CN113415452B - Electric vehicle cushion packaging device and using method thereof - Google Patents

Abstract

The invention discloses an electric vehicle cushion packaging device and a using method thereof. The invention belongs to the technical field of electric vehicle cushion packaging, and particularly relates to an electric vehicle cushion packaging device and a using method thereof; the invention pre-deforms the packaging bag through the direct current air, avoids the problem that the packaging bag is damaged due to friction between the leather cushion and the packaging bag when being filled, overcomes the technical bias that the packaging electric vehicle cushion can only be wound in multiple layers, uses the steel elastic sheet with the shape memory characteristic, realizes the technical effect of self-guiding the end part of the wound memory elastic self-guiding steel belt under the condition of no steering or guiding device, and effectively solves the problems of low efficiency, serious waste of packaging consumables, non-tight packaging and the like of the traditional manual or mechanical winding packaging mode.

Description

Electric vehicle cushion packaging device and using method thereof

Technical Field

The invention belongs to the technical field of electric vehicle cushion packaging, and particularly relates to an electric vehicle cushion packaging device and a using method thereof.

Background

The traditional package of the electric vehicle cushion mainly comprises two categories of winding package and filling package, and the winding package has the advantages of high degree of freedom, strong operation adaptability, small difficulty, convenient operation and the like; meanwhile, the problems of serious raw material waste, low packaging speed, easy exposure, incapability of sealing and the like are also solved; although the package of packing is extravagant few raw materials, and the cooperation pyrocondensation technique also can reach fine laminating nature, because the electric motor car cushion is the cortex mostly, and the coefficient of friction between the plastic bag is great, when packing easily with this soft plastic bag tear, so only can pack through the manual work at present.

In order to overcome the technical problems, the conventional solution idea is to perform corresponding evasive actions when the seat and the plastic bag are about to contact through machine vision detection, but the method has the disadvantages of high technical difficulty, high cost and difficult popularization; therefore, the invention provides a full-automatic electric vehicle cushion packaging device which realizes anti-friction and high efficiency based on a predeformation principle and a using method thereof.

Disclosure of Invention

Aiming at the situation and overcoming the defects of the prior art, the invention provides the novel electric vehicle cushion packaging device and the using method thereof, aiming at the problems that the packaging efficiency is low, the packaging consumables are seriously wasted, the package is not tight and the like because a plurality of layers of winding are needed during the plastic packaging of the vehicle seat; the invention applies the pre-acting principle, the packaging bag is pre-deformed by direct current air before mechanical filling, the technical problem that the packaging bag is easy to tear due to friction between the packaging bag and a packaged object during mechanical filling is solved, the technical bias that only multilayer winding can be carried out during packaging of the electric vehicle cushion is overcome, and the problems of low efficiency, serious waste of packaging consumables, non-tight packaging and the like of the traditional manual or mechanical winding packaging mode are effectively solved.

When the cylindrical packaging bag is bound, the invention creatively uses the elastic metal material to realize self-guiding, uses the steel elastic sheet with shape memory property to realize the technical effect of self-guiding of the end part of the package memory elastic self-guiding steel belt under the condition of no steering and guiding device, and when the package memory elastic self-guiding steel belt is wound, the self-lifting cantilever is downwards slid through the interaction of the pulling force of the package memory elastic self-guiding steel belt and the elastic force of the reset spring, and the cylindrical heat-shrinkable packaging bag is bound by matching with the package memory elastic self-guiding steel belt.

After the cylindrical expansion air cavity is heated by high-temperature air blown out by the inclined hot air blowing device, the air in the cylindrical expansion air cavity can expand and push out the linear piston rod, the cylindrical heat-shrinkable packaging bag is cut off by driving the special-shaped self-guided cutting blade, and the technical effect of driving the special-shaped self-guided cutting blade to cut under the condition without any driving unit is really realized.

The technical scheme adopted by the invention is as follows: the invention relates to an electric vehicle cushion packaging device and a using method thereof, which comprises a pre-limiting unpowered cutting device, a memory elastic sheet type self-resetting type packaging mouth-binding device, a gas direct-current self-positioning type pre-deforming device, a planetary rotary frame and a transmission heat-shrinking device, wherein the pre-limiting unpowered cutting device is arranged on the memory elastic sheet type self-resetting type packaging mouth-binding device, the pre-limiting unpowered cutting device can be driven to complete cutting through heat radiated by a heat-shrinking process under the condition without a power element, the memory elastic sheet type self-resetting type packaging mouth-binding devices are symmetrically arranged on the planetary rotary frame, the memory elastic sheet type self-resetting type packaging mouth-binding device can enable the pre-limiting unpowered cutting device to automatically return to an initial position, the gas direct-current self-positioning type pre-deforming device is arranged on the transmission heat-shrinking device, and the gas direct-current self-positioning type pre-deforming device can be arranged before goods are loaded, forming an internal hollow drum which is convenient to contain, wherein the planetary rotary machine is erected on the transmission heat-shrinkable device; the pre-limiting unpowered cutting device comprises a thermal expansion type unpowered cutting device and a self-lifting magnetic clutch device, wherein the thermal expansion type unpowered cutting device is arranged on the self-lifting magnetic clutch device, and the self-lifting magnetic clutch device is clamped and slidably arranged on the memory elastic sheet type self-resetting packaging binding device.

Further, the thermal expansion type unpowered cutting device comprises an expansion air cavity base, a cylindrical expansion air cavity, a linear piston rod, a sealing piston ring and a special-shaped self-guiding cutting blade, wherein the expansion air cavity base is arranged on the self-lifting type magnetic clutch device, the cylindrical expansion air cavity is arranged on the expansion air cavity base, the special-shaped self-guiding cutting blade is arranged on the self-lifting type magnetic clutch device in a clamping and sliding manner, a transverse driving tool rest is arranged on the special-shaped self-guiding cutting blade, the linear piston rod is arranged on the transverse driving tool rest, a piston rod end piston disc is arranged at the end part of the linear piston rod, the sealing piston ring is arranged on the piston rod end piston disc in a clamping and sliding manner, the sealing piston ring is arranged in the cylindrical expansion air cavity in a clamping and sliding and sealing manner, and is in sliding and sealing contact with the inner wall of the cylindrical expansion air cavity, when the cylindrical expansion air cavity is heated, the internal air can expand to push the linear piston rod to slide along the inner wall of the cylindrical expansion air cavity, an arc-shaped cutter head is arranged at the end part of the special-shaped self-guiding cutting blade, and the linear piston rod drives the arc-shaped cutter head to complete cutting action when extending out.

