CN205549694U - Equipment for packing , liquid filling machine and gas -liquid separation thereof - Google Patents

Abstract

The utility model discloses a gas -liquid separation, include: the container main part of cylinder roughly, its lower part is equipped with the liquid outlet, the lid seals the upper end of above -mentioned container main part, is equipped with the evacuation mouth on this lid, leading -in flow path, at above -mentioned container main part upper shed, and export orientation that should leading -in flow path with coincidence of a certain adjacent tangent line or parallel on the container main part inner wall, water conservancy diversion mechanism, can dismantle or not detachable locate the lid perhaps in the container main part and lie in the top of defoaming net, spiral guide plate group that the spiral guide plate of arranging including fender dish and the at least three rule of locating this fender dish top is constituteed. Thereby this gas -liquid separation can adopt the more condition of separation, especially bubble of pure physical method realization gas -liquid mixture thing, can not be to the various attributes or the characteristic production harmful effects of stoste. The utility model discloses applied above -mentioned gas -liquid separation's liquid filling machine and equipment for packing are still provided.

Description

Packaging facilities, bottle placer and gas-liquid separation device thereof

Technical field

The application relates to separation technology field, and more particularly to a kind of gas-liquid separation device, this gas-liquid separation device is mainly used in Preparation equipment and the Medical Devices of medicine, food, skin lotion etc..Such as, in the bottle placer, packaging facilities of filling food, medicine and health products etc..

It addition, the application has further related to a kind of gas-liquid separating method.

Additionally, the application has further related to the above-mentioned gas-liquid separation device of application or the bottle placer of gas-liquid separating method, packaging facilities.

Background technology

Such as, when low vacuum filling machine vacuum filling machine in other words carries out the fill operations of liquid or nutrient solution, often produce the alveolate gas-liquid mixture of more band, so that it is carried out defoaming treatment and separates liquid to utilize.

Application publication number be CN 105008010 A Chinese invention patent application announce a kind of gas-liquid separation instrument, Authorization Notice No. be CN The device of a kind of gas-liquid separation that the Chinese invention patent of 104326534 B provides and the method for gas-liquid separation both provide corresponding technical scheme for solving similar above-mentioned technical problem, but its accommodation is relatively limited.

In practice, the researcher of the applicant finds at least to there is problems in that in prior art 1). structure is complicated, inefficient；2). mix other materials during gas-liquid separation and cause affecting the characteristic of Primordial Qi liquid mixture, such as, change liquid or the molecular structure of food, composition etc..

Therefore, how to improve and optimize the structure of gas-liquid separation device so that it is simple in construction, characteristic or build-in attribute on Primordial Qi liquid mixture affect the important technological problems that the less those skilled in that art of being are badly in need of solving at present.

Summary of the invention

The purpose of the present invention includes providing a kind of gas-liquid separation device, this gas-liquid separation device simple in construction, and just can be completed the lock out operation of gas-liquid by the method using pure physics operation.This gas-liquid separation device is adapted to food, medicine Preparation equipment, but can be used for various occasion, including the wide in range scope of medical treatment, chemical industry, agricultural chemicals, cosmetic, and other packaging facilities.A further object of the present invention is to provide a kind of corresponding gas-liquid separating method.It is a further object of the present invention to provide the above-mentioned gas-liquid separation device of application or the bottle placer of gas-liquid separating method, packaging facilities.

To this end, the present invention relates to a kind of gas-liquid separation device, including:

The container body of general cylindrical shape, its underpart is provided with liquid outlet；

Lid, by the upper end closed of said vesse main body, this lid is provided with vacuum orifice；

Importing stream, in said vesse main body upper shed, and the Way out of this importing stream overlaps or parallel with a certain consecutive tangent on described container body inwall；

Froth breaking net, is located in described container body and is positioned at the top of described importing flowing path outlet；

Deflector, detachable or the non-removable top being located on described lid or described container body and be positioned at described froth breaking net, including block plate and the spiral deflector group of the spiral deflector composition being located at least three regular arrangement above this block plate, so that the air-flow of block plate described in pile warp leads to described vacuum orifice after the helical channel progressively diminishing and/or narrowing.

