CN111483956A - Bottle plug filling air charging plate and bottle plug filling mechanism - Google Patents

Abstract

The invention discloses a bottle body plug-adding inflatable plate which comprises a front region oxygen discharge inflatable section and a rear region oxygen isolation inflatable section, wherein at least one oxygen discharge inflatable hole is formed in the upper plate surface and the lower plate surface of the front region oxygen discharge inflatable section, a plug groove is formed in the rear region oxygen isolation inflatable section, and a plurality of oxygen isolation inflatable holes are formed in two opposite inner sides of the plug groove. The bottle plug adding mechanism comprises a plug sucking disc, a lifting track, a shifting wheel with a limiting groove and a bottle plug adding inflation plate, wherein the lifting track is arranged around the lower portion of the shifting wheel, the plug sucking disc and the shifting wheel are coaxially fixed up and down and synchronously rotate with the shifting wheel, the bottle is limited in the limiting groove and synchronously rotate with the plug sucking disc, the bottle rises along the lifting track and is combined with a rubber plug positioned on the plug sucking disc in an adsorption mode, and the bottle plug adding inflation plate is located between the plug sucking disc and the shifting wheel and is close to the combination portion of the bottle and the rubber plug. The bottle plug inflating plate structure and the bottle plug mechanism are simple in structure, convenient to operate and capable of meeting the requirement of lower residual oxygen amount.

Description

Bottle plug filling air charging plate and bottle plug filling mechanism

Technical Field

The invention relates to the technical field of food and medicine packaging mechanical equipment, in particular to a bottle body plugging inflatable plate and a bottle body plugging mechanism.

Background

In order to ensure the stability of the anaerobic medicine and prolong the storage time of the medicine, inert gas is filled into the bottle body during the filling process for expelling the air in the medicine bottle, and then the bottle body is sealed by a press plug, so that the oxygen content of the air in the bottle is reduced. The lower the amount of oxygen remaining in the bottle (referred to as residual oxygen), the longer the storage time of the medicine. The inert gas is generally nitrogen.

The existing nitrogen filling mechanism is used for filling nitrogen at the side of a needle tube or filling nitrogen in an interlayer air passage, and the nitrogen cannot be filled in the process that a rubber plug is close to a medicine bottle, so that the reached residual oxygen amount is only about 5-8 percent, the requirement of lower residual oxygen amount cannot be met, multiple times of adjustment is needed during installation, the installation is troublesome, and the requirement on the operation skill of an operator is high.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provide a bottle body plugging inflatable plate and a bottle body plugging mechanism which have simple structure and convenient operation and can meet the requirement of lower residual oxygen quantity.

In order to solve the technical problems, the invention adopts the following technical scheme:

the bottle body plug filling inflating plate is used for filling inert gas into a bottle body and a rubber plug before plugging, and comprises a front region oxygen discharge inflating section and a rear region oxygen isolation plugging section, wherein at least one oxygen discharge inflating hole is formed in the upper plate surface and the lower plate surface of the front region oxygen discharge inflating section, a plug filling groove which is communicated up and down is formed in the rear region oxygen isolation plugging section, and a plurality of oxygen isolation inflating holes are formed in two opposite inner sides of the plug filling groove.

As a further improvement of the above technical solution:

the upper plate surface of the front region oxygen discharge and inflation section is provided with a first arc-shaped groove for the rubber plug to pass through, the lower plate surface of the front region oxygen discharge and inflation section is provided with a second arc-shaped groove for the bottle mouth to pass through, the first arc-shaped groove and the second arc-shaped groove are symmetrically arranged, and the oxygen discharge and inflation hole is formed in the bottom surface of the first arc-shaped groove or the second arc-shaped groove.

The plug adding groove is an arc-shaped groove, the oxygen isolating inflation holes on each side are distributed at intervals along the extension direction of the plug adding groove, one ends of the first arc-shaped groove and the second arc-shaped groove are communicated with one end of the plug adding groove, and the other end of the oxygen isolating inflation plug adding groove is opened.

