CN110439436B

CN110439436B - Inert gas inflator for hollow glass

Info

Publication number: CN110439436B
Application number: CN201910797961.2A
Authority: CN
Inventors: 杨明华
Original assignee: Haimen Beisite Tempered Glass Co ltd
Current assignee: Nantong Golden Butterfly Energy Saving Technology Co ltd
Priority date: 2019-08-27
Filing date: 2019-08-27
Publication date: 2020-05-12
Anticipated expiration: 2039-08-27
Also published as: CN110439436A; JP2021031376A; GB201917747D0

Abstract

The hollow glass inert gas inflator comprises a base, wherein metal plates are symmetrically and fixedly arranged on the top surface of the base in a bilateral mode, side frames are symmetrically and slidably arranged between the two metal plates in the bilateral mode, lower frames are fixedly arranged below the two side frames, upper frames are fixedly arranged above the two side frames, and gaps are formed at the joints of the upper frames, the lower frames and the side frames. The produced hollow glass with inert gas has high quality.

Description

Inert gas inflator for hollow glass

Technical Field

The invention relates to the field of hollow glass production, in particular to a hollow glass inert gas inflator.

Background

As is well known, hollow glass is a good heat-insulating, sound-insulating, and aesthetic building material, and is generally produced by filling two sheets of glass with inert gas and sealing the two sheets with a binder such as glue; the traditional hollow glass production process is complex, particularly in the link of filling inert gas, in order to ensure that air is not left in the hollow glass, production is often required to be completed in larger inert gas, so that the required cost for producing the hollow glass is higher, and the manual operation space of an external operator is smaller, so that small-batch production cannot be carried out; in addition, the traditional hollow glass is independently used as a production process when being sealed, and the hollow glass needs to be integrally transferred when being sealed, so that the damage to the hollow glass during transportation is increased, a larger production interval exists between the processes of filling inert gas and sealing, and the production efficiency is lower; it is therefore desirable to design a hollow glass inert gas inflator to address the above problems.

Disclosure of Invention

The invention aims to provide a hollow glass inert gas inflator which can fill inert gas in hollow glass and utilize glue for sealing, and meanwhile, the device is sensitive in reaction, safe and reliable.

The invention is realized by the following technical scheme.

The hollow glass inert gas inflator comprises a base, wherein metal plates are fixedly arranged on the top surface of the base in a bilateral symmetry manner;

side frames are symmetrically and slidably mounted between the two metal plates in a left-right mode, a lower frame is fixedly arranged below the two side frames, an upper frame is fixedly arranged above the two side frames, gaps are formed at the connecting parts of the upper frame, the lower frame and the side frames, and fixing mechanisms capable of symmetrically mounting glass plates in the mounting cavity in a front-back mode are arranged in the mounting cavity formed among the upper frame, the lower frame and the side frames;

a cooling mechanism capable of cooling the side frame and the gap between the side frame and the lower frame as well as between the side frame and the upper frame is arranged in the metal plate and the base, the cooling mechanism comprises the metal plate, a first water cooling hole which penetrates through the metal plate from top to bottom is arranged in the metal plate, a second water cooling hole which is communicated with the two first water cooling holes is arranged in the base, cooling liquid is added between the second water cooling hole and the first water cooling hole, and when the cooling liquid circulates in the first water cooling hole and the second water cooling hole, the cooling mechanism cools the side frame and the gap between the side frame and the upper frame as well as the gap between the side frame and the lower frame as well as between the side frame and the upper frame;

go up the frame and be equipped with the round hole that runs through from top to bottom, be equipped with in the round hole and two after filling inert gas between the glass board and will the side frame the lower frame with go up the sealed filling mechanism of glue in clearance between the frame, filling mechanism includes the round hole, can insert one in the round hole and stretch into two stock between the glass board, stock left side is equipped with the inlet port that runs through from top to bottom, it has inert gas to circulate in the inlet port, the stock right side is equipped with the glue inlet that runs through from top to bottom, it has glue to circulate in the glue inlet, the inert gas of circulation in the inlet port is with two air escape between the glass board, after two fill inert gas between the glass board, glue that circulates in the glue inlet can get into the side frame the lower frame with go up in the frame and seal the side frame, A gap between the lower rim and the upper rim.