Preferably, described spiral deflector group includes the spiral deflector that at least four is arranged symmetrically with along the direction of the most described vacuum orifice, and this spiral deflector group be centrally formed the cavity relative with described vacuum orifice.

Preferably, described spiral deflector is arc-shaped, oval arcuation or parabolic shape along the cross section of the flow direction of described vacuum orifice；And/or the projection that described spiral deflector is on described block plate is arc-shaped, oval arcuation or parabolic shape.

Preferably, the quantity of the spiral deflector in described spiral deflector group is 5 or 6,7,8,9,10,11,12,13,14,15.

Preferably, the structure using suspension ring flange manhole to coordinate between described lid with described container body forms dismountable connection, and is provided with manhole sealing ring.

Preferably, described vacuum orifice is positioned at the middle part of described lid, and towards the center position of described container body.

Preferably, described froth breaking net includes the upper mesh plate of next-door neighbour's layout and lower mesh plate.

Preferably, described froth breaking net also includes for installing described upper mesh plate and the installing plate of described lower mesh plate and the knob for grasping；The fixing seat for installing described installing plate it is provided with in described container body.

Preferably, described importing stream cross section at described container body is rectangle or circular, oval, regular polygon.

Preferably, described importing stream is in the plane of farthest relative to this container body center at described container body or straight line is tangent with the inwall of this container body.

Preferably, the Way out of described importing stream diagonally downward, and its Way out on a certain cross section of described container body projection with on described container body inwall a certain consecutive tangent coincidence or parallel.

Preferably, the helicla flute initiateing with the exit of described importing stream and spirally declining and extend it is provided with in described container body.

The invention still further relates to the gas-liquid separating method of a kind of gas-liquid separation device applied described in any of the above-described technical scheme, including:

The step that gas-liquid mixture is imported by described importing stream along the direction being tangential on described container body inwall；

Described froth breaking net carries out the step of froth breaking to gas-liquid mixture；

The block plate of described deflector by the gas-liquid mixture after de-foaming steps flow to by be adjusted to directly up this block plate surrounding that detours backward on step；

Gas-liquid mixture after the described block plate that detours or air-flow are adjusted to cyclone shape form and lead to the step of described vacuum orifice by the spiral deflector group of described deflector；

The step that described vacuum orifice is vacuumized；And

Liquid outlet goes out the step of liquid.

The invention still further relates to a kind of gas-liquid separating method, the method includes:

On the inwall of the container body that gas-liquid mixture is imported to general cylindrical shape；

Gas-liquid mixture is made to pass through froth breaking net；

Make to detour a circular block plate through the gas-liquid mixture of froth breaking net；

Make to detour the gas-liquid mixture after described block plate or air-flow leads to the outlet of the lid being located on described container body with the form of cyclone shape；

The outlet of described lid carries out vacuum pumping；

Wherein, isolated liquid is collected through the liquid outlet of the bottom of described container body.

The invention still further relates to bottle placer, this bottle placer includes the gas-liquid separation device described in any of the above-described technical scheme or uses the gas-liquid separating method described in any of the above-described technical scheme.

The invention still further relates to packaging facilities, this packaging facilities includes the gas-liquid separation device described in any of the above-described technical scheme or uses the gas-liquid separating method described in any of the above-described technical scheme.

Relative to above-mentioned background technology, beneficial effects of the present invention approximately as.

