CN108790290A - A kind of automatic aerator - Google Patents

Abstract

The present invention provides a kind of automatic aerators, including：Front platform, including transmission wheel and processing platform, transmission wheel are used to convey the air sealing body of unaerated to processing platform；Aerated rod, aerated rod are fixed on processing platform, and the boot segment of aerated rod is inserted in the filling channel of air sealing body；And postposition rolling frame, postposition rolling frame include a winding wheel, winding wheel is for winding the air sealing body after aerated rod is inflated；Wherein, multigroup pinch roller is additionally provided on front platform, each group of pinch roller includes：The first pinch roller and the second pinch roller being oppositely arranged, first pinch roller is located at the first side of aerated rod, second pinch roller is located at the second side of aerated rod, multigroup pinch roller is used to compress the first side of air sealing body by the first pinch roller, air sealing body is delivered to postposition rolling frame by the second side that air sealing body is compressed by the second pinch roller.Packaging bag pile-up when the embodiment of the present invention effectively prevent processing by pinch roller.

Description

A kind of automatic aerator

Technical field

The present invention relates to a kind of automatic aerators.

Background technology

The equipment of currently manufactured gas flushing pouch is mainly provided with preposition blowing end, processing platform and rear end rolling frame, Middle processing platform receives the packaging bag of the unaerated of preposition blowing end conveying, is carried out to packaging bag with air charging system on processing platform Inflation, the packaging bag for charging gas are delivered to rear end rolling frame winding.

Referring to Fig. 1, the relevant technologies shown in FIG. 1 disclose a kind of carrying method of continuous charge hermetic bag, the processing Air charging system B on platform ' A is only an air pipe structure B1, is blown in the air pipe structure B1 filling channel against packaging bag D ' D1, Due to simple in structure, packaging bag D is in processing platform in transmission process ' the case where easy ting produce fold, pile-up on A when, packaging Bag D causes having some setbacks and dangerous occurring for process if fold, pile-up fail to improve.Therefore, one kind how is produced certainly Dynamic inflator can effectively releive and pack the plication region of bag formation when processing, and be always that those skilled in the art look forward to solving Problem.

Invention content

Technical problems to be solved of the embodiment of the present invention are to provide a kind of aerated rod and automatic aerator, are prevented to realize Packaging bag pile-up when processing.

In order to solve the above technical problems, an embodiment of the present invention provides a kind of automatic aerators, including：

Front platform, including transmission wheel and processing platform, the transmission wheel are used to convey the air sealing body of unaerated extremely The processing platform；

Aerated rod, the aerated rod are fixed on the processing platform, and the boot segment of the aerated rod is inserted in the sky In the filling channel of hermetic sealing body；And

Postposition rolling frame, the postposition rolling frame include a winding wheel, and the winding wheel is for winding through the aerated rod The air sealing body after inflation；

Wherein, multigroup pinch roller is additionally provided on the front platform, pinch roller includes described in each group：Be oppositely arranged One pinch roller and the second pinch roller, first pinch roller are located at the first side of the aerated rod, and second pinch roller is located at the inflation The second side of stick, multigroup pinch roller are used to compress the first side of the air sealing body by first pinch roller, pass through Second pinch roller compresses the second side of the air sealing body, and the air sealing body, which is delivered to the postposition, to be wound Frame.

Preferably, the aerated rod includes：

The inner hollow of one main body, the main body forms an inner cavity, and the main body includes：It is set to the first of the main body The outer diameter of the Packing Section of the tapered boot segment at end and the second end for being set to the main body, the Packing Section is more than described draw Lead the outer diameter of section, the main body forms air inlet at the Packing Section, is provided with multiple ventholes in the main body, it is described go out Stomata pours into the inner cavity for supplied gas by the air inlet, and is blown out by the venthole；

One connecting rod, the direction that the connecting rod is faced away from the first end of the main body by the second end of the main body extend shape At the aerated rod is fixedly connected by the connecting rod with the processing platform；

One cutter, the cutter are arranged at the second end of aforementioned body, and positioned at the Packing Section and the connecting rod it Between；And

An at least gas tube is connected at the air inlet of the Packing Section, for for delivering a gas to the inner cavity.

Preferably, the Packing Section includes the first lock-connection structure and the second lock-connection structure, and second lock-connection structure is removable The interlocking unloaded on first lock-connection structure, first lock-connection structure and second lock-connection structure and the air inlet it Between be connected to, formed an inlet channel.

Preferably, it is fixed by way of being spirally connected or being clamped between first lock-connection structure and second lock-connection structure Connection.

Preferably, the main body includes first part and second part, and the first part includes the boot segment, described First part is a cone, and the second part is a pipe in a circular table shape.

Preferably, the quantity of the pinch roller is 3 groups；Pinch roller described in first group is disposed adjacent at the boot segment, and second Pinch roller is disposed adjacent described in the group pinch roller and third group, and pinch roller described in pinch roller and third group described in second group is disposed adjacent At the Packing Section.

Preferably, the automatic aerator further includes：

One slides roller bearing, and for the sliding roller bearing between the transmission wheel and the processing platform, the sliding roller bearing is used for band The air sealing body is moved by the transmission wheel to the processing platform；

Wherein, the transmission wheel is located at the sliding roller bearing close to the side of the processing platform, makes the sky of unaerated Hermetic sealing body is from the transmission wheel via the sliding roller bearing to one turnover of formation when the processing platform.