The oxygen-removing inflatable bottle is characterized in that a first air passage and a second air passage are arranged in the bottle body plugging inflatable plate, a first inflating nozzle and a second inflating nozzle are arranged on the bottle body plugging inflatable plate, the oxygen-removing inflating hole is communicated with the first inflating nozzle through the first air passage, and the oxygen-separating inflating hole is communicated with the second inflating nozzle through the second air passage.

The second air flue comprises a first arc-shaped channel and a second arc-shaped channel, the first arc-shaped channel and the second arc-shaped channel are respectively located on two sides of the plug adding groove, the oxygen separation inflating hole on one side of the plug adding groove is communicated with the second inflating nozzle through the first arc-shaped channel, and the oxygen separation inflating hole on the other side of the plug adding groove is communicated with the second inflating nozzle through the second arc-shaped channel.

And the bottle body plugging inflatable plate is provided with an adjusting hole for adjusting the position of the bottle body plugging inflatable plate.

The utility model provides a bottle mechanism of plugging, includes to carry out the plug sucking disc, the lifting track of negative pressure absorption location and the thumb wheel that is equipped with the spacing groove to the plug, the lifting track is arranged around the below in the thumb wheel, inhale the plug disc with the thumb wheel is coaxial fixed from top to bottom, and with thumb wheel synchronous revolution, the bottle is spacing in the spacing inslot and inhales plug disc synchronous revolution to rise along the lifting track and adsorb the plug combination of location on inhaling the plug disc, bottle mechanism of plugging still includes foretell bottle board of inflating, the bottle board of inflating that plugs is located inhales between plug disc and the thumb wheel, and is close to the combination department of bottle and plug.

As a further improvement of the above technical solution:

the lifting track is provided with an annular track surface with a slope.

And a bottle guide barrier for guiding the bottle body to enter the limiting groove is arranged on the outer side of the shifting wheel.

The bottle guide rail is fixedly provided with a mounting plate, the mounting plate is provided with a supporting rod, and the bottle body plugging and inflating plate is fixed on the supporting rod through a nut.

Compared with the prior art, the invention has the advantages that:

the invention relates to a bottle body plugging inflation plate, which is used for filling inert gas into a bottle body and a rubber plug before plugging, and comprises a front region oxygen discharge inflation section and a rear region oxygen isolation inflation section, wherein at least one oxygen discharge inflation hole is formed in the upper plate surface and the lower plate surface of the front region oxygen discharge inflation section, a plugging groove which is communicated up and down is formed in the rear region oxygen isolation inflation section, and a plurality of oxygen isolation inflation holes are formed in two opposite inner sides of the plugging groove. This bottle adds stopper gas filling plate has back district's oxygen and adds the stopper section, when the bottle neck of bottle carries out the back district and separates the groove that adds stopper of oxygen and add the stopper section and add the stopper operation, because all be equipped with a plurality ofly on two relative inboards in adding the stopper groove and separate oxygen inflation hole, separate oxygen inflation hole and can fill inert gas to adding the stopper inslot, aerify for the level through the inflation that separates oxygen inflation hole, make the plug keep the inert gas environment between plug and the bottle neck throughout inserting the in-process of bottle neck, thereby prevent to add during the stopper in-process air gets into the bottle again, lower residual oxygen volume requirement has been satisfied. The bottle body plugging inflatable plate is simple in structure and convenient to operate, and can meet the requirement of lower residual oxygen amount.

The bottle body plugging mechanism comprises a plug sucking disc for performing negative pressure adsorption positioning on a rubber plug, a lifting track and a shifting wheel provided with a limiting groove, wherein the lifting track is arranged around the lower part of the shifting wheel, the plug sucking disc and the shifting wheel are coaxially fixed up and down and synchronously rotate with the shifting wheel, a bottle body is limited in the limiting groove and synchronously rotates with the plug sucking disc, and rises along the lifting track to be combined with the rubber plug adsorbed and positioned on the plug sucking disc, and the bottle body plugging mechanism also comprises the bottle body plugging inflation plate which is positioned between the plug sucking disc and the shifting wheel and is close to the combination part of the bottle body and the rubber plug. The bottle body plugging mechanism has all the advantages of a bottle body plugging inflatable plate.