1. a kind of gas-liquid separation device that the present invention relates to, 1). owing to its Way out importing stream overlaps or parallel with a certain consecutive tangent on described container body inwall, so that the gas-liquid mixture entering described container body can move along its inwall, it is achieved first defoaming function.2). due to the setting of the block plate of its deflector so that the gas-liquid mixture after described froth breaking net is not directly communicated to the outlet on described lid, but this block plate of pile warp, effectively prevent bubble therein and directly taken away.3). due to the setting of the spiral deflector group of its deflector, the air-flow making block plate described in pile warp leads to described vacuum orifice after the helical channel progressively diminishing and/or narrowing, thus the part bubble of residual in gas can be made again to be absorbed by spiral deflector under the effect of Cyclonic.Thus, this gas-liquid separation device can use pure physical method to realize the situation that the separation of gas-liquid mixture, especially bubble are more, without each attribute of stoste or characteristic are produced harmful effect.

2. a kind of gas-liquid separation device that the present invention relates to, described spiral deflector group includes the spiral deflector that at least four is arranged symmetrically with along the direction of the most described vacuum orifice, and this spiral deflector group be centrally formed the cavity relative with described vacuum orifice.Additionally, described vacuum orifice is positioned at the middle part of described lid, and towards the center position of described container body.Make each relevant component be easy to arrange, and production efficiency can be improved.

3. a kind of gas-liquid separation device that the present invention relates to, the Way out of described importing stream diagonally downward, and its Way out on a certain cross section of described container body projection with on described container body inwall a certain consecutive tangent coincidence or parallel.The efficiency of froth breaking can be improved further, thus improve the efficiency of gas-liquid separation.

4. the gas-liquid separating method of a kind of gas-liquid separation device applied described in any of the above-described technical scheme that the present invention relates to, this gas-liquid separating method uses pure physical method to realize the separation of gas-liquid mixture, the situation that especially bubble is more, without producing harmful effect to each attribute of stoste or characteristic.

5. a kind of gas-liquid separating method that the present invention relates to, on the inwall of the container body that gas-liquid mixture imports to general cylindrical shape；Gas-liquid mixture is made to pass through froth breaking net；Make to detour a circular block plate through the gas-liquid mixture of froth breaking net；Make to detour the gas-liquid mixture after described block plate or air-flow leads to the outlet of the lid being located on described container body with the form of cyclone shape；The outlet of described lid carries out vacuum pumping；Wherein, isolated liquid is collected through the liquid outlet of the bottom of described container body.Operating process is easy, and the device structure using the method is simple, and uses pure physical method to realize the situation that the separation of gas-liquid mixture, especially bubble are more, without each attribute of stoste or characteristic are produced harmful effect.

The purpose of the present invention, characteristic and technical scheme can be applied the most jointly or independently.Each technical scheme is not necessarily required to combine all purposes or characteristic.

Accompanying drawing explanation

In order to be illustrated more clearly that the embodiment of the present invention or technical scheme of the prior art, the accompanying drawing used required in embodiment or description of the prior art will be briefly described below, apparently, accompanying drawing in describing below is only some embodiments of the present invention, for those of ordinary skill in the art, on the premise of not paying creative work, it is also possible to obtain other accompanying drawing according to these accompanying drawings.

The structural principle schematic diagram of the gas-liquid separation device that Fig. 1 is provided by a kind of specific embodiment of the present invention.

Fig. 2 is the plan structure schematic diagram of the gas-liquid separation device provided in Fig. 1.

The schematic side view of the deflector of the gas-liquid separation device that Fig. 3 is provided by a kind of specific embodiment of the present invention.

The schematic top plan view of the deflector of the gas-liquid separation device that Fig. 4 is provided by a kind of specific embodiment of the present invention.

Detailed description of the invention

In order to make those skilled in the art be more fully understood that each technical scheme involved in the present invention, the present invention is described in further detail with specific embodiment below in conjunction with the accompanying drawings.It should be noted that in the case of not conflicting, the embodiment in the application and each the concrete technical characteristic described in embodiment can be combined by any suitable means；In order to avoid unnecessary repetition, various possible combinations are illustrated by the present invention the most separately, as long as it is without prejudice to the thought of the present invention, it should be considered as content disclosed in this invention equally.

