CN109333898B

CN109333898B - Freshening product contained in a pressurized plastic container

Info

Publication number: CN109333898B
Application number: CN201811116456.9A
Authority: CN
Inventors: 不公告发明人
Original assignee: Nanjing Xuanshi Qiyuan Software Technology Co Ltd
Current assignee: Nanjing Xuanshi Qiyuan Software Technology Co Ltd
Priority date: 2018-09-25
Filing date: 2018-09-25
Publication date: 2021-11-16
Anticipated expiration: 2038-09-25
Also published as: CN109333898A

Abstract

The invention discloses a refreshing product contained in a pressurized plastic container, which structurally comprises a control processing box, a pressurized plastic container processor, a processing feeding hole, a cooling processing box and an auxiliary output port; the treatment feed inlet is horizontally arranged in the top end of the pressurized plastic container treatment device; the pressurized plastic container processor comprises a translation pushing device, an inflation pushing group, a protective shell, a magnetic field trigger device, hot gas pushing equipment, a pressurized injection molding main die and a gear group; the inflation pushing group is matched with one end, facing the protective shell, of the power-assisted extrusion molding equipment, the hot gas pushing equipment is embedded into the top end of the protective shell, the pressure injection molding main die and the power-assisted extrusion molding equipment are installed on the same central line, and the gear set is movably connected with one end of the hot gas pushing equipment.

Description

Freshening product contained in a pressurized plastic container

Technical Field

The present invention relates to the field of pressurized plastic containers, and more particularly to a freshening product contained within a pressurized plastic container.

Background

Plasticity means that under a certain external force, apparent solid substances have the capacity of deformation resistance, and the fat which is shown as solid at room temperature is actually a mixture of solid fat and liquid oil, the solid fat and the liquid oil are interwoven together and cannot be separated by a common method, the fat has plasticity and can keep a certain shape, most of the fat which is shown as solid at normal temperature is actually composed of solid and liquid phases, the more the fat is crystallized, the more the crystals are arranged, the higher the density of the crystals is, and the plasticity failure criterion considers that the container does not fail when the stress on the wall surface reaches the yield strength of the material, the container fails only when the whole thickness range of the wall is completely yielded, and for the film stress, because the film stress is uniformly distributed along the wall thickness, the one-point yield on the wall means that the whole loaded section of the element is simultaneously yielded; however, as the bending stress is distributed linearly along the wall thickness, because the pressure vessel is made of a material with high ductility, the wall surface stress of the pressure vessel can not exert the bearing potential of the whole section when reaching the material, and the rest materials except the surface can still bear the continuous applied load, so that the equipment can hardly finish the operation independently in the processing process.

For the current pressurization plastic container, the outside is required to control the container from time to time, the container is tracked one by one, the effect of completing the container in place in one step is difficult, the effect is not good, and therefore a large amount of manpower is required, and the container is time-consuming and labor-consuming.

Disclosure of Invention

Aiming at the defects of the prior art, the invention is realized by the following technical scheme: the refreshing product accommodated in the pressurized plastic container structurally comprises a control processing box, a pressurized plastic container processor, a processing feeding hole, a cooling processing box and an auxiliary output port;

the vertical surface of the control processing box is welded on the side surface of one end of the cooling processing box, the bottom of the pressurizing plastic container processor is embedded in the top end of the cooling processing box, the auxiliary output port is arranged on the inner side surface of one end of the cooling processing box, and the processing feed inlet is horizontally arranged in the top end of the pressurizing plastic container processor;

the pressurized plastic container processor comprises a translation pushing device, a power-assisted extrusion molding device, an inflation pushing group, a protective shell, a magnetic field trigger device, a hot gas pushing device, a pressurized injection molding main die and a gear group;

translation thrust unit installs in helping hand extrusion molding equipment bottom one end, magnetic field trigger device installs in helping hand extrusion molding equipment one end of keeping away from translation thrust unit, aerify and promote group and the one end of helping hand extrusion molding equipment towards protective housing and cooperate, steam thrust unit imbeds inside protective housing top, the pressurization is moulded plastics fundamental mode and is moulded equipment installation on same central line with helping hand extrusion molding, gear train and steam thrust equipment one end swing joint.