Drawings

FIG. 1 is a schematic perspective view of the inflatable plate for plugging the bottle body according to the present invention.

Fig. 2 is an enlarged view at a in fig. 1.

FIG. 3 is a schematic cross-sectional view of the inflatable plate for plugging the bottle body according to the present invention.

FIG. 4 is a sectional view of the oxygen discharge and aeration section of the bottle plugging aeration plate in the front region according to the present invention.

FIG. 5 is a cross-sectional view of the rear oxygen barrier plugging section of the bottle plugging aeration panel of the present invention.

FIG. 6 is a schematic view of a first perspective of the bottle plugging mechanism of the present invention.

FIG. 7 is a schematic diagram of a second perspective of the bottle plugging mechanism of the present invention.

FIG. 8 is a schematic structural view of the bottle plugging mechanism of the present invention during oxygen discharge and inflation.

FIG. 9 is a schematic structural diagram of the bottle plugging mechanism of the present invention during oxygen-barrier plugging.

FIG. 10 is a schematic view of the structure of the lifting rail of the bottle plugging mechanism of the present invention.

The reference numerals in the figures denote:

1. the bottle body is provided with a plug inflatable plate; 11. a front oxygen discharge and aeration section; 111. an oxygen discharge and inflation hole; 12. the back region is separated from an oxygen plug adding section; 121. plugging the groove; 122. an oxygen-isolating inflation hole; 13. a first arc-shaped groove; 14. a second arc-shaped groove; 15. a first air passage; 16. a second air passage; 161. a first arcuate channel; 162. a second arcuate channel; 17. a first inflation nozzle; 18. a second inflation nozzle; 19. an adjustment hole; 2. a bottle body; 3. a rubber plug; 4. a sucker disc; 5. a lifting rail; 51. a track surface; 6. a thumb wheel; 61. a limiting groove; 7. a bottle guiding barrier; 8. mounting a plate; 81. a support bar; 9. and a nut.

Detailed Description

The invention will be described in further detail below with reference to the drawings and specific examples.

Fig. 1 to 5 show an embodiment of the bottle plugging aeration plate 1 according to the present invention, the bottle plugging aeration plate 1 is used for filling inert gas into the bottle body 2 and the rubber plug 3 before plugging, the bottle plugging aeration plate 1 comprises a front region oxygen discharge aeration section 11 and a rear region oxygen isolation plugging section 12, at least one oxygen discharge aeration hole 111 is arranged on the upper plate surface and the lower plate surface of the front region oxygen discharge aeration section 11, a plugging groove 121 which is through up and down is arranged on the rear region oxygen isolation plugging section 12, and a plurality of oxygen isolation aeration holes 122 are arranged on two opposite inner sides of the plugging groove 121. This bottle adds stopper gas filling plate 1 has back district's oxygen and adds stopper section 12, when the bottle neck of bottle 2 carries out the operation of stopping up in the groove 121 that adds that back district's oxygen adds stopper section 12, because all be equipped with a plurality ofly on the two relative inboards in adding stopper groove 121 and separate oxygen inflation hole 122, separate oxygen inflation hole 122 can be to adding the interior inert gas that fills in of stopper groove 121, aerify for the level through the inflation that separates oxygen inflation hole 122, make plug 3 keep being the inert gas environment between plug 3 and the bottle neck throughout at the in-process that inserts the bottle neck, thereby prevent to add in-process air entering bottle 2 again, lower residual oxygen volume requirement has been satisfied. The bottle body plugging inflatable plate 1 is simple in structure, convenient to operate and capable of meeting the requirement of lower residual oxygen amount.