Further, the cooling mechanism comprises the first water cooling holes, a hose is arranged between the first water cooling holes in a communicated mode, and a circulating pipeline is formed between the second water cooling holes and the hose and the two first water cooling holes.

Furthermore, bilateral symmetry is equipped with the ascending first slide opening of opening in the base, it is equipped with to slide in the first slide opening with the slide bar of lower frame bottom surface butt, the fixed switch that is equipped with of slide bar diapire, the slide bar with be connected with first spring between the switch.

Furthermore, be located the left side in base center first slide opening diapire fixed be equipped with the water pump of switch electricity federation, the water pump can make the coolant liquid in the second water-cooling hole flows, be located base center right side first slide opening diapire fixed be equipped with the water-cooling module of switch electricity federation, the water-cooling module can make the coolant liquid in the second water-cooling hole cools off.

Further, the fixing mechanism comprises the side frame, a first through hole which penetrates through the side frame from top to bottom is formed in the side frame, a second through hole which penetrates through the side frame from left to right and communicates the first through hole is formed in the lower frame, glue leaking holes which penetrate through the second through hole from top to bottom are formed in the bottom wall of the second through hole, and third through holes which penetrate through the side frame from left to right and communicate the first through holes are formed in the round hole in a bilateral symmetry mode.

Furthermore, the front and back symmetry is equipped with the opening in the side frame towards the recess of lower frame center department, install in the recess the glass board, the longitudinal symmetry is equipped with the outside second slide opening of opening in the side frame, the inboard end wall of second slide opening is fixed and is equipped with first permanent magnet, the lower frame with go up bilateral symmetry in the frame be equipped with the third slide opening of second slide opening intercommunication, it is equipped with in the third slide opening can with the second permanent magnet that first permanent magnet inhales mutually to slide, the second permanent magnet with be connected with the second spring between the third slide opening end wall.

Further, the filling mechanism comprises the round hole, first sliding grooves communicated with the round hole are symmetrically arranged on the left side and the right side of the round hole, inclined sliding plates are arranged in the first sliding grooves in a sliding mode, the two inclined sliding plates can block the round hole, and a third spring is connected between the inclined sliding plates and the end wall of the first sliding groove.

Furthermore, an up-and-down extending rotating shaft is arranged in an end wall between the air inlet hole and the glue inlet hole in a rotating mode, a disc is fixedly arranged at the bottom end of the rotating shaft, a hard tube which penetrates through the air inlet hole from top to bottom and is communicated with the air inlet hole is arranged at the left end of the disc, a spray head is communicated with the bottom end of the hard tube, and a fixing block for blocking the glue inlet hole is fixedly arranged on the top surface of the disc.

Further, the disc bilateral symmetry is equipped with the ascending second spout of opening, it is equipped with the slider to slide in the second spout, the slider with be connected with the fourth spring between the second spout end wall, the fixed dead lever that upwards extends that is equipped with of slider top surface, slide on the dead lever be equipped with can with the arc magnet that the frame attracted mutually on, arc magnet with be connected with the fifth spring between the stock surface, the disc surface is connected with upwards extends and is located the film in the arc magnet outside.

The invention has the beneficial effects that: the device can fill inert gas in the hollow glass and seal the hollow glass by using glue, has high modularization degree, can randomly adjust and replace parts, is flexible and changeable, and has simple and clear operation; meanwhile, the cooling mechanism precools the side frame, and the cooling mechanism can also accelerate the solidification of glue, so that the time required by production is reduced, and the device is sensitive in response and rich in functions; in addition, the glue can not overflow when blocking the gap, and the produced hollow glass with inert gas has high quality.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a mechanical schematic of an embodiment of the present invention;

FIG. 2 is an enlarged schematic view of C in FIG. 1;

FIG. 3 is an enlarged schematic view of D of FIG. 1;

FIG. 4 is a schematic view of the structure A-A of FIG. 1;

FIG. 5 is a schematic diagram of B-B in FIG. 1.

