CN101214869B

CN101214869B - Vacuum packaging container

Info

Publication number: CN101214869B
Application number: CN2007100362182A
Authority: CN
Inventors: 丁要武
Original assignee: Individual
Current assignee: Individual
Priority date: 2007-01-04
Filing date: 2007-01-04
Publication date: 2013-12-25
Anticipated expiration: 2027-01-04
Also published as: WO2008086668A1; KR101074237B1; HK1123022A1; BRPI0720725A2; US20100038267A1; EP2103546A4; EP2103546A1; TW200844014A; TWI334841B; JP2010514639A; KR20090117716A; CN101214869A

Abstract

The invention provides a vacuum packaging container, including a bottle body which is equipped with a top part, a bottom part, a lateral wall, breather holes and an emulsion pump which is arranged on the top part of the bottle body. The invention is characterized in that the vacuum packaging container also includes at least one capsular bag, the periphery of which is combined with the inner wall of the bottle body in a way of sealing. Thus, one lateral of the capsular bag is in contact with the emulsion and the other lateral is communicated with the atmosphere. The vacuum packaging container also includes a guiding strip which is connected with the feed inlet of the emulsion pump. The guiding strip is shaped to be equipped with at least one opening guiding slot. With strong suction force, the vacuum packaging container of the invention can overcome the problem that the emulsion can not be suctioned out or is hard to be suctioned out completely. The vacuum packaging container of the invention also has the advantages of low manufacturing precision and low cost. In addition, the invention is equipped with the specific guiding strip, thereby ensuring that the feed inlet is not blocked under various conditions.

Description

Vacuum packaging container

Technical field

The present invention relates to a kind of vacuum packaging container.

Background technology

In the daily use chemicals industry, some content does not wish to contact with air, thereby need to have vacuum packaging container to be packed.Existing vacuum packaging container mainly contains two types, i.e. " bottom piston formula " and " built in bag type ".

As shown in Figure 1A and 1B, the vacuum packaging container of bottom piston formula mainly comprises cover cap 1, emulsion pumps 2, piston 3 and bottle 4.Cover cap 1 covers on emulsion pumps 2.Emulsion pumps 2 does not have the breather hole that equilibrium air pressure is used, thereby air can not introduced to bottle 4.Piston 3 is arranged in bottle 4, and can in bottle 4, move up and down.The bottom of bottle 4 is provided with breather hole (not shown).During work, as long as press emulsion pumps 2 with hand, the emulsion in bottle can be pumped out.Therefore in aspiration procedure, because the bottom at bottle 4 is provided with breather hole, have bar pressure below piston 3, thereby piston 3 is pressed and move up.So, can guarantee that emulsion does not contact with air, not there will be vacuum in the emulsion above bottle 4 inner carriers 3 simultaneously.

In the vacuum packaging container of this bottom piston formula, although can realize vacuum packaging, but still have a lot of problems.At first the accuracy requirement that is each parts is very high.The inwall bearing fit of piston 3 and bottle 4.If cooperation between the two is excessively loose, may cause seepage.If cooperation tension between the two, may cause piston 3 not move up.Under latter event, there will be vacuum above piston 3, cause can not taking out or the problem of the emulsion that is difficult to exhaust fully.In addition, the suction produced due to emulsion pumps 2 will overcome the weight of emulsion and piston 3 and the friction force between piston 3 and bottle 4, therefore very little for the suction that extracts emulsion.From this angle, also easily cause can not taking out or the problem of the emulsion that is difficult to exhaust fully.In addition, this vacuum packaging container during rarer or bottle pressurized, is easy to cause leakage at content.

The vacuum packaging container of built in bag type mainly comprises cover cap, emulsion pumps, pouch and bottle.The parts such as cover cap, emulsion pumps and bottle all are similar to above-mentioned bottom piston formula vacuum packaging container.The key distinction of this built in bag type vacuum packaging container and above-mentioned bottom piston formula vacuum packaging container is to have adopted a soft pouch to carry out the splendid attire emulsion.This pouch is placed in bottle, and the sack of pouch is folded between emulsion pumps and bottleneck.During work, as long as press emulsion pumps with hand, the emulsion in bottle can be pumped out.In aspiration procedure, because the bottom at bottle is provided with breather hole, therefore in the outside of pouch, have bar pressure, thereby pump and make the volume of pouch more and more less emulsion in pouch.So, can guarantee that emulsion does not contact with air, not there will be vacuum in the emulsion in pouch simultaneously.