Further, the self-lifting magnetic clutch device comprises a self-lifting cantilever, an electromagnet adsorption block and an L-shaped limit barrier strip, the base of the expansion air cavity is arranged on the self-lifting cantilever, the end part of the self-lifting cantilever is provided with a cantilever sliding boss, the self-lifting cantilever is clamped and slidingly arranged on the memory spring plate type self-resetting packaging bundle opening device through a cantilever sliding boss, the self-lifting cantilever is provided with a cantilever guide square hole and a cantilever guide round hole, the L-shaped limit stop strip is arranged on the memory spring plate type self-resetting packaging binding device, the self-lifting cantilever is clamped and slidably arranged on the L-shaped limiting barrier through a cantilever guide square hole, the electromagnet adsorption block is arranged on the self-lifting cantilever and can generate magnetic attraction when being electrified, the self-lifting cantilever is provided with a cantilever bar-shaped sliding groove, and the special-shaped self-guiding cutting blade is clamped and slidably arranged in the cantilever bar-shaped sliding groove.

Preferably, the memory spring plate type self-reset packaging mouth-binding device comprises an L-shaped guide frame, a circular guide post, a reset spring, a U-shaped limit frame, a steel belt driving limit device and a belt transmission driving unit, wherein the L-shaped guide frame is arranged on a planetary rotating frame, a lifting chute is arranged on the L-shaped guide frame, a self-lifting cantilever is clamped and slid in the lifting chute through a cantilever sliding boss, a top limit baffle is arranged at the top of the lifting chute on the L-shaped guide frame, a bottom position avoiding square groove is arranged on the L-shaped guide frame, the U-shaped limit frame is arranged on the L-shaped guide frame, the L-shaped limit baffle is arranged on the U-shaped limit frame, the circular guide post is arranged on the U-shaped limit frame, the self-lifting cantilever is clamped and slid on the circular guide post through a cantilever guide round hole, one end of the reset spring is arranged on the U-shaped limit frame, the other end of the reset spring is arranged on the self-lifting cantilever, and the reset spring can automatically reset the position of the self-lifting cantilever to the highest point under the condition of no driving element when the electromagnet adsorption block is in a power-off state; the steel belt driving limiting device is arranged on the L-shaped guide frame, and the belt driving unit is arranged on the L-shaped guide frame.

The steel belt driving limiting device comprises a steel belt rolling shaft supporting frame, a steel belt rolling shaft, a wound memory elastic self-guiding steel belt and an electric melting device, wherein the steel belt rolling shaft supporting frame is symmetrically arranged at the back of the L-shaped guide frame, the steel belt rolling shaft is rotatably arranged in the steel belt rolling shaft supporting frame, the wound memory elastic self-guiding steel belt is wound on the steel belt rolling shaft and can be attracted by the magnetic attraction of an electromagnet adsorption block, the wound memory elastic self-guiding steel belt is made of spring steel and is arc-shaped in a free state, the diameter of the arc is close to the longitudinal height of the L-shaped guide frame, when the wound memory elastic self-guiding steel belt extends out, the end part can automatically move to the position above the electromagnet adsorption block, and the electric melting device is arranged on the U-shaped limiting frame; the belt transmission driving unit comprises a steel belt driving motor, a steel belt movement driving belt pulley, a steel belt movement driven belt pulley and a steel belt movement transmission belt, the steel belt driving motor is arranged on the L-shaped guide frame, the steel belt movement driving belt pulley is clamped on an output shaft of the steel belt driving motor, the steel belt movement driven belt pulley is clamped on a steel belt package rolling shaft, the steel belt movement transmission belt is arranged on the steel belt movement driving belt pulley in a rolling mode, and the steel belt movement transmission belt is arranged on the steel belt movement driven belt pulley in a rolling mode.

As a further preferred aspect of the present invention, the gas straight-flow self-positioning type pre-deformation device comprises a packaging bag pre-deformation device and a cushion conveying device, wherein the packaging bag pre-deformation device is arranged on the transmission heat shrinkage device, and the cushion conveying device is arranged on the transmission heat shrinkage device; the packaging bag pre-deformation device comprises a square frame supporting base, a square frame-shaped packaging bag supporting frame, a cylindrical heat-shrinkable packaging bag, an air nozzle fixing frame and a straight-flow air nozzle, wherein the square frame supporting base is arranged on a transmission heat-shrinkable device, the square frame-shaped packaging bag supporting frame is arranged on the square frame supporting base, the cylindrical heat-shrinkable packaging bag is arranged on the square frame-shaped packaging bag supporting frame in a sliding manner, the cylindrical heat-shrinkable packaging bag is made of a heat-shrinkable material and can be shrunk when heated by hot air so as to be attached to the surface of an object, and when the object is heated by an electric melter, the cylindrical heat-shrinkable packaging bag is re-solidified into a block shape after being melted, so that the end part is sealed, the air nozzle fixing frame is fixedly connected with the end part of the square frame-shaped packaging bag supporting frame, the straight-flow air nozzle is clamped in the air nozzle fixing frame and blows air into the cylindrical heat-shrinkable packaging bag, so that the cylindrical heat-shrinkable packaging bag is in an inner hollow state before being loaded, thereby avoiding the situation that the cylindrical heat-shrinkable packaging bag is torn due to the surface friction between the cylindrical heat-shrinkable packaging bag and the object.

Further, cushion conveyor includes pay-off electric cylinder base, pay-off electric cylinder body, pay-off removal basal disc, pay-off fixed suction cup and electric motor car cushion body, pay-off electric cylinder base is located on the transmission pyrocondensation device, pay-off electric cylinder body block is located in the pay-off electric cylinder base, the tip of pay-off electric cylinder body is located to pay-off removal basal disc, pay-off fixed suction cup block is located in the pay-off removal basal disc, be equipped with cushion bottom plate on the electric motor car cushion body, pay-off fixed suction cup adsorbs fixedly with the electric motor car cushion body through cushion bottom plate.