Detailed Description

The invention will now be described in detail with reference to fig. 1-5, for convenience of description, the following orientations will now be defined: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The inert gas inflator for hollow glass described in conjunction with the attached figures 1-5 comprises a base 21, wherein the top surface of the base 21 is fixed with metal plates 11 in a bilateral symmetry manner;

side frames 13 are symmetrically installed between the two metal plates 11 in a sliding mode from left to right, a lower frame 25 is fixedly arranged below the two side frames 13, an upper frame 26 is fixedly arranged above the two side frames 13, gaps are formed at the joints of the upper frame 26, the lower frame 25 and the side frames 13, and fixing mechanisms 91 capable of symmetrically installing glass plates 15 in the installation cavity from front to back are arranged in the installation cavity formed among the upper frame 26, the lower frame 25 and the side frames 13;

a cooling mechanism 90 capable of cooling the side frame 13 and the gap between the side frame 13 and the lower frame 25 and the gap between the side frame 13 and the upper frame 26 are arranged in the metal plate 11 and the base 21, the cooling mechanism 90 includes the metal plate 11, a first water cooling hole 12 penetrating through the metal plate 11 from top to bottom is arranged in the metal plate 11, a second water cooling hole 20 communicated with the two first water cooling holes 12 is arranged in the base 21, cooling liquid is added between the second water cooling hole 20 and the first water cooling hole 12, and when the cooling liquid circulates in the first water cooling hole 12 and the second water cooling hole 20, the cooling mechanism 90 cools the gap between the side frame 13 and the lower frame 25 and between the side frame 13 and the upper frame 26;

go up the round hole 29 that is equipped with and runs through from top to bottom in the frame 26, be equipped with in the round hole 29 two after filling inert gas between the glass board 15 and will the side frame 13 the frame 25 down with the sealed mechanism 92 that fills of glue is used in the clearance between the frame 26, fill mechanism 92 includes round hole 29, can insert one in the round hole 29 and stretch into two stock 42 between the glass board 15, stock 42 left side is equipped with the inlet port 27 that runs through from top to bottom, inert gas circulates in the inlet port 27, stock 42 right side is equipped with into gluey hole 41 that runs through from top to bottom, it has glue to circulate in advancing gluey hole 41, the inert gas who circulates in the inlet port 27 will two air between the glass board 15 is discharged, and when two fill after inert gas between the glass board 15, glue that advances gluey hole 41 circulation can get into side frame 13, The lower frame 25 and the upper frame 26 are arranged inside and seal the gaps between the side frames 13 and the upper frame 26 and between the lower frame 25 and the upper frame 26.

The cooling mechanism 90 comprises the first water cooling holes 12, a hose 10 is communicated between the two first water cooling holes 12, and a circulating pipeline is formed among the second water cooling hole 20, the hose 10 and the two first water cooling holes 12.

The portable electronic device is characterized in that first sliding holes 17 with upward openings are symmetrically formed in the base 21 in the left and right mode, a sliding rod 16 connected with the bottom face of the lower frame 25 in an abutting mode is arranged in each first sliding hole 17 in a sliding mode, a switch 22 is fixedly arranged on the bottom wall of each sliding rod 16, and a first spring 18 is connected between each sliding rod 16 and the corresponding switch 22.