Preferably, the automatic aerator further includes：Pedestal, the pedestal are set to the side of the processing platform, The transmission wheel is fixed on the pedestal.

Preferably, the side on the pedestal close to the processing platform is provided with the first lock solid structure；

The second lock solid structure is provided in the transmission wheel, the transmission wheel passes through second lock solid structure and the base First lock solid structure on seat is detachably connected.

Preferably, the transmission wheel includes：

Shaft, second lock solid structure are arranged at the second end of the shaft；

Front runner, the front runner are detachably secured to the first end of the shaft；

Rear portion runner, the rear portion runner are detachably secured in the shaft close to the one of second lock solid structure End, when the second lock solid structure interlocking is at first lock solid structure, the rear portion runner is connected on the pedestal.

Compared with prior art, a kind of automatic aerator provided in an embodiment of the present invention, at least has the advantages that： By the way that multigroup pinch roller is arranged, and each group of pinch roller includes the first pinch roller of the first side for compressing the air sealing body, and The second pinch roller of the second side of the air sealing body is compressed, so that air sealing body can be put down under the transmission of pinch roller It is steady it is orderly be delivered to postposition rolling frame, effectively prevent air sealing body pile-up.At the same time it can also slow down air sealing body Gas leakage in air column, stops gas leak.

Description of the drawings

Fig. 1 is the structural schematic diagram of continuous charge hermetic bag and device in the related technology；

Fig. 2 is one of the structural schematic diagram of aerated rod of one embodiment of the invention；

Fig. 3 is the second structural representation of the aerated rod of one embodiment of the invention；

Fig. 4 is the structural schematic diagram of the aerated rod of another embodiment of the present invention；

Fig. 5 is one of the structural schematic diagram of automatic aerator of one embodiment of the invention；

Fig. 6 is the second structural representation of the automatic aerator of one embodiment of the invention；

Fig. 7 is one of the partial enlarged view of the gear-like pinch roller and air sealing body of the embodiment of the present invention；

Fig. 8 is the two of the gear-like pinch roller of the embodiment of the present invention and the partial enlarged view of air sealing body；

Fig. 9 is the partial enlarged view of the butterfly pinch roller and air sealing body of the embodiment of the present invention；

Figure 10 is the round pinch roller of the embodiment of the present invention or the front-view schematic diagram of butterfly pinch roller and air sealing body；

Figure 11 is one of the structural schematic diagram of automatic aerator of another embodiment of the present invention；

Figure 12 is the second structural representation of the automatic aerator of another embodiment of the present invention；

Figure 13 is one of the structural schematic diagram of automatic aerator of further embodiment of this invention；

Figure 14 is the structural schematic diagram of the aerated rod of further embodiment of this invention；

Figure 15 is that the pinch roller of one embodiment of the invention compresses the schematic top plan view of air sealing body；

Figure 16 is that the pinch roller of another embodiment of the present invention compresses the schematic top plan view of air sealing body；

Figure 17 is the structural schematic diagram of the vertical type air sealing body of the embodiment of the present invention；

Figure 18 is the separate structure schematic diagram of the aerated rod of the embodiment of the present invention；

Figure 19 is the structural schematic diagram of the automatic aerator of yet another embodiment of the invention；

Figure 20 is the stereogram of the automatic aerator of further embodiment of this invention；

Figure 21 is the partial exploded view of Figure 20.

【Reference sign】

1 aerated rod；

11 main bodys；

11a cones；

11b spheres；

112 spacing blocks；

13 boot segments；

14 Packing Sections；

141 first lock-connection structures；

142 second lock-connection structures；

15 air inlets；

151 openings；

16 inner cavities；

161 inflatable regions；

17 ventholes；

21 connecting rods；

22 cutters；

31 gas tubes；

32 switch valves；

5 automatic aerators；

51 workspaces；

52 pedestals；

521 first lock solid structures；

6 front platforms；

61 transmission wheels；

611 front runners；

612 shafts；

613 rear portion runners；

614 second lock solid structures；

62 processing platforms；

64 pinch rollers；

641 round pinch rollers；

642 gear-like pinch rollers；

643 butterfly pinch rollers；

645 grooves；

65 slide roller bearing；

7 postposition rolling frames；

71 winding wheels；

73 tension controllers；

74 calculators；

9/9 ' air sealing body；

The sides 9a；

90 filling channels；

91 diaphragms；

93 hot-sealing lines；

94 rugae areas；

95 air columns；

96 skull structures；

A processing platforms '；

B air charging systems；

B1 air pipe structures；

D packaging bags；

D1 filling channels '.

Specific implementation mode

To keep the technical problem to be solved in the present invention, technical solution and advantage clearer, below in conjunction with attached drawing and tool Body embodiment is described in detail.In the following description, such as specific configuration is provided and the specific detail of component is only In order to help comprehensive understanding the embodiment of the present invention.It therefore, it will be apparent to those skilled in the art that can be to reality described herein Example is applied to make various changes and modifications without departing from scope and spirit of the present invention.In addition, for clarity and brevity, it is omitted pair The description of known function and construction.

