CN204660099U - Wrapping machine is with taking out inflation and sealing-in integrated device - Google Patents

Abstract

The utility model proposes a kind of wrapping machine with taking out inflation and sealing-in integrated device, comprise opposite upper die body and lower mold body and the latter can move back and forth in the vertical direction relative to the former, upper die body formed the uncovered upper chamber in bottom, upper die body is provided with the sealing-in mechanism be placed in this upper chamber, be connected with this sealing-in mechanism and in order to drive it to move up and down relative to upper die body air-actuator, be configured on upper die body and in order to realize servomechanism that sealing-in mechanism resets, be communicated with upper chamber first take out inflation mechanism; Lower mold body is formed in the side relative with upper die body the lower chambers of multiple open top, lower mold body is provided with and takes out inflation mechanism, be communicated with lower chambers and region in order to surround lower chambers and levels packaging film take out/inflate second take out inflation mechanism.Adopt said structure, simple and compact for structure, be conducive to raising the efficiency, sealing-in good stability, be easy to control.

Description

Wrapping machine is with taking out inflation and sealing-in integrated device

Technical field

The utility model relates to a kind of wrapping machine with taking out inflation and sealing-in integrated device.

Background technology

Along with the development of society, the extreme enrichment of material, proposes higher requirement to the packaging of foodstuff is anticorrosion; Intercept bacterium for playing, protection packed article, needs carry out starvation to packing material or preserve in nitrogen or other gas.Single vacuumize or gas flush packaging machinery integrated level not high.For head it off, need a kind of can vacuumizing and the packing device of gas flush packaging in one.At present, have this series products although domestic, concrete effect is undesirable, and present stage generally uses cylinder to control the movement of heating plate, complex structure to the sealing-in of packaging bag, and efficiency is lower, and cost is higher, and cost of equipment maintenance is higher.

Utility model content

In view of this, main purpose of the present utility model is, a kind of compact conformation is provided and the wrapping machine being conducive to improving sealing-in efficiency with taking out inflation and sealing-in integrated device.

For achieving the above object, the utility model proposes a kind of wrapping machine with taking out inflation and sealing-in integrated device, comprise opposite upper die body and lower mold body and the latter can move back and forth in the vertical direction relative to the former, in sealing-in process, levels packaging film is placed between aforementioned two housings, described upper die body is formed in the side relative with described lower mold body the upper chamber that bottom is uncovered, described upper die body is provided with and is placed in described upper chamber and sealing-in mechanism in order to carry out sealing-in to packaging film, be connected with this sealing-in mechanism and air-actuator in order to drive it to move up and down relative to described upper die body, to be configured on described upper die body and in order to realize the servomechanism that described sealing-in mechanism resets, be communicated with described upper chamber and region in order to surround described upper chamber and upper strata packaging film take out/inflate first take out inflation mechanism,

Described lower mold body forms multiple open top in the side relative with described upper die body and in order to receive the lower chambers filling packed article, what the space be provided with in order to surround levels packaging film was taken out/inflated in described lower mold body takes out inflation mechanism, be communicated with described lower chambers and region in order to surround described lower chambers and levels packaging film take out/inflate second take out inflation mechanism.

When sealing-in is carried out to packaging film, lower floor's packaging film and packed article are pre-configured in each bottom chamber of lower mold body, upper strata packaging film entirety covers on the residue upper surface of each lower chambers and lower mold body, first, described lower mold body upwards vertically moves until both fit tightly together relative to upper die body; The second, described air-actuator forms negative pressure, and by this negative pressure, described sealing-in mechanism is moved up relative to described upper die body, meanwhile, in described sealing-in mechanism moving process, described servomechanism applies an application force upwards to described sealing-in mechanism; 3rd, synchronous with step shown in second, described inflation mechanism of taking out extracts air in the packaging bag that is made up of levels packaging film until reach predetermined degree of vacuum in this packaging bag, synchronously, described first takes out inflation mechanism extracts air in region that described upper chamber and upper strata packaging film surround, whole upper chamber is made to be in negative pressure state, to keep described upper chamber internal gas pressure balance; 4th, after step shown in the 3rd, if other gas need be filled with in packaging bag, in packaging bag, other gas is filled with by described inflation mechanism of taking out, synchronously, described second takes out the positive pressure air that inflation mechanism passes into certain pressure in the region that described lower chambers and levels packaging film surround, to keep described bottom chamber air pressure balance; 5th, after step shown in the 3rd or the 4th, malleation is become by negative pressure in described air-actuator, by this positive pressure, described sealing-in mechanism is moved down relative to described upper die body, until described sealing-in mechanism is attached on the packaging film of upper strata start sealing-in, after the time of sealing-in one end, repeat aforementioned second step, described sealing-in mechanism and described upper strata packaging film are departed from, and sealing-in completes; 6th, described first takes out in region that inflation mechanism surrounds to described upper chamber and upper strata packaging film and passes into air, whole upper chamber is made to be in the state connected with air, then, described lower mold body moves downward vertically relative to upper die body until both are separated, and completes the encapsulation of a collection of packaging bag thus.