As a further optimization of the technical scheme, the inflation pushing set comprises a return spring, a linking air passage, an air pushing slider, an air sliding rail, an air charging passage, an inflator pump, a wire, a storage battery and a signal receiving processor, wherein one end of the return spring is installed on the side surface of the air pushing slider, one end of the return spring, which is far away from the air pushing slider, is installed on the inner side surface of the air sliding rail, the linking air passage is installed between the air sliding rail and the air charging passage, the top end of the air charging passage is embedded into the inflator pump, the wire is installed at the top end of the inflator pump, the inflator pump is connected and electrically connected with the low end of the storage battery through the wire, the signal receiving processor is horizontally installed in the middle of the top end of the storage battery, one end of the air pushing slider, which is far away from the return spring, is connected with one end of the power-assisted extrusion molding equipment, and the main pressurizing injection molding mold comprises a soft extrusion opening, an injection linking passage, a signal receiving processor, a signal receiving module, and a signal receiving the signal receiving module, and a signal receiving module, Main processing pipe, fixed plate, plasticity check, software extrusion opening imbeds in the injection linking inside saying the top, main processing pipe links the one end of keeping away from software extrusion opening with the injection linking and meets the expert, the fixed plate welds in plasticity check side surface, plasticity check top and main processing pipe low-end are put through and are installed on same vertical line, main processing pipe top is put through with magnetic field trigger device one end.

As a further optimization of the technical scheme, the translational pushing device comprises a fixed positive magnetic field, a moving negative magnetic field, a first extrusion spring, a telescopic bracket, a pushing rotating shaft and a tilted pushing sliding block, wherein the fixed positive magnetic field and the moving negative magnetic field are installed on the same horizontal plane, the pushing rotating shaft is embedded in one end of the telescopic bracket and is hinged, the first extrusion spring is vertically installed between the two pushing rotating shafts, the tilted pushing sliding block is triangular in structure, the tilted surface of the tilted pushing sliding block is movably connected with the pushing rotating shaft, the magnetic field triggering device comprises a special sliding rail rotating body, a translational pushing rod, a linking rotating shaft, a triggering magnetic field, a stressed magnetic field, a pneumatic pump to be triggered and a linking pneumatic port, the linking rotating shaft is embedded in the special sliding rail rotating body and is located in the same center, and the top end of the translational pushing rod is movably connected with the special sliding rail rotating body, the linkage rotating shaft is embedded into one side of the stressed rotating body, the trigger magnetic field is installed at the head end of the stressed rotating body, the to-be-triggered magnetic field is installed at the bottom end of one side of the to-be-triggered inflating pump and is electrically connected, the linkage inflating port is embedded into the bottom end of the to-be-triggered inflating pump, and the bottom end of the linkage inflating port is communicated with the top end of the main processing pipe.

As a further optimization of this technical scheme, the gear train includes auxiliary runner, stay cord, fixed column, gear, center pin, rack, return spring, sliding magnetic field, slide rail, stay cord one end is walked around auxiliary runner and is connected with steam pushing equipment one end, the stay cord is kept away from the one end of steam pushing equipment and is connected with the fixed column surface, the fixed column is triangle-shaped evenly distributed in gear surface, the center pin imbeds in the gear inside and is located the same axle center, rack top and gear surface rack are connected, sliding magnetic field is connected with return spring one end, return spring keeps away from the one end in sliding magnetic field and welds in the slide rail inboard surface.

As a further optimization of the technical scheme, the hot gas pushing device comprises a raw material to-be-processed grid, a closed extruding body, a fixed block, a pushing rod, a spring, a stressed body, a tilting plate, an injection pipeline, a rotating shaft, a pushing rotating wheel, a second extruding spring, a sliding rail, a heated pushing body, a heat conductor, a PTC heating plate, a movable anode, a stressed spring and a fixed cathode, wherein the closed extruding body is embedded in the raw material to-be-processed grid and movably connected with the raw material to-be-processed grid, the pushing rod is in clearance fit with and movably connected with the fixed block, the spring is symmetrically distributed between the top end of the fixed block and the low end of the stressed body, the rotating shaft is embedded in the middle of the inner part of the tilting plate, the injection pipeline is arranged behind the tilting plate, the pushing rotating wheel is installed at the top end of the second extruding spring, one end of the second extruding spring, far away from the pushing wheel, is welded with the heated pushing body, the heated pushing body is embedded in the sliding rail and movably connected with the tilting plate, the heat conductor is arranged inside the bottom end of the forward sliding rail, the heat conductor is connected with and electrically connected with the top end of the PTC heating plate, the movable anode and the fixed cathode are arranged on the same horizontal plane, the stress spring is arranged between the movable anode and the fixed cathode, and one end of the pull rope is connected with the head end of the movable anode.