It should be understood that " one embodiment " or " embodiment " that specification is mentioned in the whole text mean it is related with embodiment A particular feature, structure, or characteristic includes at least one embodiment of the present invention.Therefore, occur everywhere in the whole instruction " in one embodiment " or " in one embodiment " not necessarily refer to identical embodiment.In addition, these specific feature, knots Structure or characteristic can in any suitable manner combine in one or more embodiments.

In the description of the present invention, it should be noted that unless otherwise clearly defined and limited, term " installation ", " phase Even ", " connection " shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or be integrally connected；It can Can also can be indirectly connected through an intermediary the connection inside two elements to be to be connected directly.For this field For those of ordinary skill, the concrete meaning of above-mentioned term in the present invention can be understood with concrete condition.

An embodiment of the present invention provides a kind of automatic aerators, including：Front platform, including transmission wheel and processing platform, The transmission wheel is used to convey the air sealing body of unaerated to the processing platform；Aerated rod, the aerated rod are fixed on institute It states on processing platform, the boot segment of the aerated rod is inserted in the filling channel of the air sealing body；And postposition winding Frame, the postposition rolling frame include a winding wheel, and the winding wheel is used to wind the air after aerated rod inflation Seal；Wherein, multigroup pinch roller is additionally provided on the front platform, pinch roller includes described in each group：Be oppositely arranged One pinch roller and the second pinch roller, first pinch roller are located at the first side of the aerated rod, and second pinch roller is located at the inflation The second side of stick, multigroup pinch roller are used to compress the first side of the air sealing body by first pinch roller, pass through Second pinch roller compresses the second side of the air sealing body, and the air sealing body, which is delivered to the postposition, to be wound Frame.

Preferably, the aerated rod includes：The inner hollow of one main body, the main body forms an inner cavity, the main body packet It includes：It is set to the tapered boot segment of the first end of the main body and is set to the Packing Section of the second end of the main body, institute The outer diameter for stating Packing Section is more than the outer diameter of the boot segment, and the main body forms air inlet, the main body at the Packing Section On be provided with multiple ventholes, the venthole pours into the inner cavity for supplied gas by the air inlet, and by the outlet Hole is blown out；One connecting rod, the direction that the connecting rod is faced away from the first end of the main body by the second end of the main body extend shape At the aerated rod is fixedly connected by the connecting rod with the processing platform；One cutter, the cutter are arranged in aforementioned body Second end at, and between the Packing Section and the connecting rod；And an at least gas tube, it is connected to the Packing Section The air inlet at, for for delivering a gas to the inner cavity.

Preferably, the Packing Section includes the first lock-connection structure and the second lock-connection structure, and second lock-connection structure is removable The interlocking unloaded on first lock-connection structure, first lock-connection structure and second lock-connection structure and the air inlet it Between be connected to, formed an inlet channel.

Preferably, it is fixed by way of being spirally connected or being clamped between first lock-connection structure and second lock-connection structure Connection.

Preferably, the main body includes first part and second part, and the first part includes the boot segment, described First part is a cone, and the second part is a pipe in a circular table shape.

Preferably, the quantity of the pinch roller is 3 groups；Pinch roller described in first group is disposed adjacent at the boot segment, and second Pinch roller is disposed adjacent described in the group pinch roller and third group, and pinch roller described in pinch roller and third group described in second group is disposed adjacent At the Packing Section.

Preferably, the automatic aerator further includes：One slides roller bearing, and the sliding roller bearing is located at the transmission wheel and described Between processing platform, the sliding roller bearing is for driving the air sealing body by the transmission wheel to the processing platform；Wherein, The transmission wheel is located at the sliding roller bearing close to the side of the processing platform, makes the air sealing body of unaerated from described Transmission wheel is via the sliding roller bearing to one turnover of formation when the processing platform.

Preferably, the automatic aerator further includes：Pedestal, the pedestal are set to the side of the processing platform, The transmission wheel is fixed on the pedestal.

Preferably, the side on the pedestal close to the processing platform is provided with the first lock solid structure；The transmission wheel On be provided with the second lock solid structure, the transmission wheel passes through second lock solid structure and first locking on the pedestal Structure is detachably connected.

Preferably, the transmission wheel includes：Shaft, second lock solid structure are arranged at the second end of the shaft； Front runner, the front runner are detachably secured to the first end of the shaft；Rear portion runner, the rear portion runner are removable That unloads is fixed on one end in the shaft close to second lock solid structure, and the second lock solid structure interlocking is in described first When at lock solid structure, the rear portion runner is connected on the pedestal.

To sum up, the embodiment of the present invention is by being arranged multigroup pinch roller, and each group of pinch roller includes compressing the air sealing body First side the first pinch roller, and the second pinch roller of the second side of the air sealing body is compressed, so that air Seal can be delivered to postposition rolling frame by smooth sequential under the transmission of pinch roller, effectively prevent air sealing body pile-up. Gas leakage in air column at the same time it can also slow down air sealing body, stops gas leak.

With reference to Fig. 1 to Figure 21, the present invention is further illustrated.

