis die moving mechanism and the XY rotating die moving mechanism jointly form a deformable inner die moving mechanism, the deformable inner die moving mechanism is connected with the sliding rail in a sliding mode, the sliding rail is fixedly connected with the rack, and the control system is used for controlling each executing mechanism to execute actions in order.

3. The IV-type high-pressure storage tank plastic liner reaction injection molding equipment according to claim 1, which is characterized in that: the deformable inner die is made of an elastic body, and the shape of the outer wall surface of the deformable inner die blown at normal pressure is consistent with the shape of the inner wall surface of the inner container.

4. The IV-type high-pressure storage tank plastic liner reaction injection molding equipment according to claim 1, which is characterized in that: the support shaft is provided with a plurality of air holes and is formed by combining a plurality of short shafts along the axial direction or is manufactured and molded by a whole shaft.

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