As a further optimization of the technical proposal, the power-assisted extrusion molding equipment comprises a fixed stress body, a stress pushing block, an auxiliary pushing middle rod, a clamping and positioning body, a stress block, an auxiliary rod, a power-assisted body, a fixed cylinder, a fixed shell, a main stress rod and a uniform stress plate, one end of the fixed stress body is attached to the stress pushing block, the auxiliary pushing middle rod is positioned between the two clamping and positioning bodies and symmetrically distributed between the two clamping and positioning bodies, the head end of the auxiliary rod is connected with one surface of the stress block, the auxiliary rod is embedded in the booster body, one end of the fixed cylinder is welded with the main stress rod and is positioned on the same axis, the fixed cylinder is embedded in the fixed shell, the one end that fixed cylinder was kept away from to main atress pole welds in even atress board side surface, gas promotes slider one side and installs in the one end that fixed atress body was kept away from to the atress promotion piece.

Advantageous effects

The invention relates to a fresh product accommodated in a pressurized plastic container, which is introduced into a raw material grid to be processed through an injection pipeline according to the principle of the fresh product, a signal receiving processor is sent to the fresh product through the outside to receive the fresh product and start a storage battery of the fresh product, gas is blown into a gas slide rail through a connecting gas channel through a gas filling channel, so that a gas pushing slide block of the fresh product is pushed along the gas slide rail through the thrust of the gas, an inclined pushing slide block arranged at the bottom moves along with the inclined pushing slide block, a pushing rotating shaft is pushed in the moving process of the pushing rotating shaft to extrude a first extrusion spring, a telescopic bracket is pushed to move to one side through the pushing rotating shaft until the inclined pushing slide block and the first extrusion spring are contacted, energy is generated after the inclined pushing slide block and the inclined pushing slide block are contacted with each other, a sliding magnetic field is pushed to move along with the slide rail through the repulsive force of the magnetic field, a gear is pushed to move together through a tooth pattern strip in the moving process of the tooth pattern strip, a fixing column arranged on the gear rotates along with the tooth strip, the two parts will contact together to generate energy, thus triggering the PTC heating plate to start heating, guiding the heat energy into the slide rail through the heat conductor, extruding the spring two, when the heated pushing body moves upwards, pushing one end of the seesaw plate upwards along the rotating shaft by the pushing rotating wheel, making one end near the stressed body move downwards, extruding the raw material in the grid to be processed into the plastic grid, when the stressed pushing block moves, pushing the auxiliary pushing middle rod to move to one side, pushing the stressed block by the auxiliary rod to fix the stressed block, when the stressed pushing block moves, the translation pushing rod installed above will slide along the special slide rail by translation, driving the rotation to the magnetic field to be triggered, after the two parts contact, generating energy, thus opening the inflator pump to be triggered, blowing the gas into the plastic grid through the inflation inlet, the internal principle of the cooling device is compacted by air pressure, and after the cooling device is formed, all devices return to the original positions, so that the formed objects fall into the cooling grids.

Based on the prior art, the invention can operate through required data after sending signals, can be separated from the outside to watch the operation, and can independently complete the operation in one step.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is a schematic view of the structure of a freshening product of the present invention contained in a pressurized plastic container.

Fig. 2 is a first schematic view of the internal structure of the pressurized plastic container processor of the present invention.

Fig. 3 is a second schematic view of the internal structure of the pressurized plastic container processor of the present invention.

Fig. 4 is a schematic view showing the internal structure of the pressurized plastic container processor in an operating state according to the present invention.

Fig. 5 is a schematic view of the internal structure of the hot gas propulsion device of the present invention.

FIG. 6 is a schematic view showing the internal structure of the power-assisted extrusion molding apparatus of the present invention.