Fig. 5, Fig. 6, Figure 11 and Figure 12, the automatic aerator 5 of the embodiment of the present invention are please referred to, the automatic aerator 5 wraps It includes：

Front platform 6, including transmission wheel 61 and processing platform 62, the air that the transmission wheel 61 is used to convey unaerated are close Body 9 is sealed to the processing platform 62；

Aerated rod 1, the aerated rod 1 are fixed on the processing platform 62, and the boot segment 13 of the aerated rod 1 is inserted in In the filling channel 90 of the air sealing body 9；

Pedestal 52, the pedestal 52 are set to the side of the processing platform 62, and the transmission wheel 61 is fixed on above-mentioned base On seat 52；And

Postposition rolling frame 7, the postposition rolling frame 7 include a winding wheel 71, and the winding wheel 71 is for winding described in warp The air sealing body 9 after the inflation of aerated rod 1；

Wherein the automatic aerator 5 can also include：Multigroup pinch roller 64, pinch roller 64 described in each group include：Phase To the first pinch roller and the second pinch roller of setting, first pinch roller is located at the first side of the aerated rod 1, second pinch roller position In the second side of the aerated rod 1, the pinch roller 64 is used to compress the first of the air sealing body 9 by first pinch roller Side, the second side of the air sealing body 9 is compressed by second pinch roller, and the air sealing body 9 is delivered to institute State postposition rolling frame 7.

Here, 64 adjacent aerated rod 1 of pinch roller is arranged, and the first pinch roller and the second pinch roller press against the upper of air sealing body 9 respectively Side and lower section convey air sealing body 9 to postposition rolling frame 7 by each pinch roller 64.On the one hand pinch roller 64 drives air sealing body 9 Advance, on the other hand press against 9 side 9a of air sealing body, when reducing air sealing body 9 and inflating, the expansion of air column 95 generate shrink and The problem of causing displacement, furthermore, air sealing body 9 is pressed against with pinch roller 64, the gas leakage in air column 95 can be slowed down.

3 and Figure 15 are please referred to Fig.1, in one embodiment, with three groups of pinch rollers 64 (two pinch rollers 64 is one groups), first group of pressure Wheel 64 adjacent to the boot segment 13 of aerated rod 1 at, second group of pinch roller 64 and third group pinch roller 64 it is adjacent and positioned at aerated rod 1 compel It is arranged at tight section 14, it is close that cutter 22 presses against air between second group of pinch roller 64 and third group pinch roller 64, with three groups of pinch rollers 64 Envelope body 9 prevents the gas in air column 95 from leak, blocking gas leak, non-as limit with the embodiment of three groups of pinch rollers 64, In further embodiments, can also be that one group of pinch roller 64 or two groups of pinch rollers 64 use.

Please refer to Fig.1 3 and and the 15th figure, above-mentioned multiple pinch rollers 64 be located at the top and lower section of 99 side 9a of air sealing body It is pressed against as one embodiment of the invention, multiple pinch rollers 64 are that top and lower position are mounted on 55 workspace of automatic aerator On 51, and to be horizontal be placed in being conveyed and being inflated between each group pinch roller 64 to air sealing body 9 by side 9a, but and unlimited In this.

Please refer to Fig.1 6 and Figure 17, in another embodiment, multiple pinch rollers 64 be front and rear position be mounted on from (it is by components rotations such as pinch roller 64, cutter 22, aerated rods 1 in a upper embodiment in other words on dynamic 55 workspace 51 of inflator It turn 90 degrees), and to be vertical type be placed in being conveyed and being inflated between each group pinch roller 64 to air sealing body 9 ' by side 9a.

The automatic aerator 5 of the embodiment of the present invention provides the inflation of air sealing body 9 ' and molding for being applicable in different external forms, shape It uses the gas flushing pouch of (as shown in figure 15) or vertical type is (as shown in figure 16) to use at the gas flushing pouch of plane formula, needs Illustrate, conveyed air sealing body with rear position in front by pinch roller 64, the air that can avoid vertical type is close The problem of envelope 9 ' skull structure 96 of body is blocked automatic aerator 5 and can not be conveyed increases automatic aerator 5 and produces difference The air sealing body 9 ' of finished product forms cylindric gas flushing pouch after inflation as shown in figure 17 and uses.

Fig. 5 and Figure 11 are please referred to, in the present embodiment, front platform 6 includes transmission wheel 61 and processing platform 62, transmission To processing platform 62, the connecting rod 21 of aerated rod 1 is fixed on processing platform 62, adds the air sealing body 9 of 61 conveying unaerated of wheel Work platform 62 can be a smooth platform, make each air column 95 of unaerated that can be shakeout on processing platform 62 and be processed.It is main The boot segment 13 of body 11 is inserted into the filling channel 90 of air sealing body 9 and is inflated (as shown in Figure 7), the air being continuously advanced Seal 9 is moved to postposition rolling frame 7, and postposition rolling frame 7 includes winding wheel 71, and winding wheel 71 winds the air sealing inflated Body 9, winding wheel 71 can continuously wind air sealing body 9.

Here, the automatic aerator 5 can also include：One slides roller bearing 65, and the sliding roller bearing 65 is located at the transmission Wheel 61 and the processing platform 62 between, the sliding roller bearing 65 for drive the air sealing body 9 by the transmission wheel 61 to The processing platform 62.Sliding roller bearing 65 drives air sealing body 9 to advance, also, can also reduce resistance by sliding roller bearing 65, more Add and stablizes convenient drive air sealing body 9 advance.