The vacuum packaging container of this built in bag type is more easily extracted emulsion out than aforesaid bottom piston formula vacuum vessel, and the accuracy requirement of parts is not high yet.Yet, when adopting this vacuum packaging container, when pouch is put into to bottle, can meet difficulty.In addition, may there be a small amount of air on pouch top not due to filling amount, will be difficult to extract out like this emulsion, and causes air to contact with emulsion.In addition, the oral area of pouch is less, filling not too convenient.Also have a problem to be, on emulsion pumps, can selectively configure a suction pipe, but that the opening of suction pipe end is easy to is blocked, thereby cause can not taking out or the problem of the emulsion that is difficult to exhaust fully.

Summary of the invention

For overcoming above-mentioned defect, the object of the invention is to, provide a kind of ability of exhaustion strong, without leaking and the low vacuum packaging container of cost.

For achieving the above object, the invention provides a kind of vacuum packaging container, comprising: bottle, it has top, bottom and sidewall, and is provided with breather hole; Emulsion pumps, it is installed on the top of described bottle; It is characterized in that, this vacuum packaging container also comprises at least one pouch, and the periphery of pouch is incorporated into the inwall of described bottle hermetically, thereby a side of pouch is contacted with emulsion, and opposite side is communicated with atmosphere.。

Preferably, also comprise guide ribs, guide ribs is connected in the inlet point of emulsion pumps, and being shaped as of this guide ribs has at least one unlimited guiding groove.

Preferably, guide ribs is soft rectangular, and guide ribs be shaped as the cross-sectional plane that there is roughly " ten " font.

Preferably, guide ribs comprises a seeker, and the structure of this seeker is identical with guide ribs, but its length is less than guide ribs, and this seeker is connected to the head of conventional suction pipe.

Preferably, guide ribs has the transverse guidance structure.

Preferably, pouch has the second end of unlimited first end and sealing, and the inwall at the outside of unlimited first end and the top of bottle is bonding.

Preferably, pouch has the second end of unlimited first end and sealing, and the inwall of the outside of unlimited first end and the bottom of bottle is bonding.

Preferably, pouch is vertical or horizontal flexible along bottle, and breather hole is arranged on the bottom of described bottle.

Preferably, pouch is collapsible pouch.

Preferably, the parts that base and bottle are formed separately.

In vacuum packaging container of the present invention, the suction that emulsion pumps produces is substantially all for extracting emulsion, without the friction force between the weight of offsetting emulsion and piston and piston and bottle wall.Therefore, this vacuum packaging container has very strong suction force, can overcome the problem of can not taking out or being difficult to exhaust fully emulsion.Vacuum packaging container of the present invention also has advantages of that the precision of making is low, cost is low.Have, because the bottleneck for filling is larger, and pouch is placed in bottle before filling again, thus vacuum packaging container of the present invention also have advantages of be convenient to filling.

In addition, owing to being provided with unique guide ribs, thereby can guarantee can not result in blockage in all cases.And, while having a small amount of air to retain in pouch top when filling, these residual airs can exhaust in the junction of emulsion pumps and guide ribs.Even when emulsion pumps is inverted, can successfully extract emulsion out too.In using at present or not using the vacuum packaging container of suction pipe, all can not realize above-mentioned effect.

The accompanying drawing explanation

Figure 1A is the assembling schematic diagram of the bottom piston formula vacuum packaging container of prior art;

Figure 1B is the decomposing schematic representation of above-mentioned bottom piston formula vacuum packaging container;

Fig. 2 A is the assembling schematic diagram according to the vacuum packaging container of first embodiment of the invention, wherein in pouch, has been full of emulsion;

Fig. 2 B is the assembling schematic diagram according to the vacuum packaging container of first embodiment of the invention, and wherein the emulsion in pouch is found time substantially;

Fig. 2 C is the decomposing schematic representation according to the vacuum packaging container of first embodiment of the invention;

Fig. 3 A is the assembling schematic diagram according to the vacuum packaging container of second embodiment of the invention, wherein in pouch, substantially there is no air;

Fig. 3 B is the assembling schematic diagram according to the vacuum packaging container of second embodiment of the invention, wherein in pouch, has been full of air;

Fig. 3 C is the decomposing schematic representation according to the vacuum packaging container of second embodiment of the invention;

Fig. 4 A is the assembling schematic diagram according to the vacuum packaging container of third embodiment of the invention, wherein in pouch, has been full of emulsion;

Fig. 4 B is the assembling schematic diagram according to the vacuum packaging container of third embodiment of the invention, and wherein the emulsion in pouch is found time substantially;

Fig. 4 C is the decomposing schematic representation according to the vacuum packaging container of third embodiment of the invention;

Fig. 5 A is the assembling schematic diagram according to the vacuum packaging container of fourth embodiment of the invention, wherein in two pouches, substantially there is no air, between two pouches, has been full of emulsion;

Fig. 5 B is the assembling schematic diagram according to the vacuum packaging container of fourth embodiment of the invention, wherein in pouch, has been full of air, and the emulsion between two pouches is evacuated substantially; And

Fig. 6 is the schematic diagram of a kind of version of guide ribs of the present invention.