Preferably, the planetary revolving frame comprises a planetary telescopic device, a planetary rotation device, a planetary revolution device and a planetary carrier lifting device, the planetary carrier lifting device is arranged on the transmission heat shrinkage device, the planetary revolution device is arranged on the planetary carrier lifting device, the planetary rotation device is symmetrically arranged on the planetary revolution device, the planetary telescopic device is arranged on the planetary rotation device, and the L-shaped guide frame is arranged on the planetary telescopic device.

The conveying and heat-shrinking device comprises a main body square bottom plate, an upper controller, an inclined hot blast device and a belt conveying device, wherein the square frame supporting base is arranged on the main body square bottom plate; the belt transmission device comprises belt transmission fork frames, a belt transmission main shaft, a belt transmission roller, an elastic transmission belt and a belt transmission driving motor, wherein the belt transmission fork frames are symmetrically arranged on a square bottom plate of the main body; the upper controller is in communication connection with the inclined hot blast device, the upper controller is in communication connection with the belt transmission device, the upper controller is in communication connection with the electric hot-melting device, and the upper controller is in communication connection with the electromagnet adsorption block.

The invention discloses a using method of a cushion packaging device of an electric vehicle, which comprises the following steps:

the method comprises the following steps: when the cylindrical heat-shrinkable packaging bag is used for the first time, the tail end of the cylindrical heat-shrinkable packaging bag needs to be pulled out for a certain distance manually, preparation action is made, and then the following steps are controlled by an upper controller;

step two: the belt transmission driving unit drives the steel belt package rolling shaft to rotate, when the tail end of the package memory elastic self-guiding steel belt moves to the position above the electromagnet adsorption block, the electromagnet adsorption block is electrified, and the package memory elastic self-guiding steel belt is adsorbed on the electromagnet adsorption block through the magnetic attraction between the electromagnet adsorption block and the package memory elastic self-guiding steel belt;

step three: the belt transmission driving unit is used for reversely rotating the steel belt rolling shaft, and the self-lifting cantilever is driven to move downwards by the tensile force recovered by the package memory elastic self-guiding steel belt, so that the end part of the cylindrical heat-shrinkable packaging bag is tightened;

step four: the straight-flow air nozzle supplies air towards the cylindrical heat-shrinkable packaging bag to change the cylindrical heat-shrinkable packaging bag into a state of swelling the inside, and then the electric vehicle cushion body adsorbed by the feeding fixed sucker is delivered into the cylindrical heat-shrinkable packaging bag through the feeding electric cylinder body and then loosened;

step five: the cylindrical heat-shrinkable packaging bag which is tightened up is heated by an electric heating melter to be melted at a package memory elastic self-guiding steel belt and then solidified into blocks again, so that sealing is kept;

step six: through the linkage of the planetary rotation device, the planetary revolution device and the planetary carrier lifting device, one group of the tightened pre-limiting unpowered cutting device and the memory elastic sheet type self-resetting type packaging beam opening device of the planetary telescopic device horizontally moves to the end part of the belt transmission device along the belt transmission device, and then the steps two to three are repeated, so that the pre-limiting unpowered cutting device and the memory elastic sheet type self-resetting type packaging beam opening device on the other group of the planetary telescopic device are also tightened to fix the cylindrical heat-shrinkable type packaging bag;

step seven: the oblique hot blast device blows hot air, the cylindrical heat shrinkage type packaging bag is shrunk and attached to the electric vehicle cushion body through the hot air, redundant air in the cylindrical heat shrinkage type packaging bag is discharged through one end, close to the gas straight-flow self-positioning type pre-deformation device, of the cylindrical heat shrinkage type packaging bag, and at the moment, a group of heat expansion type unpowered cutting devices close to the oblique hot blast device drives the special-shaped self-guiding cutting blades to slide due to temperature rise to cut off the cylindrical heat shrinkage type packaging bag with the end portion solidified into blocks;

and then, circulating the steps from four to seven, and packaging the electric vehicle cushion body in sequence.

The invention with the structure has the following beneficial effects: the scheme provides a novel electric vehicle cushion packaging device and a using method thereof, which aim at the problems that when a saddle is packaged in a plastic packaging mode, multiple layers of winding are needed, so that the packaging efficiency is low, packaging consumables are seriously wasted, the package is not tight, and the like; the invention applies the pre-acting principle, the packaging bag is pre-deformed by direct current air before mechanical filling, the technical problem that the packaging bag is easy to tear due to friction between the packaging bag and a packaged object during mechanical filling is solved, the technical bias that only multilayer winding can be carried out during packaging of the electric vehicle cushion is overcome, and the problems of low efficiency, serious waste of packaging consumables, non-tight packaging and the like of the traditional manual or mechanical winding packaging mode are effectively solved.

When the cylindrical packaging bag is subjected to mouth tying, the invention creatively uses an elastic metal material to realize self-guiding, the package memory elastic self-guiding steel belt is made of spring steel, the shape of the package memory elastic self-guiding steel belt in a free state is arc, the diameter of the arc is close to the longitudinal height of the L-shaped guide frame, when the package memory elastic self-guiding steel belt extends out, the end part can automatically move to the position above the electromagnet adsorption block in a surrounding manner, the technical effect of the end part self-guiding of the package memory elastic self-guiding steel belt is realized under the condition of no steering and guiding device, and when the package memory elastic self-guiding steel belt is wound, the self-lifting cantilever is enabled to slide downwards through the interaction of the pulling force of the package memory elastic self-guiding steel belt and the elastic force of the reset spring, and the package memory elastic self-guiding steel belt is matched to tie the cylindrical heat-shrinkable packaging bag.

After the cylindrical expansion air cavity is heated by high-temperature air blown out by the inclined hot air blowing device, the air in the cylindrical expansion air cavity can expand and push out the linear piston rod, the cylindrical heat-shrinkable packaging bag is cut off by driving the special-shaped self-guided cutting blade, and the technical effect of driving the special-shaped self-guided cutting blade to cut under the condition without any driving unit is really realized.

The cylindrical heat-shrinkable packaging bag is made of a heat-shrinkable material and can be shrunk when heated by hot air, so that the cylindrical heat-shrinkable packaging bag is attached to the surface of an object and is re-solidified into a block after being melted when being heated by an electric melter, and the end part is sealed.