In one embodiment, aerated rod 1, pinch roller 64, connecting rod and gas tube 31 can roll seat along preset cunning and move (in figure It is not shown), adjacent pinch roller 64 and the load-bearing axle for being equipped with pressure works are also preset with extending seat, when in air sealing body 9 When section needs to be inflated, other upper and lower inflation mechanism supplemental inflatable can be penetrated to reach.

Fig. 5, Fig. 6 and Fig. 7 are please referred to, the air sealing body 9 includes multiple diaphragms 91 and multiple hot-sealing lines 93, the heat Envelope line 93 is heat-sealed on the diaphragm 91, and forms multiple air columns 95 of unaerated, and the air column 95 of unaerated is extruded in institute It states at the Packing Section 14 of aerated rod 1, the venthole 17 of the Packing Section 14 is used to inflate the air column 95 of unaerated, described The cutter 22 of aerated rod 1 is for cutting hot-sealing line 93 of the diaphragm 91 on 22 side of the cutter.Cutter 22 cuts diaphragm The hot-sealing line 93 of 91 side 9a can be such that air sealing body 9 is continuously advanced to postposition rolling frame 7.

Fig. 7, Fig. 8, Fig. 9 and Figure 10 are please referred to, here, 64 shape of pinch roller can be round pinch roller 641, gear-like pinch roller 642, Round pinch roller 641 can be about two competing discoid idler wheels or butterfly pinch roller 643, and gear-like pinch roller 642 can be with Upper and lower a pair of three idler wheels intermeshings altogether or it is upper and lower two pairs altogether three idler wheels intermeshing modes arrange, also, it is empty For hermetic sealing body 9 between upper and lower idler wheel, pinch roller 64 can press against and drive the effect that air sealing body 9 is continuously advanced, and described Butterfly pinch roller 643 includes fluted 645 in idler wheel outer surface, it is seen in the section of butterfly pinch roller 643, and center is recessed a ring The groove 645 of shape limits 645 structure of groove therein for aerated rod 1.

1 is please referred to Fig.1, the postposition rolling frame 7 can also include：Tension controller 73 and calculator 74, the tension Controller 73 is used to control the adaptation of the inflated air sealing body 9 of winding, and the calculator 74 is received for controlling The length of the inflated air sealing body 9 of volume.

8 are please referred to Fig.1, here, the Packing Section 14 of aerated rod 1 can also include the first lock-connection structure 141 and the second interlocking Structure 142,142 the first lock-connection structure of dismountable interlocking 141 of the second lock-connection structure.In this embodiment, the first lock-connection structure 141 adjoining air inlets 15, the first lock-connection structure 141 include nut, and the second lock-connection structure 142 includes the thread of tool hollow tubular structure. Through this structure, for the air sealing body 9 of various sizes of unaerated, the main body 11 of aerated rod 1 can be replaced as needed.

In another embodiment, the first lock-connection structure 141 includes the thread of tool hollow tubular structure, the second lock-connection structure 142 packet Include nut.In another embodiment, the first lock-connection structure 141 and the second lock-connection structure 142 also can pass through the mode interlocking of buckle.

Please referring to Fig.1 9, the transmission wheel 61 can be located at the sliding roller bearing 65 close to the side of the processing platform 62, Make the air sealing body 9 of unaerated from the transmission wheel 61 via the sliding roller bearing 65 to the processing platform 62 when formed One turnover.The cunning roller bearing 65 of automatic aerator 5 is between transmission wheel 61 and processing platform 62, the air sealing body of unaerated 9 during transmission, will pass through sliding roller bearing 65 and with slide roller bearing 65 be turning point advance towards processing platform 62, in this way, When aerated rod 1 is inflated, it can effectively completely cut off gas and enter unaerated air sealing body 9 between sliding roller bearing 65 and transmission wheel 61, it is no Then, the air sealing body 9 of whole unaerated will deviate the track of transmission because of back flow of gas.

Figure 20 and Figure 21 are please referred to, in this embodiment, pedestal 52 may include the first lock solid structure 521, is set to and adds The side of work platform 62, transmission wheel 61 include front runner 611, shaft 612 and rear portion runner 613,612 front and rear end of shaft With external screw thread, runner 611 dismountable interlocking in front is in the front end of shaft 612, and runner 613 dismountable interlocking in rear portion is in turning The air sealing body 9 of the rear end of axis 612, unaerated is hung between front runner 611 and rear portion runner 613.In this way, corresponding to not With the air sealing body 9 of the unaerated of size, front runner 611 can pass through side of the interlocking in shaft 612 with rear portion runner 613 Formula adjusts the distance between front runner 611 and rear portion runner 613.

Meanwhile the air sealing body 9 of the unaerated of roll type has the thickness of different sizes and volume bundle, corresponding transmission It is also different to take turns 61 sizes, transmission wheel 61 have the second lock solid structure 614, removably with 521 interlocking of the first lock solid structure.Pass through The setting of first lock solid structure 521 and the second lock solid structure 614, other transmission wheels 61 of replaceable in response to various sizes of not fill The air sealing body 9 of gas.In this embodiment, the first lock solid structure 521 is the lockhole for having internal thread, the second lock solid structure 614 For the external thread structure of 612 tail end of shaft.