Adopt said structure, due to by described sealing-in mechanism, control air-actuator and servomechanism that sealing-in mechanism moves back and forth, take out inflation mechanism and be set together, compared with similar products, simple and compact for structure, simultaneously, can complete fast and vacuumize/inflate and process for sealing, be conducive to raising the efficiency, sealing-in good stability, be easy to control.

Preferably, described upper die body is also provided with the cooling mechanism in order to lower the temperature to whole device, this cooling mechanism is included in the waterway pipe that is crisscross arranged in described upper die body and the water supply mechanism in order to supply cold water in this waterway pipe.

Adopt said structure, owing to being provided with described cooling mechanism, can lowering the temperature to ensure that it normally works to whole device by this cooling mechanism, be conducive to the operation stability guaranteeing whole device.

Preferably, described air-actuator comprises the top being formed in and described upper die body being positioned at described upper chamber and the multiple plunger shaft be communicated with described upper chamber, be configured in the multiple pistons in each plunger shaft, to be arranged in described upper die body and the upper chamber's pipeline be communicated with the top of each plunger shaft, the upper chamber's vacuum pump be connected with this upper chamber's pipeline and upper chamber's positive pressure source device and the upper chamber's control cock in order to control upper chamber's vacuum pump and upper chamber's positive pressure source device and described upper chamber pipeline communication state, described sealing-in mechanism is fixed on the bottom of described piston by attaching parts.

Adopt said structure, when described sealing-in mechanism moves up relative to described upper die body, described upper chamber control cock makes described upper chamber pipeline be communicated with described upper chamber vacuum pump, the vacuum pump work of described upper chamber makes to form negative pressure in upper chamber's pipeline, and then with multiple plunger shaft of this upper chamber's pipeline communication in form negative pressure, this negative pressure makes the multiple pistons be configured in each plunger shaft move up, and by this piston driving, connected described sealing-in mechanism moves up; On the contrary, when described sealing-in mechanism moves down relative to described upper die body, described upper chamber control cock makes described upper chamber pipeline be communicated with described upper chamber positive pressure source device, makes to form malleation in upper chamber's pipeline, and then form malleation in described multiple plunger shaft.Usually use the parts such as cylinder to control compared with the moving back and forth of sealing-in mechanism with this series products existing, simple and compact for structure and good operation stability.

Preferably, described sealing-in mechanism comprise be placed in described upper chamber and be arranged on link bottom described air-actuator, be arranged on this link and have heating component heater block, be arranged on this heater block and sealing-in parts in order to contact with upper strata packaging film, described link, heater block, sealing-in parts are from top to bottom connected in turn and keep synchronizing moving.

Adopt said structure, in sealing-in process, heating component in described heater block heats in the energized state, and its heat produced is passed to described upper strata packaging film successively by described heater block, sealing-in parts, and then realizes the sealing-in of levels packaging film.

Preferably, described sealing-in parts are provided with described lower chambers one_to_one corresponding, in order to carry out heat insulation positioning component that is heat insulation and that locate to the non-sealing region of described upper strata packaging film, formed in the side opposite with described lower chambers of described sealing-in parts and described lower chambers one_to_one corresponding and multiple grooves of the uncovered setting in bottom, described heat insulation positioning component comprise be housed in described groove and only top be connected with described sealing-in parts location division, be arranged on insulation between top, described location division and described groove bottom wall.

Adopt said structure, owing to being provided with described heat insulation positioning component, the non-sealing region of upper strata packaging film and described sealing-in parts can be kept apart by this heat insulation positioning component, described sealing-in parts are avoided directly to contact because its heat is too high with described upper strata packaging film and scald or stave packaging film, sealing-in quality can be guaranteed, be conducive to improving sealing-in effect.