Drawings

FIG. 1 is a perspective view of a cushion packaging device for an electric vehicle according to the present invention;

FIG. 2 is a front view of the packing device for the cushion of the electric vehicle of the present invention;

FIG. 3 is a cross-sectional view taken along section line A-A of FIG. 2;

FIG. 4 is a cross-sectional view taken along section line B-B of FIG. 3;

FIG. 5 is a schematic structural view of a pre-limiting unpowered cutting device of an electric vehicle cushion packaging device of the present invention;

FIG. 6 is a schematic structural view of a memory spring-type self-resetting packaging opening-binding device of the electric vehicle cushion packaging device of the present invention;

fig. 7 is a schematic structural view of a gas straight-flow type self-positioning pre-deformation device of an electric vehicle cushion packaging device of the present invention;

FIG. 8 is a schematic structural view of a planetary rotating frame of the cushion packaging device for electric vehicles of the present invention;

FIG. 9 is a schematic structural diagram of a transmission heat-shrinking device of the electric vehicle cushion packaging device of the present invention;

FIG. 10 is an enlarged view of a portion of FIG. 3 at I;

fig. 11 is a partial enlarged view of the point ii in fig. 3.

Wherein, 1, a pre-limiting unpowered cutting device, 2, a memory elastic sheet type self-resetting type packaging binding opening device, 3, a gas straight-flow type self-positioning type pre-deformation device, 4, a planetary rotary frame, 5, a transmission thermal shrinkage device, 6, a thermal expansion type unpowered cutting device, 7, a self-lifting type magnetic clutch device, 8, an expansion air cavity base, 9, a cylindrical expansion air cavity, 10, a straight piston rod, 11, a sealing piston ring, 12, a special-shaped self-guiding cutting blade, 13, a self-lifting type cantilever, 14, an electromagnet adsorption block, 15, an L-shaped limiting barrier strip, 16, a piston disc at the end part of the piston rod, 17, a transverse driving knife rest, 18, an arc-shaped knife head, 19, a cantilever sliding boss, 20, a cantilever guiding square hole, 21, a cantilever guiding round hole, 22, a cantilever strip-shaped sliding chute, 23, an L-shaped guiding frame, 24, a circular guiding column, 25 and a resetting spring, 26. a steel belt driving limiting device 27, a belt driving unit 28, a lifting chute 29, a top limiting baffle 30, a bottom avoiding square groove 31, a steel belt roller supporting frame 32, a steel belt rolling shaft 33, a rolling memory elastic self-guiding steel belt 34, a U-shaped limiting frame 35, an electric melter 36, a steel belt driving motor 37, a steel belt movement driving belt pulley 38, a steel belt movement driven belt pulley 39, a steel belt movement driving belt 40, a packaging bag pre-deformation device 41, a cushion conveying device 42, a square frame supporting base 43, a square frame packaging bag supporting frame 44, a cylindrical heat shrinkage packaging bag 45, an air nozzle fixing frame 46, a straight-flow air nozzle 47, a feeding electric cylinder base 48, a feeding electric cylinder body 49, a feeding moving base plate 50, a feeding fixing suction cup 51, an electric vehicle cushion body 52, a feeding electric vehicle cushion body 52, The device comprises a cushion bottom plate 53, a planet expansion device 54, a planet rotation device 55, a planet revolution device 56, a planet carrier lifting device 57, a main body square bottom plate 58, an upper controller 59, an inclined hot blast device 60, a belt transmission device 61, a belt transmission fork frame 62, a belt transmission main shaft 63, a belt transmission roller 64, an elastic conveying belt 65 and a belt transmission driving motor.

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments; all other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus should not be construed as limiting the present invention.

As shown in figure 1, the invention relates to an electric vehicle cushion packaging device and a using method thereof, comprising a pre-limiting unpowered cutting device 1, a memory elastic sheet type self-reset type packaging binding opening device 2, a gas direct-current self-reset type pre-deformation device 3, a planetary rotary frame 4 and a transmission thermal shrinkage device 5, wherein the pre-limiting unpowered cutting device 1 is arranged on the memory elastic sheet type self-reset type packaging binding opening device 2, the pre-limiting unpowered cutting device 1 can be driven to complete cutting by heat radiated by a thermal shrinkage process under the condition without a power element, the memory elastic sheet type self-reset type packaging binding opening device 2 is symmetrically arranged on the planetary rotary frame 4, the memory elastic sheet type self-reset type packaging binding opening device 2 can automatically return the pre-limiting unpowered cutting device 1 to an initial position, the gas direct-current self-reset type pre-deformation device 3 is arranged on the transmission thermal shrinkage device 5, the gas straight-flow type self-positioning type pre-deformation device 3 can form an internal hollow drum convenient for containing before goods are loaded, and the planetary rotary frame 4 is arranged on the transmission heat-shrinkable device 5.

As shown in fig. 1 to 2 and 9, the transmission heat-shrinkable device 5 includes a main square bottom plate 57, an upper controller 58, an inclined hot air blowing device 59 and a belt transmission device 60, wherein the upper controller 58 is arranged on the main square bottom plate 57, the inclined hot air blowing device 59 is arranged on the main square bottom plate 57, and the belt transmission device 60 is arranged on the main square bottom plate 57; the belt transmission device 60 comprises a belt transmission fork 61, a belt transmission spindle 62, a belt transmission roller 63, an elastic transmission belt 64 and a belt transmission driving motor 65, wherein the belt transmission fork 61 is symmetrically arranged on the main body square bottom plate 57, the belt transmission spindle 62 is rotatably arranged in the belt transmission fork 61, the belt transmission roller 63 is clamped on the belt transmission spindle 62, the elastic transmission belt 64 is arranged on the belt transmission roller 63 in a rolling manner, the belt transmission driving motor 65 is arranged on the belt transmission fork 61, and an output shaft of the belt transmission driving motor 65 is fixedly connected to one group of the belt transmission spindle 62.

As shown in fig. 1 and 8, the planetary type rotating gantry 4 includes a planetary extension/retraction device 53, a planetary rotation device 54, a planetary revolution device 55, and a planetary carrier lifting/lowering device 56, the planetary carrier lifting/lowering device 56 is provided on a main body square bottom plate 57, the planetary revolution device 55 is provided on the planetary carrier lifting/lowering device 56, the planetary rotation device 54 is symmetrically provided on the planetary revolution device 55, and the planetary extension/retraction device 53 is provided on the planetary rotation device 54.