The aerated rod in the embodiment of the present invention is further described below in conjunction with the accompanying drawings.

Referring to Fig. 2, the aerated rod 1 of the embodiment of the present invention may include：One main body 11, the inner hollow of the main body 11 An inner cavity 16 is formed, the main body 11 includes：It is set to the tapered boot segment 13 and setting of the first end of the main body 11 In the Packing Section 14 of the second end of the main body 11, the outer diameter of the Packing Section 14 is more than the outer diameter of the boot segment 13, described Main body 11 forms air inlet 15 at the Packing Section 14, and multiple ventholes 17, the venthole are provided in the main body 11 17 pour into the inner cavity 16 for supplied gas by the air inlet 15, and are blown out by the venthole 17；One connecting rod 21, the company The direction that bar 21 is faced away from the first end of the main body 11 by the second end of the main body 11 extends to form；One cutter 22, institute It states cutter 22 to be arranged at the second end of aforementioned body 11, and between the Packing Section 14 and the connecting rod 21；And until A few gas tube 31, is connected at the air inlet 15 of the Packing Section 14, for for delivering a gas to the inner cavity 16.

Here, aerated rod 1 can be an elongated barred body structure, but not limited to this.Referring to Fig. 4, in another embodiment, fill Gas stick 1 can also be that multiple sphere 11b are composed in series.

Fig. 2 and Fig. 3 are please referred to again, and main body 11 can be an elongated cone 11a, and 11 inner hollow of main body, main body 11 can It is made of metal or plastic material, the front end of main body 11 is gradually expanded and front end is made to form boot segment 13 to the back-end, and rear end is formed Packing Section 14, in the filling channel 90 that boot segment 13 facilitates insertion into air sealing body 9 because head end is small.Main body 11 is in Packing Section 14 Place forms air inlet 15, and the inner hollow of main body 11 forms inner cavity 16, multiple ventholes 17, inner cavity can be arranged on the main body 11 16 so that bore changes from small to big (this refers on the direction by boot segment 13 to Packing Section 14) due to 11 moulding of main body, inner cavity 16 Supplied gas is poured by air inlet 15, also, gas is blown out by the venthole 17 being formed on the outer wall of main body 11, each venthole 17 Between spacing can equidistant or Unequal distance, each venthole 17 can be arranged in any position of the outer wall of main body 11, each venthole 17 Aperture can also coordinate the volume of elongated cone 11a and change from small to big, but non-as limit, the aperture of each venthole 17 also may be used Unanimously.In one embodiment, the aperture of each venthole 1717 is about 2.5mm or about 3.2mm, and between the center of each venthole 17 Spacing is about 8mm.

The tapered structure of entirety of above-mentioned aerated rod 1 is that a kind of embodiment please refers to figure in some other embodiments 13 and Figure 14.Preferably, include first part and second part in the main body 11, the first part includes the boot segment 13, the first part is a cone, and the second part is a pipe in a circular table shape.

Here, it is another embodiment of 1 shape of aerated rod, the main body 11 of aerated rod 1 is designed to taper knot in boot segment 13 Structure, the boot segment 13 of cone structure are prominent in the outside of upper and lower two pinch rollers 64, and the inflation for facilitating insertion into air sealing body 9 is logical In road 90；Also, aerated rod 1 is other than 13 tapered structure (cone) of boot segment, in the stage casing of main body 11 to rear end system For a pipe, it is as designed to the identical round tube shape structure of diameter, that is to say, that aerated rod 1 is whole in flat (paracone after inner cone Design afterwards directly), also, 14 outer diameter of Packing Section of the rear end of main body 11 is more than 13 outer diameter of boot segment of front end.

Fig. 2, Fig. 5, Fig. 6 and Figure 11 are please referred to again, and here, connecting rod 21 is extended outwardly by the rear end of main body 11, connecting rod 21 To be connected on processing platform 62.Cutter 22 is arranged the rear end in main body 11 and between Packing Section 14 and connecting rod 21, Make to pass through by the air sealing body 9 of Packing Section 14, also, when air sealing body 9 is continuously advanced, 9 side 9a of air sealing body It can be cut by cutter 22, air sealing body 9 is allow smoothly to move ahead and be unlikely to collide connecting rod 21 and block, can not advance Problem occurs.

Here, air sealing body 9 can entangle aerated rod 1, upper and lower two pinch rollers 64 in gas replenishment process by side 9a Compress the side 9a of air sealing body 9 and firm drive air sealing body 9 advance, after the inflation of each air column 95 of air sealing body 9, 9 side 9a of air sealing body is finally cut by cutter 22 again, is open and disengaged from aerated rod 1 for 9 side 9a of air sealing body, i.e., Air sealing body 9 seals the closed side 9a in place and is cut by cutter 22.

Fig. 2, Fig. 3 and Fig. 6 are please referred to again, it is preferred that the inner cavity 16 is provided with a spacing block 112, the spacing block 112 The inner cavity 16 is divided into the first inflatable region and the second inflatable region, the air inlet 15 includes：At least one connection described the First opening of one inflatable region and at least one the second opening for being connected to second inflatable region.