Preferably, the described servomechanism pilot bar that comprises the side opposite with described sealing-in mechanism being fixed on described upper die body and the Compress Spring that is set on this pilot bar.

Adopt said structure, when described sealing-in mechanism moves up under described air-actuator drives, described Compress Spring applies an application force upwards to described sealing-in mechanism, for moving up of described sealing-in mechanism provides a power-assisted; When described sealing-in mechanism moves down under described air-actuator drives, described Compress Spring is in the state of being stretched.Meanwhile, described servomechanism also plays certain buffer action in described sealing-in mechanism is relative to the reciprocating movement of described upper die body.

Preferably, be provided with in the side opposite with described upper die body of described sealing-in mechanism and align with described pilot bar and two ends form the through hole of reducing shape stage portion, the top of described pilot bar is run through this through hole from the bottom of described through hole and is arranged on described upper die body, and described Compress Spring is housed in described through hole.

Preferably, described first take out inflation mechanism comprise be arranged in described upper die body and the first pipeline be communicated with described upper chamber, be configured in described upper die body outer and with the first vacuum pump of this first pipeline communication and the first positive pressure source device and the first control cock of connected state controlling the first vacuum pump and the first positive pressure source device and described first pipeline.

Preferably, take out described in inflation mechanism comprise be arranged in described lower mold body and is communicated with the space surrounded by levels packaging film vacuumize gas ducting, be configured in described lower mold body inflate vacuum pump outward and with this vacuumizing of vacuumizing that gas ducting is communicated with and control aforementioned both connected state vacuumize ventilating control valve.

Preferably, described second take out inflation mechanism and comprise and be arranged in described lower mold body and the second pipe be communicated with described lower chambers, be configured in outer and the second vacuum pump be communicated with this second pipe of described lower mold body and the second positive pressure source device and control second control cock of connected state of the second vacuum pump and the second positive pressure source device and described second pipe.

Preferably, described lower mold body is also provided with in order to by upper strata packaging film relative to described lower floor packaging film upwards jack-up to form the push rod in gap between.

Preferably, be also provided with to adjust its volume to adapt to the backing plate of different packed article in described bottom chamber.

Adopt this structure, owing to being provided with backing plate in described bottom chamber, the volume of described lower chambers can be changed to adapt to different packed article by the magnitude setting or specification changing backing plate according to the specification of packed article, be conducive to improving comformability and the matching of described lower chambers and different packed article, make the applied widely of whole device.

Accompanying drawing explanation

Fig. 1 is the wrapping machine overall schematic of taking out inflation and sealing-in integrated device.

Detailed description of the invention

Referring to Fig. 1, the wrapping machine described in the utility model detailed description of the invention of taking out inflation and sealing-in integrated device is described in detail.

As shown in Figure 1, take out inflation and sealing-in integrated device comprise opposite upper die body 1 and lower mold body 15, this upper die body 1 and lower mold body 15 are hollow shell component, wherein, upper die body 1 is mainly fixed on the supporting mechanism of wrapping machine, and in sealing-in process, this upper die body 1 maintains static; Lower mold body 15 is arranged on the mobile device that can move up and down on wrapping machine by connecting panel 8, and between upper die body 1 and connecting panel 8, be also provided with the first packing seal 11, this first packing seal 11 is made up of the flexible material of at least two-layer soft and hard alternation, together with it fits tightly with lower mold body 15.In sealing-in process, under mobile device drives, relative to upper die body 1, upwards perpendicular movement is until upper and lower die body fits tightly together lower mold body 15, and now levels packaging film is placed between aforementioned two housings; After sealing-in completes, lower mold body 15 is moved downward vertically relative to upper die body 1 under mobile device drives until die body disconnects up and down, so repeats abovementioned steps, realizes lower mold body 15 and move back and forth relative to upper die body 1.