As shown in Figure 1, Figure 2, Figure 3 and Figure 4, the structural principle schematic diagram of the gas-liquid separation device that Fig. 1 is provided by a kind of specific embodiment of the present invention；Fig. 2 is the plan structure schematic diagram of the gas-liquid separation device provided in Fig. 1；The schematic side view of the deflector of the gas-liquid separation device that Fig. 3 is provided by a kind of specific embodiment of the present invention；The schematic top plan view of the deflector of the gas-liquid separation device that Fig. 4 is provided by a kind of specific embodiment of the present invention.

In a kind of specific embodiment, as shown in Figure 1, Figure 2, Figure 3 and Figure 4, a kind of gas-liquid separation device that the present invention provides, including container body 10, lid 20, import stream 30, froth breaking net 40, deflector 50.Wherein, the bottom of the container body 10 of general cylindrical shape is provided with liquid outlet 11；The upper end 12 of said vesse main body 10 is closed by lid 20, and this lid 20 is provided with vacuum orifice 21；Import stream 30 in container body 10 upper shed to import gas-liquid mixture to be separated, and the Way out 31 of this importing stream 30 is parallel with a certain consecutive tangent on container body 10 inwall 13；In container body 10 is located at by froth breaking net 40 and be positioned at the top of the outlet 32 importing stream 30；Deflector 50 is detachable or the non-removable top being located on lid 20 and be positioned at froth breaking net 40, deflector 50 includes block plate 51 and is located at the spiral deflector group 52 above this block plate, and this spiral deflector group 52 is made up of the spiral deflector 521 of at least three regular arrangement.So that the air-flow of pile warp block plate 51 leads to vacuum orifice 21 after the helical channel progressively diminishing and/or narrowing.

Its course of work enters container body 10 approximately as: gas-liquid mixture to be separated through importing stream 30 and flows along its inwall 11, vacuum orifice 21 is in vacuum-pumping pipeline connection and carries out vacuum pumping, through import stream 30 enter the gas-liquid mixture of container body 10 in vacuum action under move upward, the another froth breaking taken turns is carried out through froth breaking net 40, gas-liquid mixture through froth breaking net 40 suffers that during moving upward the stop of block plate 51 is detoured along the space between block plate 51 and container body 10, gas-liquid mixture after detouring effect spirally mode through spiral deflector group 52 again flows to vacuum orifice 21；And isolated liquid can be collected after liquid outlet 11.

Wherein it is desired to explanation, described a certain consecutive tangent is in the case of the position of the outlet 32 of this importing stream 30 determines, this tangent line just determines that.As shown in Figure 2, after the position of this outlet 32 determines, to realize importing Way out 31 this technical characteristic parallel with a certain consecutive tangent on the inwall 13 of container body 10 of stream 30, this tangent line is obviously with regard to one, and position also determines.Certainly there is also a tangent line parallel with Way out 31 on the inwall 13 of this container body 10, but that is opposite side, and non-conterminous.

Additionally, the Way out 31 importing stream 30 can also overlap with a certain consecutive tangent on the inwall 13 of container body 10.Deflector 50 can also be detachable or non-removable be located on container body 10.In a kind of preferred embodiment, the outlet 32 importing stream 30 is located substantially at the medium position of container body 10 or the position that middle part is on the lower side.

Further, as shown in Figure 1, Figure 3 and Figure 4 shown in, spiral deflector group 52 includes the spiral deflector 521 that at least four is arranged symmetrically with along the direction of relative vacuum orifice 21, and this spiral deflector group 52 be centrally formed the cavity 53 relative with vacuum orifice 21.

Further, with reference to Fig. 4, spiral deflector 521 is arc-shaped, oval arcuation or parabolic shape along the cross section of the flow direction of vacuum orifice 21.Additionally, with reference to Fig. 4, it is also possible to it is that the spiral deflector 521 projection on block plate 51 is arc-shaped, oval arcuation or parabolic shape.