As shown in fig. 1 to fig. 2, fig. 4 and fig. 7, the gas straight-flow self-positioning type pre-deformation device 3 comprises a packaging bag pre-deformation device 40 and a cushion conveying device 41, wherein the packaging bag pre-deformation device 40 is arranged on a main body square bottom plate 57, and the cushion conveying device 41 is arranged on the main body square bottom plate 57; the packaging bag pre-deformation device 40 comprises a square frame supporting base 42, a square frame-shaped packaging bag supporting frame 43, a cylindrical heat-shrinkable packaging bag 44, an air nozzle fixing frame 45 and a straight-flow air nozzle 46, wherein the square frame supporting base 42 is arranged on a main body square bottom plate 57, the square frame-shaped packaging bag supporting frame 43 is arranged on the square frame supporting base 42, the cylindrical heat-shrinkable packaging bag 44 is arranged on the square frame-shaped packaging bag supporting frame 43 in a sliding manner, the cylindrical heat-shrinkable packaging bag 44 is made of a heat-shrinkable material and can be shrunk when heated by hot air so as to be attached to the surface of an object and realize end sealing, the air nozzle fixing frame 45 is fixedly connected to the end part of the square frame-shaped packaging bag supporting frame 43, the straight-flow air nozzle 46 is clamped in the air nozzle fixing frame 45, air is blown into the cylindrical heat-shrinkable packaging bag 44 through the straight-flow air nozzle 46, so that the cylindrical heat-shrinkable packaging bag 44 is in an inner hollow state before being loaded, thereby avoiding the situation that the cylindrical heat-shrinkable packing bag 44 is torn due to the surface friction between the cylindrical heat-shrinkable packing bag 44 and the object; the cushion conveying device 41 comprises a feeding electric cylinder base 47, a feeding electric cylinder body 48, a feeding movable base plate 49, a feeding fixed suction cup 50 and an electric vehicle cushion body 51, the feeding electric cylinder base 47 is arranged on a main body square bottom plate 57, the feeding electric cylinder body 48 is clamped in the feeding electric cylinder base 47, the feeding movable base plate 49 is arranged at the end part of the feeding electric cylinder body 48, the feeding fixed suction cup 50 is clamped in the feeding movable base plate 49, a cushion bottom plate 52 is arranged on the electric vehicle cushion body 51, and the feeding fixed suction cup 50 adsorbs and fixes the electric vehicle cushion body 51 through the cushion bottom plate 52.

As shown in fig. 1, 3, 6 and 10, the memory spring plate type self-resetting packaging binding device 2 comprises an L-shaped guide frame 23, a circular guide post 24, a reset spring 25, a U-shaped limit frame 34, a steel belt driving limit device 26 and a belt driving unit 27, wherein the L-shaped guide frame 23 is arranged on a planetary telescopic device 53, the L-shaped guide frame 23 is provided with a lifting chute 28, the L-shaped guide frame 23 is provided with a top limit baffle 29 at the top of the lifting chute 28, the L-shaped guide frame 23 is provided with a bottom avoiding square groove 30, the U-shaped limit frame 34 is arranged on the L-shaped guide frame 23, the circular guide post 24 is arranged on the U-shaped limit frame 34, one end of the reset spring 25 is arranged on the U-shaped limit frame 34, the other end of the reset spring 25 is arranged on a self-lifting cantilever 13, the return spring 25 is capable of automatically returning the position of the self-elevating cantilever 13 to the highest point without any driving element; the steel belt driving limiting device 26 is arranged on the L-shaped guide frame 23, and the belt transmission driving unit 27 is arranged on the L-shaped guide frame 23; the steel belt driving limiting device 26 comprises a steel belt roller supporting frame 31, a steel belt rolling shaft 32, a winding memory elastic self-guiding steel belt 33 and an electric melting device 35, wherein the steel belt roller supporting frame 31 is symmetrically arranged at the back of the L-shaped guide frame 23, the steel belt rolling shaft 32 is rotatably arranged in the steel belt roller supporting frame 31, the winding memory elastic self-guiding steel belt 33 is wound on the steel belt rolling shaft 32, the winding memory elastic self-guiding steel belt 33 can be attracted by the magnetic attraction force of the electromagnet adsorption block 14, the winding memory elastic self-guiding steel belt 33 is made of spring steel, the shape of the free state is arc, the diameter of the arc is close to the longitudinal height of the L-shaped guide frame 23, when the winding memory elastic self-guiding steel belt 33 extends out, the end can automatically move to the position above the electromagnet adsorption block 14, and the electric melting device 35 is arranged on the U-shaped limiting frame 34; the belt transmission driving unit 27 comprises a steel belt driving motor 36, a steel belt movement driving pulley 37, a steel belt movement driven pulley 38 and a steel belt movement transmission belt 39, the steel belt driving motor 36 is arranged on the L-shaped guide frame 23, the steel belt movement driving pulley 37 is clamped on an output shaft of the steel belt driving motor 36, the steel belt movement driven pulley 38 is clamped on the steel belt rolling shaft 32, the steel belt movement transmission belt 39 is arranged on the steel belt movement driving pulley 37 in a rolling manner, and the steel belt movement transmission belt 39 is arranged on the steel belt movement driven pulley 38 in a rolling manner.