Upper die body 1 is formed in the side relative with lower mold body 15 the uncovered upper chamber 34 in bottom, above this upper chamber 34, offers the multiple plunger shaft 22 be communicated with this upper chamber, this multiple plunger shaft 22 is spaced on upper die body 15.In each plunger shaft 22, be configured with piston 2, the bottom outside being in piston 2 at the bottom opening of plunger shaft 22 has been configured with the baffle ring 7 of sealing, positioning action.Upper chamber's pipeline 16 is also formed in upper die body 1, this upper chamber's pipeline 16 is extended in the horizontal direction in upper die body 1, the end (being namely placed in the one end in upper die body 1) of this upper chamber's pipeline 16 is communicated with the top of aforementioned multiple plunger shaft 22 respectively, the upper chamber's vacuum pump and upper chamber's control cock that are communicated with this upper chamber's pipeline 16 is provided with at its head end (being namely placed in the one end outside upper die body 1), wherein, upper chamber's control cock is in order to control upper chamber's vacuum pump and upper chamber's pipeline 16 connected state.Upper chamber's vacuum pump and upper chamber's control cock identify with label 19 in FIG.Air-actuator described in the utility model is jointly formed by aforementioned plunger shaft 22, piston 2, upper chamber's pipeline 16, upper chamber's vacuum pump and upper chamber's control cock.

Link 3, heater block 5, sealing-in parts 6 are provided with from top to bottom successively in upper chamber 34, the geomery of this three in horizontal surface is all consistent with the cross-sectional plane of upper chamber 34 and slightly little, and the superposition of their three in the vertical directions is highly slightly smaller than the height of upper chamber 34 in the vertical direction.Wherein, link 3 is made up of thermal insulating material (certainly also can adopt non-insulating material), this link 3 offers the stepped hole being greater than bottom part aperture diameter along the through and aperture, top of its thickness direction, first bolt 29 with nut stretches in this stepped hole by the bottom of this stepped hole, the top of this first bolt 29 is tightened on aforementioned piston 2, realizes the connection of link 3 and aforementioned air-actuator thus.Similarly, heater block 5 also to be matched with the stepped hole be opened on heater block 5 by second bolt 9 with nut and realizes being fixedly connected with of heater block 5 and link 3.As shown in Figure 1, heating component 18 is also provided with in heater block 5, this heating component 18 is heating rod or other heating arrangements, is heated by heater block 5 by this heating component 18, the heat of this heater block 5 by heat transfer and conductive heat transfer in sealing-in parts 6.Between heater block 5 and link 3, be also provided with the damper element 4 be made up of flexible material, this buffer unit 4 plays buffer action in sealing-in process, makes the sealing-in of packaging film more all even attractive in appearance.The work top of lower mold body 15 is also provided with seal ring 12, and sealing circle 12 plays the effect be hedged off from the outer world when vacuumizing.

Upper die body 1, link 3, heater block 5, sealing-in parts 6 also offer a mounting hole, and a bolt 28 runs through upper die body 1, link 3, heater block 5 being tightened on sealing-in parts 6 from top to bottom successively.Multiple grooves of the uncovered setting in multiple bottom are provided with in the bottom of sealing-in parts 6, this multiple groove and one_to_one corresponding opposite with the lower chambers in following lower mold body 15, in each groove, be equipped with the location division 27 slightly less than it, the surface coating of this location division 27 has one deck abherent.Location division 27 is fixed on the diapire of groove in the mode only making its top and be connected with sealing-in parts 6, an insulation 26 is also provided with between location division 27 and groove bottom wall, jointly form heat insulation positioning component by aforementioned location division 27 and insulation 26, this heat insulation positioning component is in order to carry out heat insulation and location to the non-sealing region of upper strata packaging film.Jointly form sealing-in mechanism described in the utility model by aforementioned link 3, heater block 5, sealing-in parts 6 and configuration aforementioned appurtenances thereon, this three keeps synchronizing moving in sealing-in process.In sealing-in process, the heating component 18 in heater block 5 heats in the energized state, and its heat produced is passed to described upper strata packaging film successively by heater block 5, sealing-in parts 6, and then realizes the sealing-in of levels packaging film.

As shown in Figure 1, upper die body 1 is fixed with a pilot bar 31 in the diapire place of upper chamber 34, this pilot bar 31, between adjacent pistons chamber 22, this pilot bar 31 is arranged with Compress Spring 21.Offer in the side opposite with upper die body 1 of link 3 and to align with aforementioned pilot bar 31 and two ends form the through hole 32 of reducing shape stage portion, the top of pilot bar 31 is run through this through hole 32 from the bottom of through hole 32 and is tightened on upper die body 1, Compress Spring 21 is housed in this through hole 32, and the stage portion at the two ends of Compress Spring 21 and through hole 32 two ends abuts against.Jointly servomechanism described in the utility model is formed by pilot bar 31, Compress Spring 21.