Gas tube 31 is connected at the air inlet 15 of Packing Section 14, and gas tube 31 is for delivering a gas to inner cavity 16, this implementation In example, it is separately connected the first opening and the second opening for two gas tubes 31 of setting, in detail, main body 11 includes a separation Block 112, spacing block 112 are set to inner cavity 16 and (can also divide inner cavity 16 by multiple spacing blocks 112 for two inflatable regions 161 Inflatable region 161 for three or three or more), the outboard end 9a of spacing block 112 forms the first opening at air inlet 15 With the second opening, two openings 151 are separately connected a gas tube 31, also, switch valve can be arranged on each gas tube 31 32, it can be controlled by switch valve 32 and be turned on and off inflation, visual inflation requirements open inflation simultaneously, or also sectional is opened, To inflated each air column on air sealing body 9 it is of different sizes when, adjustable switch valve 32 meets different gas The inflationtime that switch valve 32 controls big air column and stingy intercolumniation can also be used in the size requirement of column.Here, with two gas tubes The mode of 31 connection main bodys 11 is only citing, in some embodiments, only can connect main body 11 with a gas tube 31.

Referring to Fig. 4, for another embodiment of aerated rod 1, in the present embodiment, main body 11 is by multiple ascending concatenations Sphere 11b compositions, each sphere 11b inner hollows, and connected state is between each sphere 11b so that inner cavity 16 is because of each sphere 11b external forms and form bore and change from small to big, also, outer diameter smaller multiple spherula 11b in one end cooperatively form boot segment 13, separately Outer diameter larger sphere 11b in one end cooperatively forms Packing Section 14, and gas tube 31 is connected at the last one big sphere 11b, when filling When tracheae 31 is inflated in multiple sphere 11b, gas is poured by big sphere 11b to spherula 11b successively, then from multiple spheres Venthole 17 on the outer wall of 11b is blown out, the spacing between each venthole 17 can equidistant or Unequal distance, each venthole 17 can be in master It is arranged at any position on the outer wall of body 11, it also can be on the outer wall of each sphere 11b with regard to being formed out in vertical three branches Stomata 17, also, the aperture of each venthole 17 can also coordinate different size of sphere 11b volumes and change from small to big, but it is non-with this It is limited, the aperture of each venthole 17 also can be consistent.

Fig. 4, Figure 11 and Figure 12 are please referred to, here, the section concave-convex surface of multiple sphere 11b, corresponding air sealing body 9 The outer wall of multiple air columns of section concave-convex surface, sphere 11b is equipped with venthole 17, and sphere 11b is inserted into filling for air sealing body 9 After being inflated in gas channel 90, each air column expansion after inflation, the section spheroiding of each air column, and the air column of unaerated expansion Section then remains as plane, and the diaphragm 91 where the air column of each unaerated is easy mutual gauffer because not being softened, i.e., each diaphragm 91 shrink and cause the formation (as shown in Fig. 6) of rugae area 94, and the air column of each unaerated understands mutual pile-up, again in rugae area 94 Repeatedly, so that the cutter 22 before connecting rod 21 can not accurately cut the side 9a of air sealing body 9, so that air sealing body 9 is advanced and transport Capable forward constricted flow, even if air sealing body 9 blocks on processing platform 62.Here, pass through multiple sphere 11b connections Aerated rod 1 designs, between multiple big sphere 11b after inflation due to it is close to each other, squeeze, the glomerate stringent design of shape can be with It helps gas and is blown to air column from the venthole 17 of major sphere 11b, also, each diaphragm 91 in the region that can effectively releive is formed Rugae area 94, allow each diaphragm 91 of rugae area 94 to flatten, the cutter 22 allow smoothly to cut the side of air sealing body 9 9a allows connecting rod 21 that will not block the side 9a of air sealing body 9, the air column after inflation 95 is allow smoothly to wind forward.Certainly It is understood that the aerated rod 1 of taper setting can also solve the problems, such as gauffer among the above.

Referring to Figure 18, the Packing Section 14 may include the first lock-connection structure 141 and the second lock-connection structure 142, and described Two lock-connection structures, 142 dismountable interlocking is on first lock-connection structure 141, first lock-connection structure 141 and described It is connected between two lock-connection structures 142 and the air inlet 15, forms an inlet channel.

Here it is possible to be connected by helicitic texture.Such as first be provided with screwed tooth structure, the second lock on lock-connection structure 141 The nut structure coordinated with screwed tooth structure is provided on binding structure 142；Alternatively, being provided with nut knot on the first lock-connection structure 141 Structure is provided with the screwed tooth structure coordinated with nut structure on the second lock-connection structure 142.

Here, by the structure design of aerated rod 1, air sealing body 9 is facilitated insertion by the front end cone structure of aerated rod 1 Filling channel 90 in be inflated, the front end of 9 traveling aerated rod 1 of air sealing body is smooth, and the rear end volume of aerated rod 1 is larger The diaphragm 91 for then corresponding to gauffer helps gas and is blown to air column 95 from venthole 17, also, the fold that can more releive, and makes the cutter 22 9 side 9a of air sealing body can be smoothly cut, allows connecting rod 21 that will not block 9 side 9a of air sealing body, after inflation is provided Air column 95 is smoothly wound forward.In addition, driving air sealing body 9 to advance and press against with multiple pinch rollers 64 of automatic aerator 5 9 side 9a of air sealing body, when reducing the inflation of air sealing body 9, the expansion of air column 95 leads to the problem of contraction and causes displacement.