The bottom wall of the first slide hole 17 positioned on the left side of the center of the base 21 is fixedly provided with a water pump 19 electrically connected with the switch 22, the water pump 19 can enable the cooling liquid in the second water-cooling hole 20 to flow, the bottom wall of the first slide hole 17 positioned on the right side of the center of the base 21 is fixedly provided with a water-cooling module 54 electrically connected with the switch 22, the water-cooling module 54 can enable the cooling liquid in the second water-cooling hole 20 to cool, when the fixing mechanism 91 is assembled and then installed between the two metal plates 11, the lower frame 25 extrudes the slide rod 16, the slide rod 16 downwards slides and extrudes the switch 22 under the extrusion force, after the switch 22 is extruded, the switch 22 enables the water pump 19 and the water-cooling module 54 to be electrified and started, the water pump 19 can enable the cooling liquid in the second water-cooling hole 20 to flow, and the water-cooling module 54 can enable the cooling liquid in the second water-cooling hole 20 to cool, at this time, the cooling liquid is continuously flowed in the circulating pipeline and the temperature in the side frame 13 is reduced.

The fixing mechanism 91 comprises the side frame 13, a first through hole 14 which penetrates through the side frame 13 from top to bottom is formed in the side frame 13, a second through hole 24 which penetrates through the lower frame 25 from left to right and communicates the two first through holes 14 is formed in the lower frame, glue leakage holes 23 which penetrate through the second through hole 24 from top to bottom are formed in the bottom wall of the second through hole, and third through holes 28 which penetrate through the first through hole 14 from left to right and communicate the first through holes 14 are formed in the round hole 29 in a bilateral symmetry mode.

The glass plate is characterized in that grooves 51 with openings facing the center of the lower frame 25 are symmetrically arranged in the side frame 13 in a front-back manner, the glass plate 15 is installed in the grooves 51, second sliding holes 47 with outward openings are symmetrically arranged in the side frame 13 in an up-down manner, first permanent magnets 46 are fixedly arranged on the inner side end walls of the second sliding holes 47, third sliding holes 50 communicated with the second sliding holes 47 are symmetrically arranged in the lower frame 25 and the upper frame 26 in a left-right manner, second permanent magnets 48 capable of attracting the first permanent magnets 46 are slidably arranged in the third sliding holes 50, second springs 49 are connected between the second permanent magnets 48 and the end walls of the third sliding holes 50, a user firstly installs the glass plate 15 in the grooves 51, then splices the upper frame 26, the lower frame 25 and the side frame 13, and after the upper frame 26, the lower frame 25 and the side frame 13 are spliced, after the second permanent magnet 48 is attracted by the first permanent magnet 46, the second permanent magnet 48 extends into the second sliding hole 47, and the side frame 13, the lower frame 25, the upper frame 26 and the glass plate 15 form hollow glass.

The filling mechanism 92 comprises the round hole 29, the round hole 29 is bilaterally symmetrically provided with first sliding grooves 43 communicated with the round hole 29, inclined sliding plates 44 are arranged in the first sliding grooves 43 in a sliding mode, the two inclined sliding plates 44 can block the round hole 29, and a third spring 45 is connected between the inclined sliding plates 44 and the end wall of the first sliding groove 43.

A vertically extending rotating shaft 40 is rotatably arranged in an end wall between the air inlet hole 27 and the glue inlet hole 41, a disc 33 is fixedly arranged at the bottom end of the rotating shaft 40, a hard tube 34 which vertically penetrates through and is communicated with the air inlet hole 27 is arranged at the left end of the disc 33, a spray head 35 is communicated with the bottom end of the hard tube 34, and a fixing block 37 for blocking the glue inlet hole 41 is fixedly arranged on the top surface of the disc 33.