Furthermore it is possible to reference to Fig. 1, the bottom of container body 10 in ellipticity, can specifically be referred to the regulation of GB/T 25198-2010 etc..The size of container body 10 is according to design needs, it is also possible to select according to relevant criterion, such as selection diameter 250mm, 300mm, 350mm, 200mm etc..

On the basis of any of the above-described embodiment, it is also possible to further improved.Specifically, shown as shown in Figure 1, Figure 3 and Figure 4, the quantity of the spiral deflector 521 in spiral deflector group 52 is 8；Can certainly be the various suitable quantity such as 5 or 6,7,9,10,11,12,13,14,15.

On the basis of any of the above-described embodiment, it is also possible to further improved.Specifically, as depicted in figs. 1 and 2, the structure using suspension ring flange manhole to coordinate between lid 20 with container body 10 forms dismountable connection, and is provided with manhole sealing ring 01.As depicted in figs. 1 and 2, container body 10 is provided with suspension ring flange 15, in order to lid 20 can dismount easily.

On the basis of any of the above-described embodiment, it is also possible to further improved.Specifically, as depicted in figs. 1 and 2, vacuum orifice 21 is positioned at the middle part of lid 20, and towards the center position of container body 10.In fig. 1 and 2, vacuum orifice 21 is on the center line of container body 10.

On the basis of any of the above-described embodiment, it is also possible to further improved.Specifically, as it is shown in figure 1, froth breaking net 40 includes the upper mesh plate 41 of next-door neighbour's layout and lower mesh plate 42.In some non-illustrated embodiments, the mode that upper mesh plate 41 and lower mesh plate 42 use identical set or dislocation to arrange is close to cooperation.

On the basis of any of the above-described embodiment, it is also possible to further improved.Specifically, as it is shown in figure 1, froth breaking net 40 also includes for installing mesh plate 41 and the installing plate 43 of lower mesh plate 42 and the knob 44 for grasping；The fixing seat 14 for installing this installing plate 43 it is provided with in container body 10.Knob 44 is convenient when being easy to manually grasp froth breaking net thus safeguard.Preferably, upper mesh plate 41 and lower mesh plate 42 all use stainless (steel) wire to make.

On the basis of any of the above-described embodiment, it is also possible to further improved.Specifically, as depicted in figs. 1 and 2, the stream 30 cross section at container body 10 is imported square.In a kind of preferred embodiment, as in figure 2 it is shown, import stream 30, be in the plane 33 of farthest at container body 10 relative to the center of this container body 10 tangent with the inwall 13 of this container body 10.

Certainly, the regular polygon outside the importing stream 30 cross section at container body 10 can also be rectangle or circle, ellipse and square；In a kind of preferred embodiment, in accompanying drawing 2, the 33 of mark are likely to as straight line for plane accordingly, and now, this plane or straight line are tangent with the inwall 13 of this container body.

On the basis of any of the above-described embodiment, it is also possible to further improved.Specifically, in some unshowned embodiments, import the Way out 31 of stream 30 diagonally downward, and its Way out 31 projection on a certain cross section of container body 10 overlaps or parallel with a certain consecutive tangent on the inwall 13 of container body 10.

On the basis of any of the above-described embodiment, it is also possible to further improved.Specifically, in some unshowned embodiments, it is provided with in container body 10 to import the helicla flute initiateing at the outlet 32 of stream 30 and spirally declining and extend.

Present invention also offers the gas-liquid separating method of a kind of gas-liquid separation device applied described in any of the above-described technical scheme, including:

Import the step that the direction of the inwall 13 that gas-liquid mixture edge is tangential on container body 10 by stream 30 imports；

Froth breaking net 40 carries out the step of froth breaking to gas-liquid mixture；

The block plate 51 of deflector 50 by the gas-liquid mixture after de-foaming steps flow to by be adjusted to directly up this block plate 51 surrounding that detours backward on step；

Gas-liquid mixture after the block plate 51 that detours or air-flow are adjusted to cyclone shape form and lead to the step of vacuum orifice 21 by the spiral deflector group 52 of deflector 50；

The step that vacuum orifice 21 is vacuumized；And liquid outlet 11 goes out the step of liquid.