In this embodiment, as shown in fig. 1, 3 and 4, a first arc-shaped groove 13 for passing the rubber plug 3 is disposed on the upper plate surface of the front region oxygen discharging and inflating section 11, a second arc-shaped groove 14 for passing the bottle neck is disposed on the lower plate surface of the front region oxygen discharging and inflating section 11, the first arc-shaped groove 13 and the second arc-shaped groove 14 are symmetrically disposed, and the oxygen discharging and inflating hole 111 is disposed on the bottom surface of the first arc-shaped groove 13 or the second arc-shaped groove 14. Specifically, all have a plurality of row oxygen inflation hole 111 on the bottom surface of first arc recess 13 or second arc recess 14, arrange oxygen inflation in-process, plug 3 removes along first arc recess 13, the bottle neck removes along second arc recess 14, and plug 3 and bottle neck synchronous motion and aim at from top to bottom, plug 3 is moving the in-process along first arc recess 13, be full of inert gas by row oxygen inflation hole 111 of first arc recess 13 bottom surface, thereby the oxygen in the discharge plug 3, the bottle neck removes the in-process along second arc recess 14, be full of inert gas by row oxygen inflation hole 111 of second arc recess 14 bottom surface, thereby the oxygen in the discharge bottle 2.

In this embodiment, as shown in fig. 1 and 3, the plugging groove 121 is an arc-shaped groove, the oxygen-blocking inflation holes 122 on each side are distributed at intervals along the extension direction of the plugging groove 121, one end of each of the first arc-shaped groove 13 and the second arc-shaped groove 14 is communicated with one end of the plugging groove 121, and the other end of the oxygen-blocking inflation plugging groove 121 is open. The oxygen that separates of each side aerifys hole 122 all along the extending direction interval distribution who plugs in groove 121 for keep higher inert gas environment in the groove 121 that plugs, the radian of the groove 121 that plugs and the radian of inhaling the cock disc 4 keep unanimous, make plug 3 in the bottle neck in-process of inserting bottle 2, plug 3 and bottle neck can also remove along adding the groove 121, so that bottle 2 adds the stopper in the transfer process, and add the stopper and go on in adding the inert gas environment in the groove 121.

In this embodiment, as shown in fig. 3, 4 and 5, a first air passage 15 and a second air passage 16 are provided in the bottle body plugging inflation plate 1, a first inflation nozzle 17 and a second inflation nozzle 18 are provided on the bottle body plugging inflation plate 1, the oxygen discharge inflation hole 111 is communicated with the first inflation nozzle 17 through the first air passage 15, and the oxygen isolation inflation hole 122 is communicated with the second inflation nozzle 18 through the second air passage 16. Specifically, the second air duct 16 includes a first arc-shaped channel 161 and a second arc-shaped channel 162, the first arc-shaped channel 161 and the second arc-shaped channel 162 are respectively located at two sides of the plugging groove 121, the oxygen separation aeration hole 122 at one side of the plugging groove 121 is communicated with the second aeration nozzle 18 through the first arc-shaped channel 161, and the oxygen separation aeration hole 122 at the other side of the plugging groove 121 is communicated with the second aeration nozzle 18 through the second arc-shaped channel 162.

In this embodiment, as shown in fig. 1 and fig. 3, the bottle body plugging inflatable plate 1 is provided with an adjusting hole 19 for adjusting the position of the bottle body plugging inflatable plate 1, the bottle body plugging inflatable plate 1 can be fixed in the adjusting hole 19 by inserting a bolt, and the bottle body plugging inflatable plate 1 can rotate around the bolt to adjust the position, so that the bottle body plugging inflatable plate 1 is easy to install and convenient to adjust the position.

Fig. 5 to 10 show an embodiment of the bottle plugging mechanism of the present invention, the bottle plugging mechanism includes a plug sucking disc 4 for performing negative pressure adsorption positioning on the plug 3, a lifting rail 5 and a shifting wheel 6 provided with a limiting groove 61, the lifting rail 5 is arranged around the lower part of the shifting wheel 6, the plug sucking disc 4 and the shifting wheel 6 are coaxially fixed up and down and rotate synchronously with the shifting wheel 6, the bottle 2 is limited in the limiting groove 61 and rotates synchronously with the plug sucking disc 4 and ascends along the lifting rail 5 to combine with the plug 3 adsorbed and positioned on the plug sucking disc 4, the bottle plugging mechanism further includes a bottle plugging inflatable plate 1, and the bottle plugging inflatable plate 1 is located between the plug sucking disc 4 and the shifting wheel 6 and is close to the combining part of the bottle 2 and the plug 3.