As shown in fig. 1, 3, 5 and 11, the pre-limiting unpowered cutting device 1 comprises a thermal expansion type unpowered cutting device 6 and a self-lifting magnetic clutch device 7, wherein the thermal expansion type unpowered cutting device 6 is arranged on the self-lifting magnetic clutch device 7, and the self-lifting magnetic clutch device 7 is arranged on the memory elastic sheet type self-resetting packaging binding opening device 2 in a clamping and sliding manner; the thermal expansion type unpowered cutting device 6 comprises an expansion air cavity base 8, a cylindrical expansion air cavity 9, a linear piston rod 10, a sealing piston ring 11 and a special-shaped self-guiding cutting blade 12, wherein the expansion air cavity base 8 is arranged on a self-lifting type magnetic clutch device 7, the cylindrical expansion air cavity 9 is arranged on the expansion air cavity base 8, the special-shaped self-guiding cutting blade 12 is arranged on the self-lifting type magnetic clutch device 7 in a clamping and sliding manner, a transverse driving tool rest 17 is arranged on the special-shaped self-guiding cutting blade 12, the linear piston rod 10 is arranged on the transverse driving tool rest 17, a piston rod end piston disc 16 is arranged at the end part of the linear piston rod 10, the sealing piston ring 11 is arranged on the piston disc 16 at the end part of the piston rod in a clamping and sliding manner, the sealing piston ring 11 is arranged in the cylindrical expansion air cavity 9 in a sliding and sealing contact manner with the inner wall of the cylindrical expansion air cavity 9, and the cylindrical expansion air cavity 9 is heated, the internal gas can expand to push the linear piston rod 10 to slide along the inner wall of the cylindrical expansion gas cavity 9, the end part of the special-shaped self-guiding cutting blade 12 is provided with an arc-shaped cutter head 18, and the linear piston rod 10 drives the arc-shaped cutter head 18 to complete cutting when extending out; the self-lifting magnetic clutch device 7 comprises a self-lifting cantilever 13, an electromagnet adsorption block 14 and an L-shaped limit barrier 15, an expansion air cavity base 8 is arranged on the self-lifting cantilever 13, a cantilever sliding boss 19 is arranged at the end part of the self-lifting cantilever 13, the self-lifting cantilever 13 is arranged in a lifting chute 28 in a clamping and sliding manner through the cantilever sliding boss 19, a cantilever guide square hole 20 and a cantilever guide round hole 21 are arranged on the self-lifting cantilever 13, the L-shaped limit barrier 15 is arranged on a U-shaped limit frame 34, the self-lifting cantilever 13 is arranged on the L-shaped limit barrier 15 in a clamping and sliding manner through the cantilever guide square hole 20, the self-lifting cantilever 13 is arranged on a circular guide column 24 in a clamping and sliding manner through the cantilever guide round hole 21, the electromagnet adsorption block 14 is arranged on the self-lifting cantilever 13, the electromagnet adsorption block 14 can generate force when being electrified, a cantilever bar-shaped chute 22 is arranged on the self-lifting cantilever 13, the profiled self-guiding cutting blade 12 is snap-slidably disposed in a cantilevered strip-shaped chute 22.

The upper controller 58 is in communication connection with the inclined hot air blowing device 59, the upper controller 58 is in communication connection with the belt transmission device 60, the upper controller 58 is in communication connection with the electric heating fuse device 35, and the upper controller 58 is in communication connection with the electromagnet adsorption block 14.

When the heat-shrinkable tube is used specifically, the first step is that a user needs to manually pull out the tail end of the cylindrical heat-shrinkable tube 44 for a certain distance during the first use, and then the following steps are controlled by the upper controller 58; in the second step, the belt transmission driving unit 27 drives the steel belt package roller 32 to rotate, because the package memory elastic self-guiding steel belt 33 is arc-shaped in a free state, and the diameter of the arc is close to the longitudinal height of the L-shaped guide frame 23, the tail end of the package memory elastic self-guiding steel belt 33 moves to the position above the electromagnet adsorption block 14, at this time, the electromagnet adsorption block 14 is electrified, and the package memory elastic self-guiding steel belt 33 is adsorbed on the electromagnet adsorption block 14 through the magnetic attraction between the electromagnet adsorption block 14 and the package memory elastic self-guiding steel belt 33; step three, the steel strip rolling shaft 32 is reversed, the winding memory elastic self-guiding steel strip 33 is driven to be recovered and wound on the steel strip rolling shaft 32 through the rotation of the steel strip rolling shaft 32, and the self-lifting cantilever 13 is driven to compress the return spring 25 to move downwards through the tensile force recovered by the winding memory elastic self-guiding steel strip 33, so that the end part of the cylindrical heat-shrinkable packing bag 44 is tightened; step four, supplying air towards the cylindrical heat-shrinkable packaging bag 44 through the straight-flow air nozzle 46 to enable the cylindrical heat-shrinkable packaging bag 44 to be deformed into a state of swelling inside, and then sending the electric vehicle cushion body 51 adsorbed by the feeding fixed suction cup 50 into the cylindrical heat-shrinkable packaging bag 44 through the feeding electric cylinder body 48 and then loosening the electric vehicle cushion body; step five, the tightened cylindrical heat-shrinkable packing bag 44 is heated by the electric melter 35 to be melted and re-solidified into blocks at the package memory elastic self-guiding steel strip 33, so that the end part of the cylindrical heat-shrinkable packing bag 44 is sealed; step six: by the linkage of the planetary rotation device 54, the planetary revolution device 55 and the planet carrier lifting device 56, the pre-limiting unpowered cutting device 1 and the memory elastic sheet type self-resetting type packaging mouth-tying device 2 tightened on one group of the planetary telescopic devices 53 horizontally move to the end part of the belt transmission device 60 along the belt transmission device 60, and then the steps from the second step to the third step are repeated, so that the pre-limiting unpowered cutting device 1 and the memory elastic sheet type self-resetting type packaging mouth-tying device 2 on the other group of the planetary telescopic devices 53 are also tightened to fix the cylindrical heat-shrinkable type packaging bag 44; step seven: the upper controller 58 controls the inclined hot blast device 59 to blow hot blast, the cylindrical heat-shrinkable packaging bag 44 is shrunk and attached to the electric vehicle cushion body 51 through the hot blast, redundant air in the cylindrical heat-shrinkable packaging bag 44 is discharged through one end, close to the gas straight-flow self-positioning type pre-deformation device 3, of the cylindrical heat-shrinkable packaging bag 44, at the moment, a group of heat-expandable unpowered cutting devices 6 close to the inclined hot blast device 59 cause gas expansion in the cylindrical expansion air cavity 9 due to temperature rise, so that the linear piston rod 10 is ejected, the linear piston rod 10 extends out to drive the special-shaped self-guiding cutting blade 12 to slide along the cantilever strip-shaped chute 22, and the cylindrical heat-shrinkable packaging bag 44 with the end part solidified into a block shape is cut off through the arc-shaped cutter head 18; and then, the fourth step to the seventh step are circulated, so that the electric vehicle cushion body 51 can be sequentially packaged, the whole working process is realized, and the steps are repeated when the electric vehicle cushion is used next time.