The specific embodiment

Describe preferred embodiment of the present invention below with reference to accompanying drawing, in each accompanying drawing, identical label means same or similar parts.

Refer to Fig. 2 A～2C, wherein show the vacuum packaging container 10 according to first embodiment of the invention.This vacuum packaging container 10 comprises: bottle 7, and it has unlimited top 71 and bottom 72, and is provided with the base 73 of closed bottom, on base 73, breather hole is arranged; Emulsion pumps 2, it is installed on the top 71 of bottle 7, and does not have the breather hole that equilibrium air pressure is used; Cover cap 1, it covers on emulsion pumps 2; Pouch 5, it has the second end 52 of unlimited first end 51 and sealing, and its first end 51 is incorporated into the top 71 of bottle 7 hermetically; And guide ribs 6, it is connected in the inlet point of emulsion pumps 2 as common suction pipe.

In this first embodiment, the inwall at the outside of the unlimited first end 51 of pouch 5 and the top 71 of bottle 7 is bonding, thereby pouch 5 is incorporated into hermetically to the inwall of bottle 7.In the case, a side of pouch 5 contacts with emulsion, and opposite side is communicated with atmosphere.Pouch 5 is combined with the sealing of bottle 7 and can be stopped to leak, thereby prevents that emulsion contacts with air and the problem such as emulsion pumps cisco unity malfunction.

Guide ribs 6 is the rectangular of jewelry, expensive clothing and other valuables, is made of plastics.In this embodiment, the cross-sectional plane of guide ribs 6 is " ten " font roughly.In other words, guide ribs 6 has four projections 61, is formed with four unlimited guiding grooves 62 between adjacent projection 61.By this guide ribs 6, the latex A be sucked can enter guiding groove 62 in any position from the length direction of guide ribs 6, and upwards enters emulsion pumps 2 along guiding groove 62, can as common suction pipe, not stop up by the opening part in end.In addition, while having a small amount of air to retain in pouch top when filling, can be by this guide ribs 6, these residual airs of junction sucking-off at emulsion pumps 2 with guide ribs 6.In addition, even when emulsion pumps is inverted, can successfully extract emulsion out too.Have, even pouch 5 is attracted on guide ribs 6, pouch 5 and guide ribs 6 also can form the fluid passage of a similar suction pipe, can not affect the extraction of emulsion again.In using at present or not using the vacuum packaging container of suction pipe, all can not realize above-mentioned effect.

Although all show the guide ribs 6 that there is roughly " ten " font cross-sectional plane in this first embodiment and following second, third embodiment, but should be appreciated that, the shape of guide ribs is not limited to this, for example can take the projection of three or other quantity to limit the guiding groove of respective numbers, also can bar on direct fluting.In a word, as long as make being shaped as of guide ribs there is at least one unlimited guiding groove, just can successfully emulsion be introduced in pump.In addition, as shown in Figure 6, above-mentioned guide ribs can comprise a seeker 6a.The structure of this seeker 6a is identical with guide ribs, but its length is less than guide ribs.This seeker 6a can be connected to the head of conventional suction pipe.Due to the guiding groove with the guide ribs of being similar to, so this seeker can prevent the obstruction of suction pipe head.Have, can form for example jagged transverse guidance structure 610a on the protruding 61a of seeker 6a, this guide structure 610a can be convenient to guide the transverse flow of emulsion along seeker 6a.It should be understood that guide structure 610a is equally applicable to above-mentioned guide ribs 6.

For the vacuum packaging container of this embodiment, when filling, latex A is injected from the unlimited first end 51 of pouch 5.At this moment, latex A is accommodated in pouch 5.Latex A is large to maximum volume by pouch 5 expansions, is full of a bottle interior space (referring to Fig. 2 A).Along with emulsion is constantly extracted out, pouch 5 diminishes gradually, until volume is zero (referring to Fig. 2 B) substantially.