In the figure: a control processing box-1, a pressurized plastic container processor-2, a processing feed inlet-3, a cooling processing box-4, an auxiliary output port-5, a translation pushing device-21, a power-assisted extrusion molding device-22, an inflation pushing group-23, a protective shell-24, a magnetic field trigger-25, a hot gas pushing device-26, a pressurized injection molding main die-27, a gear set-28, a reset spring-231, a connecting air passage-232, an air pushing slide block-233, an air slide rail-234, an inflation passage-235, an inflation pump-236, a lead-237, a storage battery-238, a signal receiving processor-239, a soft extrusion opening-271, an injection passage-272, a main processing pipe-273, a fixing plate-274, a plastic grid-275, a plastic grid-2, a plastic grid-24, a plastic injection molding device-6, a pressurized injection molding main die-27, a gear set-28, a reset spring-231, an air injection passage-232, a plastic injection channel-235, a plastic grid-23, a plastic injection channel, a plastic, A fixed positive magnetic field-211, a moving negative magnetic field-212, an extrusion spring-213, a telescopic bracket-214, a pushing rotating shaft-215, an inclined pushing sliding block-216, a special sliding rail rotator-251, a translation pushing rod-252, a connecting rotating shaft-253, a triggering magnetic field-254, a stressed rotator-255, a magnetic field-256 to be triggered, an air pump-257 to be triggered, a connecting inflation inlet-258, an auxiliary rotating wheel-281, a pull rope-282, a fixed column-283, a gear-284, a central shaft-285, a toothed strip-286, a return spring-287, a sliding magnetic field-288, a sliding rail-289, a raw material grid-261 to be processed, a closed extrusion body-262, a fixed block-263, a pushing rod-264, a spring-265, a stressed body-266, a stress body-266, The device comprises a tilting plate-267, an injection pipe-268, a rotating shaft-269, a pushing rotating wheel-2610, a pressing spring-2611, a smooth rail-2612, a heated pushing body-2613, a heat conductor-2614, a PTC heating plate-2615, a moving anode-2616, a stressed spring-2617, a fixed cathode-2618, a fixed stressed body-221, a stressed pushing block-222, an auxiliary pushing middle rod-223, a clamping positioning body-224, a stressed block-225, an auxiliary rod-226, an auxiliary body-227, a fixed cylinder-228, a fixed shell-229, a main stressed rod-2210 and a uniform stressed plate-2211.

Detailed Description

In order to make the technical means, the original characteristics, the achieved purposes and the effects of the invention easy to understand, the following description and the accompanying drawings further illustrate the preferred embodiments of the invention.

Examples

Referring to fig. 1 to 6, the present invention provides a refreshing product contained in a pressurized plastic container, which comprises a control processing tank 1, a pressurized plastic container processor 2, a processing feed port 3, a cooling processing tank 4, and an auxiliary output port 5;

the vertical surface of the control processing box 1 is welded on the side surface of one end of the cooling processing box 4, the bottom of the pressurizing plastic container processor 2 is embedded in the top end of the cooling processing box 4, the auxiliary output port 5 is arranged on the inner side surface of one end of the cooling processing box 4, and the processing feed inlet 3 is horizontally arranged in the top end of the pressurizing plastic container processor 2;

the pressurized plastic container processor 2 comprises a translation pushing device 21, a power-assisted extrusion molding device 22, an inflation pushing group 23, a protective shell 24, a magnetic field trigger device 25, a hot gas pushing device 26, a pressurized injection molding main die 27 and a gear set 28;

translation thrust unit 21 installs in helping hand extrusion moulding equipment 22 bottom one end, magnetic field trigger device 25 installs in helping hand extrusion moulding equipment 22 and keeps away from the one end of translation thrust unit 21, aerify and promote group 23 and the one end cooperation of helping hand extrusion moulding equipment 22 towards protective housing 24, hot gas thrust unit 26 imbeds inside protective housing 24 top, the pressure is moulded plastics main die 27 and is installed on same central line with helping hand extrusion moulding equipment 22, gear train 28 and hot gas thrust unit 26 one end swing joint.

The inflation pushing group 23 comprises a return spring 231, an engaging air channel 232, an air pushing slider 233, an air slide rail 234, an air charging channel 235, an inflator 236, a wire 237, a storage battery 238 and a signal receiving processor 239, wherein one end of the return spring 231 is mounted on the side surface of the air pushing slider 233, one end of the return spring 231, which is far away from the air pushing slider 233, is mounted on the inner side surface of the air slide rail 234, the engaging air channel 232 is mounted between the air slide rail 234 and the air charging channel 235, the top end of the air charging channel 235 is embedded in the inflator 236, the wire 237 is mounted at the top end of the inflator 236, the inflator 236 is connected and electrically connected with the lower end of the storage battery 238 through the wire 237, the signal receiving processor 239 is horizontally mounted in the middle of the top end of the storage battery 238, one end of the air pushing slider 233, which is far away from the return spring 231, is connected with one end of the power-assisted extrusion molding device 22, and the main mold 27 for pressure injection molding comprises a soft extrusion opening 271, a soft extrusion opening, The injection connecting channel 272, the main processing pipe 273, the fixing plate 274 and the plastic grid 275, the soft extrusion opening 271 is embedded into the top end of the injection connecting channel 272, the main processing pipe 273 is communicated with one end of the injection connecting channel 272 far away from the soft extrusion opening 271, the fixing plate 274 is welded on the side surface of the plastic grid 275, the top end of the plastic grid 275 is communicated with the lower end of the main processing pipe 273 and is installed on the same vertical line, and the top end of the main processing pipe 273 is communicated with one end of the magnetic field trigger device 25.