In addition, upper die body 1 is also provided with in the region in order to surround in upper chamber 34 and upper strata packaging film and forms first of vacuum and take out inflation mechanism, this first is taken out inflation mechanism and comprises and being arranged in upper die body 1 and the first pipeline 25 be communicated with upper chamber 34, be configured in outer and the first vacuum pump be communicated with this first pipeline 25 of upper die body 1 and the first positive pressure source device and control first control cock of connected state of the first vacuum pump and the first positive pressure source device and the first pipeline, wherein, first vacuum pump, first positive pressure source device and the first control cock are the whole peripheral components taking out inflation and sealing-in integrated device, they indicate with label 24 in FIG.Upper die body 1 is also provided with the cooling mechanism in order to lower the temperature to whole device, and this cooling mechanism is included in the waterway pipe 17 that is crisscross arranged in upper die body 1 and the water supply mechanism in order to supply cold water in this waterway pipe 17.

Lower mold body 15 is formed in the side relative with upper die body 1 lower chambers 35 of multiple open top, and this lower chambers 35 is in order to receive dress packed article.Backing plate 13 is also provided with in lower chambers 35, the volume of lower chambers 35 can be changed to adapt to different packed article by the magnitude setting or specification changing backing plate 13 according to the specification of packed article, be conducive to the comformability and the matching that improve lower chambers 35 and different packed article, make the applied widely of whole device.

Lower mold body 15 is provided with and takes out inflation mechanism, this is taken out inflation mechanism and vacuumizes in order to the space surrounded levels packaging film (representing with 14 in Fig. 1) and/or inflate, it comprise be arranged in lower mold body 15 and is communicated with the space surrounded by levels packaging film vacuumize gas ducting 33, be configured in lower mold body 1 outer and inflate vacuum pump with this vacuumizing of vacuumizing that gas ducting 33 is communicated with and control aforementioned both connected state vacuumize ventilating control valve, vacuumize gas ducting 33 and vacuumize ventilating control valve in FIG by 23 signs.

Lower mold body 15 is also provided with second and takes out inflation mechanism, this second is taken out inflation mechanism and forms vacuum state or barotropic state in order in the region that surrounds in lower chambers 35 and levels packaging film, it comprises and being arranged in lower mold body 15 and the second pipe (not shown) be communicated with lower chambers 35, be configured in outer and the second vacuum pump be communicated with this second pipe of lower mold body 15 and the second positive pressure source device and control second control cock of connected state of the second vacuum pump and the second positive pressure source device and second pipe, wherein, second vacuum pump, second positive pressure source device and the second control cock are the whole peripheral components taking out inflation and sealing-in integrated device, they indicate with 30 in FIG.

In addition, lower mold body 15 is also provided with a push rod 20, this push rod 20 in order to by upper strata packaging film relative to lower floor's packaging film upwards jack-up to form gap between.Under normal circumstances, need to accomplish fluently aperture in advance on lower floor's packaging film, when taking out inflation, push rod 20 backs down upper strata packaging film through this aperture accomplished fluently in advance, thus leaves certain gap between levels packaging film.

The principle of work described taking out inflation and sealing-in integrated device in conjunction with said structure referring to Fig. 1 simply describes.

When carrying out sealing-in to packaging film, lower floor's packaging film and packed article are pre-configured in each bottom chamber of lower mold body 15, and packaging film entirety in upper strata covers on the residue driving surface of each lower chambers 35 and lower mold body 15.

Step 1, lower mold body 15 is upwards vertical mobile until both fit tightly together relative to upper die body 1 under mobile device drives;

Step 2, upper chamber's control cock is opened and upper chamber's pipeline 16 is communicated with upper chamber vacuum pump, upper chamber's vacuum pump work makes to form negative pressure in upper chamber's pipeline 16, and then negative pressure is formed in the multiple plunger shaft 22 be communicated with this upper chamber's pipeline 16, this negative pressure makes the multiple pistons 2 be configured in each plunger shaft 22 move up, and drives connected sealing-in mechanism to move up by this piston 2.Meanwhile, in sealing-in mechanism moving process, Compress Spring 21 applies an application force upwards to sealing-in mechanism, for moving up of sealing-in mechanism provides a power-assisted;

Step 3, synchronous with step 2, through the hole accomplished fluently in advance, upper strata packaging film is backed down by push rod 20, certain gap is left between levels packaging film, take out inflation mechanism and extract air in the space that surrounded by levels packaging film until reach predetermined degree of vacuum, synchronously, first takes out inflation mechanism extracts air in region that upper chamber 34 and upper strata packaging film surround, whole upper chamber 34 is made to be in negative pressure state, to keep upper chamber 34 internal gas pressure balance; If other gas need be filled with in packaging bag, enters step 4, then enter step 5 on the contrary;