The disc 33 is provided with second sliding grooves 32 with upward openings in bilateral symmetry, a sliding block 30 is arranged in the second sliding groove 32 in a sliding manner, a fourth spring 31 is connected between the sliding block 30 and the end wall of the second sliding groove 32, a fixing rod 39 extending upwards is fixedly arranged on the top surface of the sliding block 30, an arc magnet 52 which can attract the upper frame 26 is arranged on the fixing rod 39 in a sliding manner, a fifth spring 53 is connected between the arc magnet 52 and the outer surface of the long rod 42, a film 38 extending upwards and positioned on the outer side of the arc magnet 52 is connected on the outer surface of the disc 33, after the fixing mechanism 91 is assembled and installed in the cooling mechanism 90, a user extends the long rod 42 into the circular hole 29, at the moment, the long rod 42 drives the disc 33 to slide downwards, the disc 33 slides downwards to abut against the inclined sliding plate 44 and then extends into the space between the two glass plates 15, at the same time, the arc magnets 52 attract the upper frame 26, the two arc magnets 52 move away from each other and press the film 38, the film 38 contacts the end wall of the circular hole 29, at this time, the circular hole 29 is blocked by the film 38, gas and liquid cannot flow out from the upper side of the circular hole 29, then inert gas flows through the gas inlet 27, the inert gas enters between the two glass plates 15, the air between the two glass plates 15 is discharged from the gap between the side frame 13, the lower frame 25 and the slide bar 16, after the hollow glass is filled with the inert gas, a user lifts the long rod 42 and makes the disc 33 located in the circular hole 29 above the inclined slide plate 44, at this time, the two inclined slide plates 44 approach each other under the elasticity of the third spring 45, and the opening below the circular hole 29 is blocked by the two inclined slide plates 44, meanwhile, since the arc magnets 52 can slide on the fixing rod 39, the arc magnets 52 are always attracted to the upper frame 26, after the long rod 42 slides upwards, the two arc magnets 52 are still in a state of being away from each other and press the film 38, that is, at this time, the film 38 blocks the opening above the circular hole 29, then the user rotates the rotating shaft 40 one hundred eighty degrees, the rotating shaft 40 drives the disc 33 to rotate one hundred eighty degrees, the disc 33 drives the hard tube 34 and the fixed block 37 to rotate one hundred eighty degrees around the center of the rotating shaft 40, at this time, the hard tube 34 is communicated with the glue inlet hole 41, the fixed block 37 blocks the air inlet hole 27, and after glue flows through the glue inlet hole 41, the glue in the glue inlet hole 41 enters the circular hole 29 blocked by the sliding plate 44 and the film 38 through the hard tube 34 and the spray head 35, then the glue in the circular hole 29 flows into the first through hole 14 and the second through hole 24 through the third through hole 28, and simultaneously the glue also flows into the gaps between the side frame 13, the lower frame 25 and the upper frame 26, because the cooling mechanism 90 cools the side frame 13 and the gaps between the side frame 13, the lower frame 25 and the upper frame 26, the glue is cooled by the cooling mechanism 90 and is preferentially solidified when flowing towards the outer side of the gaps, the glue does not continuously overflow outwards after blocking the gaps, simultaneously the second permanent magnet 48 prevents the glue from flowing towards the inner side of the gaps, the glue does not flow between the two glass plates 15, when the user observes that the glue drips out of the glue leaking hole 23, the glue is stopped to be added into the glue inlet hole 41, and finally the long rod 42 is pulled out of the circular hole 29, at this time, the long rod 42 drives the disc 33 to continuously slide upwards, after the disc 33 slides upwards and abuts against the arc-shaped magnet 52, the disc 33 drives the arc-shaped magnet 52 to extend out of the circular hole 29, and the hollow glass is taken out after all glue in the hollow glass is solidified.