The translational pushing device 21 comprises a fixed positive magnetic field 211, a moving negative magnetic field 212, a first extrusion spring 213, a telescopic bracket 214, a pushing rotating shaft 215 and an inclined pushing sliding block 216, the fixed positive magnetic field 211 and the moving negative magnetic field 212 are installed on the same horizontal plane, the pushing rotating shaft 215 is embedded in one end of the telescopic bracket 214 and is hinged, the first extrusion spring 213 is vertically installed between the two pushing rotating shafts 215, the inclined pushing sliding block 216 is triangular in structure, the inclined surface of the inclined pushing sliding block 216 is movably connected with the pushing rotating shaft 215, the magnetic field triggering device 25 comprises a special sliding rail rotating body 251, a translational pushing rod 252, a linking rotating shaft 253, a triggering magnetic field 254, a stressed rotating body 255, a magnetic field 256 to be triggered, an air pump 257 to be triggered and an air charging port 258, the linking rotating shaft 253 is embedded in the special sliding rail rotating body 251 and is located in the same center, the top end of the translation pushing rod 252 is movably connected with the special sliding rail rotating body 251, the linking rotating shaft 253 is embedded into one side of the stressed rotating body 255, the triggering magnetic field 254 is installed at the head end of the stressed rotating body 255, the to-be-triggered magnetic field 256 is installed at the bottom end of one side of the to-be-triggered inflator pump 257 and is electrically connected with the bottom end of the to-be-triggered inflator pump 257, the linking inflation inlet 258 is embedded into the bottom end of the to-be-triggered inflator pump 257, and the bottom end of the linking inflation inlet 258 is communicated with the top end of the main processing pipe 273.

The gear set 28 includes an auxiliary rotating wheel 281, a pull rope 282, a fixing column 283, a gear 284, a central shaft 285, a toothed strip 286, a return spring 287, a sliding magnetic field 288, and a slide rail 289, wherein one end of the pull rope 282 bypasses the auxiliary rotating wheel 281 to be connected with one end of the hot air pushing device 26, one end of the pull rope 282 away from the hot air pushing device 26 is connected with the outer surface of the fixing column 283, the fixing columns 283 are uniformly distributed on the outer surface of the gear 284 in a triangular shape, the central shaft 285 is embedded inside the gear 284 and located on the same axis, the top end of the toothed strip 286 is in toothed connection with the outer surface of the gear 284, the sliding magnetic field 288 is connected with one end of the return spring 287, and one end of the return spring 287 away from the sliding magnetic field 288 is welded on the inner surface of the slide rail 289.

The hot gas pushing device 26 comprises a raw material to-be-processed grid 261, a closed pressing body 262, a fixed block 263, a pushing rod 264, a spring 265, a force-bearing body 266, a tilting plate 267, an injection pipe 268, a rotating shaft 269, a pushing rotating wheel 2610, a second pressing spring 2611, a smooth rail 2612, a heated pushing body 2613, a heat conductor 2614, a PTC heating plate 2615, a moving anode 2616, a force-bearing spring 2617 and a fixed cathode 2618, wherein the closed pressing body 262 is embedded in the raw material to-be-processed grid 261 and movably connected, the pushing rod 264 is in clearance fit with and movably connected with the fixed block 263, the spring 265 is arranged between the top end of the fixed block 263 and the lower end of the force-bearing body 266 and symmetrically distributed, the rotating shaft 269 is embedded in the middle inside the tilting plate 267, the injection pipe 268 is arranged behind the tilting plate 267, the pushing rotating wheel 2610 is arranged at the top end of the second pressing spring 2611, one end of the second pressing spring 2611, which is far away from the pushing rotating wheel 2610, is welded with the heated pushing body 2613, the heated pushing body 2613 is embedded in the slide rail 2612 and movably connected, the heat conductor 2614 is installed in the bottom end of the slide rail 2612, the heat conductor 2614 is connected with and electrically connected with the top end of the PTC heating plate 2615, the movable anode 2616 and the fixed cathode 2618 are installed on the same horizontal plane, the stressed spring 2617 is installed between the movable anode 2616 and the fixed cathode 2618, and one end of the pull rope 282 is connected with the head end of the movable anode 2616.