Step 4, after step 3, if other gas need be filled with in packaging bag, in packaging bag, other gas is filled with by taking out inflation mechanism, synchronously, second takes out the positive pressure air that inflation mechanism passes into certain pressure in the region that lower chambers 35 and lower floor's packaging film surround, and balances to keep lower chambers 35 internal gas pressure;

Step 5, malleation is formed in upper chamber's pipeline 16, and then malleation is formed in multiple plunger shaft 22, by this positive pressure, sealing-in mechanism is moved down relative to upper die body 1, until sealing-in parts 6 are attached on the packaging film of upper strata start sealing-in, after the time of sealing-in one end, repeat step 2, sealing-in parts 6 and upper strata packaging film are departed from, and sealing-in completes;

Step 6, first takes out in region that inflation mechanism surrounds to upper chamber 34 and upper strata packaging film and passes into air, makes whole upper chamber be in the state connected with air, then, lower mold body 15 moves downward vertically relative to upper die body 1 until both are separated, and completes the encapsulation of a collection of packaging bag thus.

In above-mentioned sealing-in process, if packaging bag only needs to vacuumize, by the break-make of the various electromagnetic valves of the control periphery of program, following two kinds of packagings can be formed: packaging film is fitted packed article completely, very close to each other between packed article and packaging film; When ensureing the degree of vacuum in packaging bag, packaging film is not exclusively fitted packed article, and above two kinds of manner of packings can apply the packed article with difformity, different attribute, and applicable scope is wide.

By upper, due to by sealing-in mechanism, control air-actuator and servomechanism that sealing-in mechanism moves back and forth, take out inflation mechanism and be set together, compared with similar products, simple and compact for structure, simultaneously, can complete fast and vacuumize/inflate and process for sealing, be conducive to raising the efficiency, sealing-in good stability, be easy to control.

Owing to being provided with heat insulation positioning component, the non-sealing region of upper strata packaging film and sealing-in parts 6 can be kept apart by this heat insulation positioning component, sealing-in parts 6 are avoided directly to contact because its heat is too high with upper strata packaging film and scald or stave packaging film, sealing-in quality can be guaranteed, be conducive to improving sealing-in effect.

The foregoing is only preferred embodiment of the present utility model; not in order to limit the utility model; all within spirit of the present utility model and principle, any amendment done, equivalent replacement, improvement etc., all should be included within protection domain of the present utility model.

Such as, in above-described embodiment, the first bolt 29, second bolt 9, bolt 28, pilot bar 31 are the one in numerous connection mode, are not limited to foregoing description.

Claims (12)

1. a wrapping machine is with taking out inflation and sealing-in integrated device, it is characterized in that, comprise opposite upper die body (1) and lower mold body (15) and the latter can move back and forth in the vertical direction relative to the former, in sealing-in process, levels packaging film (14) is placed between described upper die body (1) and lower mold body (15)

Described upper die body (1) is formed in the side relative with described lower mold body (15) upper chamber (34) that bottom is uncovered, described upper die body (1) is provided with and is placed in described upper chamber (34) and sealing-in mechanism in order to carry out sealing-in to packaging film, be connected with this sealing-in mechanism and air-actuator in order to drive it to move up and down relative to described upper die body (1), be configured in described upper die body (1) upper and in order to realize the servomechanism that described sealing-in mechanism resets, be communicated with described upper chamber (34) and region in order to surround described upper chamber (34) and upper strata packaging film take out/inflate first take out inflation mechanism,

Described lower mold body (15) forms multiple open top in the side relative with described upper die body (1) and in order to receive the lower chambers (35) filling packed article, what the space be provided with in order to surround levels packaging film was taken out/inflated in described lower mold body (15) takes out inflation mechanism, be communicated with described lower chambers (35) and region in order to surround described lower chambers (35) and levels packaging film take out/inflate second take out inflation mechanism.

2. according to claim 1 taking out is inflated and sealing-in integrated device, it is characterized in that, described upper die body (1) is also provided with the cooling mechanism in order to lower the temperature to whole device, and this cooling mechanism is included in the waterway pipe (17) that is crisscross arranged in described upper die body (1) and the water supply mechanism in order to supply cold water in this waterway pipe (17).