Sequence of mechanical actions of the whole device:

1: firstly, a user firstly installs the glass plate 15 in the groove 51, then splices the upper frame 26, the lower frame 25 and the side frames 13, after the upper frame 26, the lower frame 25 and the side frames 13 are spliced, the second permanent magnet 48 is attracted by the first permanent magnet 46, and then the second permanent magnet 48 extends into the second sliding hole 47, so that the side frames 13, the lower frame 25, the upper frame 26 and the glass plate 15 form hollow glass, the modularization degree is high, parts can be adjusted and replaced at will, the device is flexible and changeable, and the operation is simple and clear;

2: then, the hollow glass is installed between the two metal plates 11, when the hollow glass is installed between the two metal plates 11 after being assembled, the lower frame 25 extrudes the slide rod 16, the slide rod 16 downwardly slides under the action of extrusion force to extrude the switch 22, after the switch 22 is extruded, the switch 22 enables the water pump 19 and the water cooling module 54 to be electrified and started, the water pump 19 enables cooling liquid in the second water cooling hole 20 to flow, the water cooling module 54 enables the cooling liquid in the second water cooling hole 20 to be cooled, at the moment, the cooling liquid continuously flows in a circulating pipeline and reduces the temperature in the side frame 13, the cooling mechanism 90 pre-cools the side frame 13, and meanwhile, the cooling mechanism 90 can also accelerate the solidification of glue, so that the time required by production is reduced, the device is sensitive in response and rich in functions;

3: then, after the fixing mechanism 91 is assembled and installed in the cooling mechanism 90, the user extends the long rod 42 into the circular hole 29, at this time, the long rod 42 drives the disc 33 to slide downwards, the disc 33 slides downwards to abut against the inclined sliding plate 44 and then extends between the two glass plates 15, at the same time, the arc-shaped magnets 52 attract the upper frame 26, the two arc-shaped magnets 52 are far away from each other and press the membrane 38, the membrane 38 is in contact with the end wall of the circular hole 29, at this time, the membrane 38 blocks the circular hole 29, and gas and liquid cannot flow out from the upper part of the circular hole 29, so the device is safe and reliable;

4: then, inert gas flows through the gas inlet 27, enters between the two glass plates 15, and air between the two glass plates 15 is discharged from gaps among the side frames 13, the lower frame 25 and the slide bar 16, after the hollow glass is filled with the inert gas, a user lifts the long rod 42 and makes the disc 33 located in the circular hole 29 above the inclined slide plate 44, at this time, the two inclined slide plates 44 approach each other under the elasticity of the third spring 45, and the two inclined slide plates 44 block the opening below the circular hole 29;

5: meanwhile, since the arc magnets 52 can slide on the fixing rod 39, the arc magnets 52 are always attracted to the upper frame 26, and after the long rod 42 slides upwards, the two arc magnets 52 are still away from each other and press the thin film 38, that is, the thin film 38 blocks the opening above the circular hole 29;

6: then, a user rotates the rotating shaft 40 by one hundred eighty degrees, the rotating shaft 40 drives the disc 33 to rotate by one hundred eighty degrees, the disc 33 drives the hard tube 34 and the fixed block 37 to rotate by one hundred eighty degrees around the center of the rotating shaft 40, at this time, the hard tube 34 is communicated with the glue inlet hole 41, the fixed block 37 blocks the air inlet hole 27, after glue flows through the glue inlet hole 41, the glue in the glue inlet hole 41 enters the circular hole 29 blocked by the inclined sliding plate 44 and the thin film 38 through the hard tube 34 and the spray head 35, and then the glue in the circular hole 29 flows into the first through hole 14 and the second through hole 24 through the third through hole 28;

7: meanwhile, glue also flows into gaps among the side frames 13, the lower frame 25 and the upper frame 26, the cooling mechanism 90 cools the side frames 13 and the gaps among the side frames 13, the lower frame 25 and the upper frame 26, the glue is cooled by the cooling mechanism 90 and is preferentially solidified when flowing towards the outer sides of the gaps, the glue cannot continuously overflow outwards after blocking the gaps, meanwhile, the second permanent magnet 48 prevents the glue from flowing towards the inner sides of the gaps, the glue cannot flow between the two glass plates 15, the glue cannot overflow when blocking the gaps, and the quality of the produced hollow glass with inert gas is high;