Refer to Fig. 3 A～3C, wherein show the vacuum packaging container 20 according to second embodiment of the invention.As shown in Figure 3 C, the vacuum packaging container of this embodiment 20 is with the difference of above-mentioned the first embodiment, and the unlimited first end 51 of pouch 5 is incorporated into the bottom 72 of bottle 7 hermetically.Specifically, the inwall of the outside of the unlimited first end 51 of pouch 5 and the bottom 72 of bottle 7 is bonding, thereby pouch 5 is incorporated into to bottle 7 hermetically.In this embodiment, the same with above-mentioned the first embodiment, a side of pouch 5 contacts with emulsion, and opposite side is communicated with atmosphere.

For the vacuum packaging container of this embodiment, when filling, latex A is injected from the second end 52 of the sealing of pouch 5.At this moment, latex A contacts with the inwall of bottle 7, and pouch 5 is compressed to minimum (referring to Fig. 3 A).In other words, in the case, pouch 5 has been served as " end of container " contacted with emulsion.Along with emulsion is constantly extracted out, pouch 5 rises gradually, until by emulsion substantially emptying (referring to Fig. 3 B).

Refer to Fig. 4 A～4C, wherein show the vacuum packaging container 30 according to third embodiment of the invention.The vacuum packaging container 30 of this embodiment is with the difference of above-mentioned two embodiment, has adopted the longitudinal folding formula pouch 5a of a corrugated tube shape.This longitudinal folding formula pouch 5a is also for holding emulsion (referring to Fig. 4 A), and along with emulsion is drawn out of and along the longitudinal contraction of bottle upwards, until volume is zero (referring to Fig. 4 B) substantially.

Refer to Fig. 5 A and 5B, wherein show the vacuum packaging container 40 according to fourth embodiment of the invention.The vacuum packaging container 40 of this embodiment is with the key distinction of above-mentioned three embodiment, has adopted two pouch 5b.Pouch 5b is along vertical setting of bottle, and its periphery sealing is incorporated into the bottom of bottle.In addition, breather hole 74 is arranged on diapire.

Emulsion is contained between two pouch 5b.Along with emulsion is constantly extracted out, pouch 5b enlarges gradually, until by emulsion substantially emptying (referring to Fig. 5 B).

Although above, in conjunction with preferred embodiment, vacuum packaging container of the present invention is described in detail, those of ordinary skill in the art should make the various modification that are equal to and change on the basis of foregoing.For example, pouch can also adopt laterally folded form, along the lateral contraction of bottle; Base 73 can be to separate with bottle 7 parts that form as described above, but also can form as one with bottle 7; Cover cap 1 is not indispensable member, can be omitted yet; Pouch is combined modes such as can also adopting hot press except bonding with the sealing of bottle; Pouch, except adopting one or two, can also adopt more as required; The transverse guidance structure of guide ribs, except described zigzag structure, can also adopt and be convenient to other shape that the emulsion lateral flow is crossed.Therefore, protection scope of the present invention is not limited to each above-mentioned embodiment, but should be limited by appended claims.

Claims

1. a vacuum packaging container comprises: bottle, and it has top, bottom and sidewall, and is provided with breather hole, emulsion pumps, it is installed on the top of described bottle, it is characterized in that, this vacuum packaging container also comprises at least one pouch, the periphery of pouch is incorporated into the inwall of described bottle hermetically by the mode of bonding or hot press, thereby a side of pouch is contacted with emulsion, and opposite side is communicated with atmosphere, this vacuum packaging container also comprises guide ribs, described guide ribs is connected in the inlet point of described emulsion pumps, the shape of this guide ribs has at least one unlimited guiding groove, wherein, described pouch has the second end of unlimited first end and sealing, the inwall of the outside of described unlimited first end and the bottom of described bottle is bonding.

2. vacuum packaging container as claimed in claim 1, is characterized in that, described guide ribs is the rectangular of jewelry, expensive clothing and other valuables, and the shape of described guide ribs has roughly the cross-sectional plane of " ten " font.

3. vacuum packaging container as claimed in claim 1, is characterized in that, described guide ribs comprises a seeker, and the structure of this seeker is identical with guide ribs, but its length is less than guide ribs, and described seeker is connected to the head of conventional suction pipe.

4. vacuum packaging container as described as any one in claim 1-3, is characterized in that, described guide ribs has the transverse guidance structure.

5. vacuum packaging container as claimed in claim 1, is characterized in that, described pouch is vertical or horizontal flexible along described bottle, and described breather hole is arranged on the bottom of described bottle.

6. vacuum packaging container as claimed in claim 1, is characterized in that, described pouch is collapsible pouch.