3. according to claim 1 taking out is inflated and sealing-in integrated device, it is characterized in that, described air-actuator comprises the top being formed in and described upper die body (1) being positioned at described upper chamber (34) and the multiple plunger shaft (22) be communicated with described upper chamber (34), be configured in the multiple pistons (2) in each plunger shaft (22), to be arranged in described upper die body (1) and the upper chamber's pipeline (16) be communicated with the top of each plunger shaft (22), the upper chamber's vacuum pump be connected with this upper chamber's pipeline (16) and upper chamber's positive pressure source device and the upper chamber's control cock in order to control upper chamber's vacuum pump and upper chamber's positive pressure source device and described upper chamber pipeline (16) connected state,

Described sealing-in mechanism is fixed on the bottom of described piston (2) by attaching parts.

4. according to claim 1 taking out is inflated and sealing-in integrated device, it is characterized in that, described sealing-in mechanism comprises and being placed in described upper chamber (34) and the link (3) be arranged on bottom described air-actuator, be arranged on this link (3) to go up and the heater block (5) with heating component (18), be arranged on the upper and sealing-in parts (6) in order to contact with upper strata packaging film of this heater block (5), described link (3), heater block (5), sealing-in parts (6) are from top to bottom connected in turn and keep synchronizing moving.

5. according to claim 4 taking out is inflated and sealing-in integrated device, it is characterized in that, described sealing-in parts (6) are provided with described lower chambers (35) one_to_one corresponding, in order to carry out heat insulation positioning component that is heat insulation and that locate to the non-sealing region of described upper strata packaging film

Formed in the side opposite with described lower chambers (35) of described sealing-in parts (6) and described lower chambers (35) one_to_one corresponding and multiple grooves of the uncovered setting in bottom, described heat insulation positioning component comprise be housed in described groove and only top be connected with described sealing-in parts (6) location division (27), be arranged on insulation (26) between (27) top, described location division and described groove bottom wall.

6. according to claim 1 taking out is inflated and sealing-in integrated device, it is characterized in that, the pilot bar (31) that described servomechanism comprises the side opposite with described sealing-in mechanism being fixed on described upper die body (1) and the Compress Spring (21) be set on this pilot bar (31).

7. according to claim 6 taking out is inflated and sealing-in integrated device, it is characterized in that, be provided with in the side opposite with described upper die body (1) of described sealing-in mechanism and align with described pilot bar (31) and two ends form the through hole (32) of reducing shape stage portion, the top of described pilot bar (31) is run through this through hole (32) from the bottom of described through hole (32) and is arranged on described upper die body (1), and described Compress Spring (21) is housed in described through hole (32).

8. according to claim 1 taking out is inflated and sealing-in integrated device, it is characterized in that, described first takes out inflation mechanism comprises and is arranged in described upper die body (1) and the first pipeline (25) be communicated with described upper chamber (34), is configured in the first vacuum pump and the first positive pressure source device that described upper die body (1) is communicated with outward and with this first pipeline (25) and controls first control cock of connected state of the first vacuum pump and the first positive pressure source device and described first pipeline.

9. according to claim 1 taking out is inflated and sealing-in integrated device, it is characterized in that, described in take out inflation mechanism comprise be arranged in described lower mold body (15) and be communicated with the space surrounded by levels packaging film vacuumize gas ducting (33), be configured in described lower mold body (1) inflate vacuum pump outward and with this vacuumizing of vacuumizing that gas ducting (33) is communicated with and control aforementioned both connected state vacuumize ventilating control valve.

10. according to claim 1 taking out is inflated and sealing-in integrated device, it is characterized in that, described second takes out inflation mechanism comprises and is arranged in described lower mold body (15) and the second pipe be communicated with described lower chambers, is configured in the second vacuum pump and the second positive pressure source device that described lower mold body (1) is communicated with outward and with this second pipe and controls second control cock of connected state of the second vacuum pump and the second positive pressure source device and described second pipe.

11. according to claim 1 taking out are inflated and sealing-in integrated device, it is characterized in that, described lower mold body (15) is also provided with in order to by upper strata packaging film relative to described lower floor packaging film upwards jack-up to form the push rod (20) in gap between.

12. according to claim 1 taking out are inflated and sealing-in integrated device, it is characterized in that, are also provided with to adjust its volume to adapt to the backing plate (13) of different packed article in described lower chambers (35).