The power-assisted extrusion molding device 22 comprises a fixed stress body 221, a stress pushing block 222, an auxiliary pushing middle rod 223, a clamping positioning body 224, a stress block 225, an auxiliary rod 226, a power body 227, a fixed cylinder 228, a fixed shell 229, a main stress rod 2210, a uniform stress plate 2211, one end of the fixed stress body 221 is jointed with the stress pushing block 222, the auxiliary pushing middle rod 223 is positioned between the two clamping positioning bodies 224 to make the two clamping positioning bodies symmetrically distributed, the head end of the auxiliary rod 226 is connected with one surface of the force-bearing block 225, the auxiliary rod 226 is embedded in the force-bearing body 227, one end of the fixed cylinder 228 is welded to the main stress bar 2210 and is located on the same axis, the fixing cylinder 228 is embedded inside the fixing housing 229, one end of the main force bearing rod 2210 remote from the fixing cylinder 228 is welded to the side surface of the uniform force bearing plate 2211, the air-pushing slider 233 is installed at one side of the force-receiving pushing block 222 away from the fixed force-receiving body 221.

The principle of the invention is as follows: the principle of the method is led into a raw material grid to be processed 261 through an injection pipeline 268 by the outside, a signal is sent to a signal receiving processor 239 by the outside, the raw material grid is received, a storage battery 238 of the raw material grid is started, the electric quantity of the raw material grid is led into an inflator pump 236 through a lead 237, the raw material grid is started and inflated, gas is blown into a gas slide rail 234 through a connecting gas channel 232 through an inflation gas channel 235, a gas push slide block 233 of the raw material grid is pushed along the gas slide rail 234 through the thrust of the gas, a force push block 222 is pushed by the movement of the gas push slide block 233, when the force push block 222 moves, an inclined push slide block 216 arranged at the bottom moves along with the gas push slide rail, and in the moving process, a push rotating shaft 215 is pushed to push a first push spring 213, so that a telescopic bracket 214 is pushed to move to one side by the pushing rotating shaft 215, and a moving cathode magnetic field 212 is pushed to move towards a fixed magnetic field 211, until the two contact each other, energy is generated, so that the sliding magnetic field 288 is pushed to move along the sliding rail 289 by the mutual repulsive force of the magnetic fields, the return spring 287 is pressed, when the sliding magnetic field 288 moves, the toothed strip 286 arranged at the top end is driven together, in the process of moving the toothed strip 286, the toothed strip 284 is pushed to move together by the toothed strip, the fixed column 283 arranged on the gear 284 rotates together with the gear, the pull rope 282 is pulled by rotating to move the positive pole 2616 to the fixed negative pole 2618 by the auxiliary rotating wheel 281, the two contact each other, energy is generated, the PTC heating plate 2615 is triggered to start heating, heat energy is led into the sliding rail 2612 through the heat conductor 2614, the heat pushing body 2613 is subjected to the heat expansion force, the two pushing springs 2611 are pressed, when the heat pushing body 2613 moves upwards, one end of a warping plate 267 of a pushing rotating wheel 2610 is pushed upwards along a rotating shaft 269, so that one end close to a stressed body 266 moves downwards and pushes the end downwards, thereby driving a closed extrusion body 262 arranged at the bottom to move, extruding raw materials in a raw material to-be-processed grid 261 into a plastic grid 275, when the stressed pushing block 222 moves, pushing an auxiliary pushing middle rod 223 to move towards one side, thereby clamping a clamping positioning body 224 towards the inner side, pushing the stressed block 225 by an auxiliary rod 226 to fix the stressed block, when the stressed pushing block 222 moves, a translation pushing rod 252 arranged above slides along a special sliding rail rotator 251 through translation, thereby driving the stressed pushing block to rotate, thereby driving a rotating shaft 253 and a trigger magnetic field 254 arranged on the outer surface of the stressed rotating body 255 to rotate to the to-be-triggered magnetic field 256 through rotation of the trigger magnetic field 254, and generating energy after the two contact, thereby opening the to-be-triggered air pump 257, air is blown into the plastic lattice 275 through the connecting inflation port 258, the internal principle of the plastic lattice is compacted through air pressure, and after the plastic lattice is formed, all the devices return to enable the formed object to fall into the cooling lattice.

The PTC heating plate 2615 is also called as a PTC heater, and is composed of a PTC ceramic heating element and an aluminum pipe, the PTC heating element has the advantages of small thermal resistance and high heat exchange efficiency, the PTC heating element is an automatic constant-temperature and electricity-saving electric heater, and the PTC heating element is characterized in that the safety performance is high, the surface of the electric heating pipe heater does not generate the phenomenon of 'red color' under any application condition, so that potential safety hazards such as scalding, fire and the like are caused, and the pressure injection main die 27 is a die used for casting a metal die blank and has secondary shrinkage allowance.