The actual operation process is very simple and easy, and only the end of the cylindrical heat-shrinkable packaging bag 44 needs to be manually pulled out for a certain distance when the cylindrical heat-shrinkable packaging bag is used for the first time, and the upper controller 58 is started after the preparation action is performed.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

The present invention and its embodiments have been described above, and the description is not intended to be limiting, and the drawings are only one embodiment of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should appreciate that they can readily use the disclosed conception and specific embodiments as a basis for designing or modifying other structures for carrying out the same purposes of the present invention without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. The utility model provides an electric motor car cushion packing plant which characterized in that: the device comprises a pre-limiting unpowered cutting device (1), a memory elastic sheet type self-resetting type packaging mouth-binding device (2), a gas direct-flow type self-positioning type pre-deforming device (3), a planetary rotary frame (4) and a transmission heat-shrinking device (5), wherein the pre-limiting unpowered cutting device (1) is arranged on the memory elastic sheet type self-resetting type packaging mouth-binding device (2), the memory elastic sheet type self-resetting type packaging mouth-binding device (2) is symmetrically arranged on the planetary rotary frame (4), the gas direct-flow type self-positioning type pre-deforming device (3) is arranged on the transmission heat-shrinking device (5), and the planetary rotary frame (4) is arranged on the transmission heat-shrinking device (5); the pre-limiting unpowered cutting device (1) comprises a thermal expansion type unpowered cutting device (6) and a self-lifting magnetic clutch device (7), the thermal expansion type unpowered cutting device (6) is arranged on the self-lifting magnetic clutch device (7), and the self-lifting magnetic clutch device (7) is clamped and slidably arranged on the memory elastic sheet type self-resetting packaging binding opening device (2).

2. The packaging device for the cushion of the electric vehicle as claimed in claim 1, wherein: the thermal expansion type unpowered cutting device (6) comprises an expansion air cavity base (8), a cylindrical expansion air cavity (9), a linear piston rod (10), a sealing piston ring (11) and a special-shaped self-guiding cutting blade (12), wherein the expansion air cavity base (8) is arranged on a self-lifting type magnetic clutch device (7), the cylindrical expansion air cavity (9) is arranged on the expansion air cavity base (8), the special-shaped self-guiding cutting blade (12) is clamped and slidably arranged on the self-lifting type magnetic clutch device (7), a transverse driving tool rest (17) is arranged on the special-shaped self-guiding cutting blade (12), the linear piston rod (10) is arranged on the transverse driving tool rest (17), a piston rod end piston disc (16) is arranged at the end part of the linear piston rod (10), and the sealing piston ring (11) is clamped and arranged on the piston rod end piston disc (16), the sealing piston ring (11) is clamped and slidably arranged in the cylindrical expansion air cavity (9), the sealing piston ring (11) is in sliding sealing contact with the inner wall of the cylindrical expansion air cavity (9), and an arc-shaped cutter head (18) is arranged at the end part of the special-shaped self-guiding cutting blade (12).

3. The packaging device for the cushion of the electric vehicle as claimed in claim 2, wherein: the self-lifting magnetic clutch device (7) comprises a self-lifting cantilever (13), an electromagnet adsorption block (14) and an L-shaped limit barrier (15), the expansion air cavity base (8) is arranged on the self-lifting cantilever (13), a cantilever sliding boss (19) is arranged at the end part of the self-lifting cantilever (13), the self-lifting cantilever (13) is arranged on the memory elastic sheet type self-resetting packaging binding device (2) in a clamping and sliding manner through the cantilever sliding boss (19), a cantilever guide square hole (20) and a cantilever guide round hole (21) are arranged on the self-lifting cantilever (13), the L-shaped limit barrier (15) is arranged on the memory elastic sheet type self-resetting packaging binding device (2), the self-lifting cantilever (13) is arranged on the L-shaped limit barrier (15) in a clamping and sliding manner through the cantilever guide square hole (20), and the electromagnet adsorption block (14) is arranged on the self-lifting cantilever (13), be equipped with cantilever bar spout (22) on self-lifting formula cantilever (13), dysmorphism self guidance cutting blade (12) block slides and locates in cantilever bar spout (22).

4. The packaging device for the cushion of the electric vehicle as claimed in claim 3, wherein: the memory elastic sheet type self-resetting packaging mouth-binding device (2) comprises an L-shaped guide frame (23), a circular guide column (24), a reset spring (25), a U-shaped limiting frame (34), a steel belt driving limiting device (26) and a belt transmission driving unit (27), wherein the L-shaped guide frame (23) is arranged on a planetary rotary frame (4), a lifting sliding groove (28) is formed in the L-shaped guide frame (23), a self-lifting cantilever (13) is arranged in the lifting sliding groove (28) in a clamping and sliding mode through a cantilever sliding boss (19), a top limiting baffle (29) is arranged at the top of the lifting sliding groove (28) of the L-shaped guide frame (23), a bottom avoiding square groove (30) is formed in the L-shaped guide frame (23), the U-shaped limiting frame (34) is arranged on the L-shaped guide frame (23), and the L-shaped limiting baffle (15) is arranged on the U-shaped limiting frame (34), the circular guide column (24) is arranged on the U-shaped limiting frame (34), the self-lifting type cantilever (13) is clamped and slidably arranged on the circular guide column (24) through a cantilever guide circular hole (21), one end of the reset spring (25) is arranged on the U-shaped limiting frame (34), and the other end of the reset spring (25) is arranged on the self-lifting type cantilever (13); the steel belt driving limiting device (26) is arranged on the L-shaped guide frame (23), and the belt transmission driving unit (27) is arranged on the L-shaped guide frame (23).

5. The packaging device for the cushion of the electric vehicle as claimed in claim 4, wherein: the steel band drive limiting device (26) comprises a steel band rolling shaft support frame (31), a steel band rolling shaft (32), a rolling memory elastic self-guiding steel band (33) and an electric melting device (35), wherein the steel band rolling shaft support frame (31) is symmetrically arranged at the back of the L-shaped guide frame (23), the steel band rolling shaft (32) is rotatably arranged in the steel band rolling shaft support frame (31), the rolling memory elastic self-guiding steel band (33) is wound on the steel band rolling shaft (32), and the electric melting device (35) is arranged on a U-shaped limiting frame (34).