In this embodiment, the lifting track 5 is arranged around the lower portion of the limit groove 61 of the thumb wheel 6, the lifting track 5 is provided with an annular track surface 51 with a slope, that is, the track surface 51 contacting with the bottom of the bottle body 2 has a height difference, the bottle body 2 is driven by the thumb wheel 6 to slide from a lower position to a higher position along the lifting track 5 to form a lifting track, thereby realizing that the bottle body 2 is combined with the rubber plug 3 (as shown in fig. 10), the track surface 51 is located below the plug adding groove 121, so that the bottle body 2 is plugged in the plug adding groove 121, when the bottle body 2 rises along the lifting track 5, the oxygen separation inflating hole 122 inflates the space between the bottle mouth and the rubber plug 3, the rubber plug 3 is prevented from being inserted into the bottle body 2, oxygen is supplied into the rubber plug 3 and the bottle body 2, and the residual oxygen content in the bottle body 2 after the plug is pressed.

In this embodiment, as shown in fig. 6 and 7, the outer side of the thumb wheel 6 is provided with a bottle guiding barrier 7 for guiding the bottle body 2 into the limiting groove 61, and meanwhile, the bottle guiding barrier 7 can guide the rubber plug 3 into the first arc-shaped groove 13 and guide the bottle mouth into the second arc-shaped groove 14.

In this embodiment, the bottle guiding barrier 7 is fixed with a mounting plate 8, the mounting plate 8 is provided with a support rod 81, and the bottle body plugging inflatable plate 1 is fixed on the support rod 81 through a nut 9. Specifically, the top end of the supporting rod 81 penetrates into the adjusting hole 19 of the bottle body plugging inflatable plate 1, the nut 9 is fixed at the top end of the supporting rod 81 and presses the bottle body plugging inflatable plate 1 onto the supporting rod 81, the fixing mode of the bottle body plugging inflatable plate 1 is convenient for adjusting the position of the bottle body plugging inflatable plate 1, and each oxygen discharge inflatable hole 111 and each oxygen isolation inflatable hole 122 are ensured to correspond to the corresponding bottle body 2 or rubber plug 3.

The working principle of the bottle body plugging mechanism of the invention is as follows:

when the bottle body 2 is conveyed to the limiting groove 61 corresponding to the thumb wheel 6 from the bottle conveying block (as shown in fig. 1), and when the bottle body 2 and the rubber plug 3 are in the front region oxygen discharging and inflating section 11, the oxygen discharging and inflating holes 111 on the upper plate surface and the lower plate surface of the front region oxygen discharging and inflating section 11 vertically fill inert gas into the bottle body 2 and the rubber plug 3; along with the rotation of thumb wheel 6, bottle 2 separates oxygen behind the bottle 3 and adds in the groove 121 that plugs of stopper section 12, separates oxygen inflation hole 122 and carries out the level between bottle neck and the plug 3 and aerify, prevents that plug 3 from carrying out oxygen in inserting the in-process of bottle 2, plug 3 and the bottle 2, greatly reduced the residual oxygen volume in bottle 2 after the tamponade is sealed. When the bottle bodies 2 are plugged, the bottle bodies are moved out of the opening end of the plugging groove 121 along with the rotation of the thumb wheel 6 (as shown in fig. 10).

Although the present invention has been described with reference to the preferred embodiments, it is not intended to be limited thereto. Those skilled in the art can make numerous possible variations and modifications to the present invention, or modify equivalent embodiments to equivalent variations, without departing from the scope of the invention, using the teachings disclosed above. Therefore, any simple modification, equivalent change and modification made to the above embodiments according to the technical spirit of the present invention should fall within the protection scope of the technical scheme of the present invention, unless the technical spirit of the present invention departs from the content of the technical scheme of the present invention.

Claims (10)

1. The utility model provides a bottle adds stopper gas-filled plate (1) for fill inert gas in bottle (2) and plug (3) before adding the stopper, its characterized in that: the bottle body plug filling and inflating plate (1) comprises a front region oxygen discharge inflating section (11) and a rear region oxygen isolation plug filling section (12), at least one oxygen discharge inflating hole (111) is formed in each of the upper plate surface and the lower plate surface of the front region oxygen discharge inflating section (11), a plug filling groove (121) which is communicated up and down is formed in the rear region oxygen isolation plug filling section (12), and a plurality of oxygen isolation inflating holes (122) are formed in two opposite inner sides of the plug filling groove (121).