8: when the user observes after having dripped glue in leaking the gluey hole 23, stop to advance to add glue in the gluey hole 41, at last will stock 42 is followed extract in the round hole 29, at this moment stock 42 drives disc 33 continues upwards to slide, disc 33 upwards slide with arc magnet 52 butt back, disc 33 drives arc magnet 52 stretches out in the round hole 29, it can to treat that the glue in the cavity glass is whole to solidify the back and take out cavity glass.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims

1. The utility model provides a cavity glass inert gas inflator, includes the base, its characterized in that: the metal plates are fixedly arranged on the top surface of the base in a bilateral symmetry manner;

2. The insulated glass inert gas inflator of claim 1, wherein: the cooling mechanism comprises first water cooling holes, two hoses are communicated between the first water cooling holes, and circulating pipelines are formed between the second water cooling holes and the hoses and the two first water cooling holes.

3. The insulated glass inert gas inflator of claim 2, wherein: the base is internally provided with first sliding holes with upward openings in a bilateral symmetry mode, the first sliding holes are internally provided with sliding rods in sliding mode, the sliding rods are abutted to the bottom face of the lower frame, the bottom walls of the sliding rods are fixedly provided with switches, and first springs are connected between the sliding rods and the switches.

4. The inert gas inflator for hollow glass as claimed in claim 3, wherein: the first slide hole bottom wall is fixedly provided with a water pump connected with the switch power supply, the water pump can enable cooling liquid in the second water-cooling hole to flow, the first slide hole bottom wall is fixedly provided with a water-cooling module connected with the switch power supply, and the water-cooling module can enable the cooling liquid in the second water-cooling hole to cool.

5. The insulated glass inert gas inflator of claim 1, wherein: the fixing mechanism comprises the side frame, a first through hole which penetrates through the side frame from top to bottom is formed in the side frame, a second through hole which penetrates through the lower frame from left to right and communicates the two first through holes is formed in the lower frame, glue leaking holes which penetrate through the second through hole from top to bottom are formed in the bottom wall of the second through hole, and third through holes which penetrate through the round hole from left to right and communicate the two first through holes are symmetrically formed in the left to right of the round hole.

6. The inert gas inflator for hollow glass as claimed in claim 5, wherein: the glass plate is installed in the groove, second sliding holes with outward openings are symmetrically formed in the side frame in the longitudinal direction, first permanent magnets are fixedly arranged on the end walls of the inner sides of the second sliding holes, third sliding holes communicated with the second sliding holes are symmetrically formed in the side frame in the lateral direction, second permanent magnets capable of being attracted to the first permanent magnets are arranged in the third sliding holes in the sliding mode, and second springs are connected between the second permanent magnets and the end walls of the third sliding holes.

7. The insulated glass inert gas inflator of claim 1, wherein: the filling mechanism comprises the round hole, the round hole is bilaterally symmetrically provided with first sliding grooves communicated with the round hole, inclined sliding plates are arranged in the first sliding grooves in a sliding mode, the inclined sliding plates can block the round hole, and a third spring is connected between the inclined sliding plates and the end wall of the first sliding groove.

8. The insulating glass inert gas inflator of claim 7, wherein: the air inlet hole with advance the endwall internal rotation between the gluey hole and be equipped with the pivot of extending from top to bottom, the pivot bottom mounting is equipped with the disc, the disc left end be equipped with run through from top to bottom and with the hard tube of inlet port intercommunication, the hard tube bottom intercommunication is equipped with the shower nozzle, the disc top surface mounting is equipped with the fixed block that blocks up advance gluey hole.

9. The insulated glass inert gas inflator of claim 8, wherein: the disc bilateral symmetry is equipped with the ascending second spout of opening, it is equipped with the slider to slide in the second spout, the slider with be connected with the fourth spring between the second spout end wall, the fixed dead lever that upwards extends that is equipped with of slider top surface, slide on the dead lever be equipped with can with the arc magnet that the frame attracted mutually on, the arc magnet with be connected with the fifth spring between the stock surface, the disc surface is connected with upwards extends and is located the film in the arc magnet outside.