The invention solves the problem that the existing pressurized plastic container needs to be controlled by the outside in real time, the pressurized plastic container can follow up step by step, the effect of completing the pressurized plastic container in place in one step is difficult, the effect is not good, so a great deal of manpower is needed, the time and the labor are consumed, and the pressurized plastic container can be operated through required data after the pressurized plastic container is used for sending signals through the mutual combination of the components, can be separated from the outside to watch the pressurized plastic container, and can independently complete the operation in place in one step.

While there have been shown and described what are at present considered the fundamental principles of the invention, the essential features and advantages thereof, it will be understood by those skilled in the art that the present invention is not limited by the embodiments described above, which are merely illustrative of the principles of the invention, but rather, is capable of numerous changes and modifications in various forms without departing from the spirit or essential characteristics thereof, and it is intended that the invention be limited not by the foregoing descriptions, but rather by the appended claims and their equivalents.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims

1. The fresh product contained in the pressurized plastic container structurally comprises a control processing box (1), a pressurized plastic container processor (2), a processing feeding hole (3), a cooling processing box (4) and an auxiliary output port (5), and is characterized in that:

the vertical surface of the control processing box (1) is welded on the side surface of one end of the cooling processing box (4), the bottom of the pressurizing plastic container processor (2) is embedded in the top end of the cooling processing box (4), the auxiliary output port (5) is installed on the inner side surface of one end of the cooling processing box (4), and the processing feed inlet (3) is horizontally installed in the top end of the pressurizing plastic container processor (2);

the pressurized plastic container processor (2) comprises a translation pushing device (21), an assisted extrusion molding device (22), an inflation pushing group (23), a protective shell (24), a magnetic field trigger device (25), a hot gas pushing device (26), a pressurized injection molding main die (27) and a gear set (28);

the translational pushing device (21) is mounted at one end of the bottom of the power-assisted extrusion molding device (22), the magnetic field triggering device (25) is mounted at one end, far away from the translational pushing device (21), of the power-assisted extrusion molding device (22), the inflation pushing group (23) is matched with one end, facing the protective shell (24), of the power-assisted extrusion molding device (22), the hot air pushing device (26) is embedded into the top end of the protective shell (24), the pressurization injection molding main die (27) and the power-assisted extrusion molding device (22) are mounted on the same central line, and the gear set (28) is movably connected with one end of the hot air pushing device (26);

the inflation pushing group (23) comprises a return spring (231), a connecting air channel (232), an air pushing sliding block (233), an air sliding rail (234), an inflation channel (235), an inflator pump (236), a lead (237), a storage battery (238) and a signal receiving processor (239), one end of the return spring (231) is installed on the side surface of the air pushing sliding block (233), one end, far away from the air pushing sliding block (233), of the return spring (231) is installed on the inner side surface of the air sliding rail (234), the connecting air channel (232) is installed between the air sliding rail (234) and the inflation channel (235), the top end of the inflation channel (235) is embedded into the inflator pump (236), the lead (237) is installed at the top end of the inflator pump (236), the inflator pump (236) is connected and electrically connected with the lower end of the storage battery (238) through the lead (237), the signal receiving processor (239) is horizontally installed in the middle of the top end of the storage battery (238), one end of the pneumatic push sliding block (233) far away from the return spring (231) is connected with one end of the power-assisted extrusion molding equipment (22);

the pressure injection molding main die (27) comprises a soft extrusion opening (271), an injection connecting channel (272), a main processing pipe (273), a fixing plate (274) and a plastic grid (275), wherein the soft extrusion opening (271) is embedded into the top end of the injection connecting channel (272), the main processing pipe (273) is communicated with one end, away from the soft extrusion opening (271), of the injection connecting channel (272), the fixing plate (274) is welded on the side surface of the plastic grid (275), the top end of the plastic grid (275) is communicated with the lower end of the main processing pipe (273) and is arranged on the same vertical line, and the top end of the main processing pipe (273) is communicated with one end of a magnetic field trigger device (25);

the translational pushing device (21) comprises a fixed positive magnetic field (211), a movable negative magnetic field (212), a first extrusion spring (213), a telescopic bracket (214), a pushing rotating shaft (215) and an inclined pushing sliding block (216), wherein the fixed positive magnetic field (211) and the movable negative magnetic field (212) are arranged on the same horizontal plane, the pushing rotating shaft (215) is embedded in one end of the telescopic bracket (214) and is hinged, the first extrusion spring (213) is vertically arranged between the two pushing rotating shafts (215), the inclined pushing sliding block (216) is triangular in structure, and the inclined surface of the inclined pushing sliding block (216) is movably connected with the pushing rotating shaft (215);