2. The bottle corking gas panel (1) according to claim 1, wherein: the upper plate surface of the front region oxygen discharge and inflation section (11) is provided with a first arc-shaped groove (13) for the rubber plug (3) to pass through, the lower plate surface of the front region oxygen discharge and inflation section (11) is provided with a second arc-shaped groove (14) for the bottle mouth to pass through, the first arc-shaped groove (13) and the second arc-shaped groove (14) are symmetrically arranged, and the oxygen discharge and inflation hole (111) is arranged on the bottom surface of the first arc-shaped groove (13) or the second arc-shaped groove (14).

3. The bottle corking air plate (1) according to claim 2, wherein: add stopper groove (121) and be the arc groove, the extension direction interval distribution that all edge adds stopper groove (121) is all followed in the oxygen that separates of each side aerifys hole (122), the one end of first arc recess (13) and second arc recess (14) all communicates with the one end that adds stopper groove (121), separate the other end opening that oxygen aerifys and add stopper groove (121).

4. The bottle corking air plate (1) according to any one of claims 1 to 3, wherein: the oxygen-free air bottle is characterized in that a first air passage (15) and a second air passage (16) are arranged in the bottle body plug-adding inflatable plate (1), a first inflating nozzle (17) and a second inflating nozzle (18) are arranged on the bottle body plug-adding inflatable plate (1), the oxygen discharge inflating hole (111) is communicated with the first inflating nozzle (17) through the first air passage (15), and the oxygen separation inflating hole (122) is communicated with the second inflating nozzle (18) through the second air passage (16).

5. The bottle corking air plate (1) according to claim 4, wherein: the second air passage (16) comprises a first arc-shaped passage (161) and a second arc-shaped passage (162), the first arc-shaped passage (161) and the second arc-shaped passage (162) are respectively positioned at two sides of the plugging groove (121), the oxygen separation inflating hole (122) at one side of the plugging groove (121) is communicated with the second inflating nozzle (18) through the first arc-shaped passage (161), and the oxygen separation inflating hole (122) at the other side of the plugging groove (121) is communicated with the second inflating nozzle (18) through the second arc-shaped passage (162).

6. The bottle corking air plate (1) according to claim 4, wherein: the bottle body plugging inflatable plate (1) is provided with an adjusting hole (19) for adjusting the position of the bottle body plugging inflatable plate (1).

7. The utility model provides a bottle mechanism that plugs, includes to plug (3) carry out negative pressure absorption location inhale cock disc (4), lifting track (5) and be equipped with thumb wheel (6) of spacing groove (61), lifting track (5) are arranged around the below in thumb wheel (6), inhale cock disc (4) with thumb wheel (6) are coaxial fixed from top to bottom, and with thumb wheel (6) synchronous revolution, bottle (2) are spacing in spacing groove (61) with inhale cock disc (4) synchronous revolution to rise and adsorb plug (3) combination of location on inhaling cock disc (4) along lifting track (5), its characterized in that: the bottle plugging mechanism further comprises the bottle plugging inflation plate (1) as claimed in any one of claims 1 to 6, wherein the bottle plugging inflation plate (1) is located between the plug sucking disc (4) and the thumb wheel (6) and is close to the joint of the bottle body (2) and the rubber plug (3).

8. The bottle plugging mechanism of claim 7, wherein: the lifting track (5) is provided with an annular track surface (51) with a slope.

9. The bottle plugging mechanism of claim 7, wherein: the outer side of the poking wheel (6) is provided with a bottle guiding barrier (7) for guiding the bottle body (2) to enter the limiting groove (61).

10. The bottle plugging mechanism of claim 8, wherein: the bottle guide rail is characterized in that a mounting plate (8) is fixed on the bottle guide rail (7), a supporting rod (81) is arranged on the mounting plate (8), and the bottle body plugging inflatable plate (1) is fixed on the supporting rod (81) through a nut (9).

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