In addition, the present invention can in different examples repeat reference numerals and/or letter.This repetition be in order to simplify and Clear purpose itself does not indicate the relationship between discussed various embodiments and/or setting.

It should also be noted that, herein, relational terms such as first and second and the like are used merely to one Entity or operation are distinguished with another entity or operation, without necessarily requiring or implying between these entities or operation There are any actual relationship or orders.Moreover, the terms "include", "comprise" or its any other variant are intended to contain Lid non-exclusive inclusion.

The above is the preferred embodiment of the present invention, it is noted that for those skilled in the art For, without departing from the principles of the present invention, several improvements and modifications can also be made, these improvements and modifications It should be regarded as protection scope of the present invention.

Claims (10)

1. a kind of automatic aerator, which is characterized in that including：

Front platform, including transmission wheel and processing platform, the transmission wheel are used to convey the air sealing body of unaerated to described Processing platform；

Aerated rod, the aerated rod are fixed on the processing platform, and it is close that the boot segment of the aerated rod is inserted in the air It seals in the filling channel of body；And

Postposition rolling frame, the postposition rolling frame include a winding wheel, and the winding wheel is inflated for winding through the aerated rod The air sealing body afterwards；

Wherein, multigroup pinch roller is additionally provided on the front platform, pinch roller includes described in each group：The first pressure being oppositely arranged Wheel and the second pinch roller, first pinch roller are located at the first side of the aerated rod, and second pinch roller is located at the aerated rod The second side, multigroup pinch roller is used to compress the first side of the air sealing body by first pinch roller, by described Second pinch roller compresses the second side of the air sealing body, and the air sealing body is delivered to the postposition rolling frame.

2. automatic aerator according to claim 1, which is characterized in that the aerated rod includes：

The inner hollow of one main body, the main body forms an inner cavity, and the main body includes：It is set to the first end of the main body The outer diameter of the Packing Section of tapered boot segment and the second end for being set to the main body, the Packing Section is more than the boot segment Outer diameter, the main body forms air inlet at the Packing Section, multiple ventholes, the venthole is provided in the main body The inner cavity is poured by the air inlet for supplied gas, and is blown out by the venthole；

One connecting rod, the direction that the connecting rod is faced away from the first end of the main body by the second end of the main body extend to form, The aerated rod is fixedly connected by the connecting rod with the processing platform；

One cutter, the cutter are arranged at the second end of aforementioned body, and between the Packing Section and the connecting rod；With And

An at least gas tube is connected at the air inlet of the Packing Section, for for delivering a gas to the inner cavity.

3. automatic aerator according to claim 2, which is characterized in that the Packing Section includes the first lock-connection structure and the Two lock-connection structures, the dismountable interlocking of the second lock-connection structure is on first lock-connection structure, first lock-connection structure It is connected between second lock-connection structure and the air inlet, forms an inlet channel.

4. automatic aerator according to claim 3, which is characterized in that first lock-connection structure and second interlocking It is fixedly connected by way of being spirally connected or being clamped between structure.

5. automatic aerator according to claim 2, which is characterized in that the main body includes first part and second Point, the first part includes the boot segment, and the first part is a cone, and the second part is one in a circular table shape Pipe.

6. automatic aerator according to claim 2, which is characterized in that the quantity of the pinch roller is 3 groups；Described in first group Pinch roller is disposed adjacent at the boot segment, and pinch roller is disposed adjacent described in pinch roller and third group described in second group, and second group of institute State that pinch roller described in pinch roller and third group is adjacent to be set at the Packing Section.

7. automatic aerator according to claim 1, which is characterized in that further include：

One slides roller bearing, and the sliding roller bearing is between the transmission wheel and the processing platform, and the sliding roller bearing is for driving institute Air sealing body is stated by the transmission wheel to the processing platform；

Wherein, the transmission wheel is located at the sliding roller bearing close to the side of the processing platform, keeps the air of unaerated close Transmission wheel described in Feng Ticong is via the sliding roller bearing to one turnover of formation when the processing platform.

8. automatic aerator according to claim 1, which is characterized in that further include：Pedestal, the pedestal are set to described The side of processing platform, the transmission wheel are fixed on the pedestal.

9. automatic aerator according to claim 8, which is characterized in that close to the one of the processing platform on the pedestal Side is provided with the first lock solid structure；

The second lock solid structure is provided in the transmission wheel, the transmission wheel passes through in second lock solid structure and the pedestal First lock solid structure be detachably connected.

10. automatic aerator according to claim 9, which is characterized in that the transmission wheel includes：

Shaft, second lock solid structure are arranged at the second end of the shaft；

Front runner, the front runner are detachably secured to the first end of the shaft；

Rear portion runner, the rear portion runner are detachably secured to one end close to second lock solid structure in the shaft, When the second lock solid structure interlocking is at first lock solid structure, the rear portion runner is connected on the pedestal.