the magnetic field trigger device (25) comprises a special sliding rail rotating body (251), a translation pushing rod (252), a connecting rotating shaft (253), a trigger magnetic field (254), a stressed rotating body (255), a to-be-triggered magnetic field (256), a to-be-triggered inflating pump (257) and a connecting inflating opening (258), the connecting rotating shaft (253) is embedded in the special sliding rail rotating body (251) and is positioned on the same center, the top end of the translation pushing rod (252) is movably connected with a special sliding rail rotating body (251), the connecting rotating shaft (253) is embedded in one side of the stressed rotator (255), the trigger magnetic field (254) is arranged at the head end of the stressed rotator (255), the magnetic field (256) to be triggered is arranged at the bottom end of one side of the inflator pump (257) to be triggered and is electrically connected, the connecting inflation inlet (258) is embedded in the bottom end of the inflator pump (257) to be triggered, the bottom end of the connecting inflation port (258) is communicated with the top end of the main processing pipe (273);

the gear set (28) comprises an auxiliary rotating wheel (281), a pull rope (282), a fixed column (283), a gear (284), a central shaft (285), a toothed strip (286), a return spring (287), a sliding magnetic field (288) and a sliding rail (289), one end of the pull rope (282) bypasses the auxiliary rotating wheel (281) and is connected with one end of the hot air pushing device (26), one end of the pull rope (282) far away from the hot gas pushing device (26) is connected with the outer surface of the fixed column (283), the fixing columns (283) are uniformly distributed on the outer surface of the gear (284) in a triangular shape, the central shaft (285) is embedded in the gear (284) and is positioned on the same axis, the top end of the rack (286) is connected with the outer surface of the gear (284) in a toothed manner, the sliding magnetic field (288) is connected with one end of the return spring (287), one end of the return spring (287) far away from the sliding magnetic field (288) is welded on the inner side surface of the sliding rail (289).

2. A freshening product in accordance with claim 1 contained in a pressurized plastic container in which: the hot gas pushing device (26) comprises a raw material grid to be processed (261), a closed extruding body (262), a fixed block (263), a pushing rod (264), a spring (265), a stress body (266), a tilting plate (267), an injection pipe (268), a rotating shaft (269), a pushing rotating wheel (2610), a second extruding spring (2611), a smooth rail (2612), a heated pushing body (2613), a heat conductor (2614), a PTC heating plate (2615), a movable anode (2616), a stressed spring (2617) and a fixed cathode (2618), wherein the closed extruding body (262) is embedded in the raw material grid to be processed (261) and movably connected with the fixed block (263), the pushing rod (264) is in clearance fit and movably connected with the fixed block (263), the spring (265) is installed between the top end of the fixed block (263) and the lower end of the stress body (266) and symmetrically distributed, and the rotating shaft (269) is embedded in the middle of the inner part of the tilting plate (267), the injection pipeline (268) is arranged behind the tilting plate (267), the pushing rotating wheel (2610) is installed at the top end of a second extrusion spring (2611), one end, far away from the pushing rotating wheel (2610), of the second extrusion spring (2611) is welded with a heated pushing body (2613), the heated pushing body (2613) is embedded inside the smooth rail (2612) and is movably connected with the smooth rail (2612), the heat conductor (2614) is installed inside the bottom end of the smooth rail (2612), the heat conductor (2614) is connected with and electrically connected with the top end of the PTC heating plate (2615), the movable anode (2616) and the fixed cathode (2618) are installed on the same horizontal plane, the stressed spring (2617) is installed between the movable anode (2616) and the fixed cathode (2618), and one end of the pull rope (282) is connected with the head end of the movable anode (2616).

3. A freshening product in accordance with claim 1 contained in a pressurized plastic container in which: the power-assisted extrusion molding equipment (22) comprises a fixed stress body (221), a stress pushing block (222), an auxiliary pushing middle rod (223), clamping positioning bodies (224), a stress block (225), an auxiliary rod (226), a power body (227), a fixed cylinder (228), a fixed shell (229), a main stress rod (2210) and an even stress plate (2211), wherein one end of the fixed stress body (221) is attached to the stress pushing block (222), the auxiliary pushing middle rod (223) is positioned between the two clamping positioning bodies (224) to be symmetrically distributed, the head end of the auxiliary rod (226) is connected with one surface of the stress block (225), the auxiliary rod (226) is embedded into the power body (227), one end of the fixed cylinder (228) is welded with the main stress rod (2210) and positioned on the same axis, the fixed cylinder (228) is embedded into the fixed shell (229), one end of the main stress rod (2210) far away from the fixed cylinder (228) is welded on the side surface of the uniform stress plate (2211), and one side of the air pushing slider (233) is arranged at one end of the stress pushing block (222) far away from the fixed stress body (221).