6. The packaging device for the cushion of the electric vehicle as claimed in claim 5, wherein: the gas straight-flow self-positioning type pre-deformation device (3) comprises a packaging bag pre-deformation device (40) and a cushion conveying device (41), wherein the packaging bag pre-deformation device (40) is arranged on the transmission heat-shrinkable device (5), and the cushion conveying device (41) is arranged on the transmission heat-shrinkable device (5); packing bag pre-deformation device (40) includes square frame support base (42), square frame wrapping bag support frame (43), cylindric pyrocondensation formula wrapping bag (44), air cock mount (45) and straight-flow air nozzle (46), square frame support base (42) is located on transmission pyrocondensation device (5), square frame support base (42) is located in square frame support base (43), cylindric pyrocondensation formula wrapping bag (44) slide and locate on square frame wrapping bag support frame (43), air cock mount (45) rigid coupling is in the tip of square frame wrapping bag support frame (43), straight-flow air nozzle (46) block is located in air cock mount (45).

7. The packaging device for the cushion of the electric vehicle as claimed in claim 6, wherein: cushion conveyor (41) are including pay-off electric cylinder base (47), pay-off electric cylinder body (48), pay-off removal base plate (49), pay-off fixed suction cup (50) and electric motor car cushion body (51), pay-off electric cylinder base (47) are located on transmission pyrocondensation device (5), pay-off electric cylinder body (48) block is located in pay-off electric cylinder base (47), the tip of pay-off electric cylinder body (48) is located in pay-off removal base plate (49), pay-off fixed suction cup (50) block is located in pay-off removal base plate (49), be equipped with cushion bottom plate (52) on electric motor car cushion body (51), pay-off fixed suction cup (50) adsorb electric motor car cushion body (51) through cushion bottom plate (52) and fix.

8. The packaging device for the cushion of the electric vehicle as claimed in claim 7, wherein: the planetary rotating frame (4) comprises a planetary telescopic device (53), a planetary rotation device (54), a planetary revolution device (55) and a planetary carrier lifting device (56), the planetary carrier lifting device (56) is arranged on the transmission heat shrinkage device (5), the planetary revolution device (55) is arranged on the planetary carrier lifting device (56), the planetary rotation device (54) is symmetrically arranged on the planetary revolution device (55), the planetary telescopic device (53) is arranged on the planetary rotation device (54), and the L-shaped guide frame (23) is arranged on the planetary telescopic device (53).

9. The packaging device for the cushion of the electric vehicle as claimed in claim 8, wherein: the transmission heat-shrinkable device (5) comprises a main body square bottom plate (57), an upper controller (58), an inclined hot air blowing device (59) and a belt transmission device (60), wherein the square frame support base (42) is arranged on the main body square bottom plate (57), the feeding electric cylinder base (47) is arranged on the main body square bottom plate (57), the planet carrier lifting device (56) is arranged on the main body square bottom plate (57), the upper controller (58) is arranged on the main body square bottom plate (57), the inclined hot air blowing device (59) is arranged on the main body square bottom plate (57), and the belt transmission device (60) is arranged on the main body square bottom plate (57); the upper controller (58) is in communication connection with the inclined hot air blowing device (59), the upper controller (58) is in communication connection with the belt transmission device (60), the upper controller (58) is in communication connection with the electric heating fuse device (35), and the upper controller (58) is in communication connection with the electromagnet adsorption block (14).

10. The use method of the electric vehicle cushion packaging device is characterized by comprising the following steps:

the method comprises the following steps: when the cylindrical heat-shrinkable packaging bag is used for the first time, the tail end of the cylindrical heat-shrinkable packaging bag (44) needs to be pulled out for a certain distance manually, preparation action is carried out, and then the following steps are controlled by an upper controller (58);

step two: the belt transmission driving unit (27) drives a steel belt package roller (32) to rotate, when the tail end of the package memory elastic self-guiding steel belt (33) moves to the position above the electromagnet adsorption block (14), the electromagnet adsorption block (14) is electrified, and the package memory elastic self-guiding steel belt (33) is adsorbed on the electromagnet adsorption block (14) through the magnetic attraction force between the electromagnet adsorption block (14) and the package memory elastic self-guiding steel belt (33);

step three: reversely rotating a steel strip winding roller (32) through a belt transmission driving unit (27), and driving a self-lifting cantilever (13) to move downwards through a pulling force recovered from a winding memory elastic self-guiding steel strip (33), thereby tightening the end part of the cylindrical heat-shrinkable packing bag (44);

step four: the straight-flow air nozzle (46) supplies air to the cylindrical heat-shrinkable packaging bag (44) to enable the cylindrical heat-shrinkable packaging bag (44) to be deformed into a state of swelling inside, and then the electric vehicle cushion body (51) adsorbed by the feeding fixed sucker (50) is sent to the cylindrical heat-shrinkable packaging bag (44) through the feeding electric cylinder body (48) and then loosened;

step five: the tightened cylindrical heat-shrinkable packaging bag (44) is heated by an electric melter (35) and is melted at a package memory elastic self-guiding steel belt (33) and then is solidified into blocks again, so that the sealing is kept;

step six: by the linkage of the planet rotation device (54), the planet revolution device (55) and the planet carrier lifting device (56), the pre-limiting unpowered cutting device (1) and the memory elastic sheet type self-resetting packaging binding device (2) tightened on one group of the planet expansion device (53) horizontally move to the end part of the belt transmission device (60) along the belt transmission device (60), and then the steps from two to three are repeated, so that the pre-limiting unpowered cutting device (1) and the memory elastic sheet type self-resetting packaging binding device (2) on the other group of the planet expansion device (53) are also tightened to fix the cylindrical heat-shrinkable packaging bag (44);

step seven: hot air is blown by the inclined hot air blowing device (59), the cylindrical heat-shrinkable packaging bag (44) is shrunk and attached to the electric vehicle cushion body (51) through the hot air, redundant air in the cylindrical heat-shrinkable packaging bag (44) is discharged from one end, close to the gas straight-flow self-positioning type pre-deformation device (3), of the cylindrical heat-shrinkable packaging bag (44), and at the moment, a group of heat-shrinkable unpowered cutting devices (6) close to the inclined hot air blowing device (59) drive the special-shaped self-guiding cutting blade (12) to slide due to temperature rise to cut off the cylindrical heat-shrinkable packaging bag (44) with the end portion solidified into a block shape.

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