Wherein it is desired to special instruction book, in the application, described cyclone shape form refers to identical with form shown in accompanying drawing 4 or corresponding form.It addition, described air-flow refer to gas-liquid mixture through preamble operation process after, this gas-liquid mixture the most not bubbles or content liquid reach to have been formed during inseparable state gas, thus its flow regime is referred to as air-flow.

Present invention also offers a kind of gas-liquid separating method, the method includes:

On the inwall 13 of the container body 10 that gas-liquid mixture is imported to general cylindrical shape；

Gas-liquid mixture is made to pass through froth breaking net 30；

Make to detour a circular block plate 51 through the gas-liquid mixture of froth breaking net 30；

Make to detour the gas-liquid mixture after block plate 51 or air-flow leads to the outlet 21 of the lid 20 being located on described container body 10 with the form of cyclone shape；

The outlet 21 of lid 20 carries out vacuum pumping；

Wherein, isolated liquid is collected through the liquid outlet 11 of the bottom of container body 10.

The invention still further relates to a kind of bottle placer applying above-mentioned gas-liquid separation device or gas-liquid separating method, this bottle placer has the some or all of technical advantage of aforementioned gas-liquid separation device or gas-liquid separating method.Specific embodiment refer to foregoing, and can repeat no more in the application in conjunction with related art to obtain the technical scheme of this bottle placer.

The invention still further relates to a kind of packaging facilities applying above-mentioned gas-liquid separation device or gas-liquid separating method, this packaging facilities has the some or all of technical advantage of aforementioned gas-liquid separation device or gas-liquid separating method.Specific embodiment refer to foregoing, and can repeat no more in the application in conjunction with related art to obtain the technical scheme of this packaging facilities.

The function of the above-mentioned dependency structure to the present invention or the description of effect, refer to that it has this function or effect, its function the most also with other or effect, therefore, is not construed as it is carried out the improper restriction of function or effect.

Above to invention provided a kind of gas-liquid separation device, gas-liquid separating method, comprise described gas-liquid separation device or use the bottle placer of described gas-liquid separating method, packaging facilities to be described in detail.Principle and the embodiment of the present invention are set forth by specific case used herein, and the explanation of above example is only intended to help to understand method and the core concept thereof of the present invention.Should be understood that, although the better model performing the present invention having been carried out detailed description, but under the premise without departing from the principles of the invention, those skilled in the art can learn many replacement designs and embodiment for implementing the present invention within the scope of the appended claims.

Claims (10)

1. a gas-liquid separation device, it is characterised in that including:

The container body of general cylindrical shape, its underpart is provided with liquid outlet；

Lid, by the upper end closed of said vesse main body, this lid is provided with vacuum orifice；

Importing stream, in said vesse main body upper shed, and the Way out of this importing stream overlaps or parallel with a certain consecutive tangent on described container body inwall；

Deflector, detachable or the non-removable top being located on described lid or described container body and be positioned at described importing flowing path outlet, including block plate and the spiral deflector group of the spiral deflector composition being located at least three regular arrangement above this block plate, so that the air-flow of block plate described in pile warp leads to described vacuum orifice after the helical channel progressively diminishing and/or narrowing.

Gas-liquid separation device the most according to claim 1, it is characterized in that, described spiral deflector group includes the spiral deflector that at least four is arranged symmetrically with along the direction of the most described vacuum orifice, and this spiral deflector group be centrally formed the cavity relative with described vacuum orifice.

Gas-liquid separation device the most according to claim 2, it is characterised in that described spiral deflector is arc-shaped, oval arcuation or parabolic shape along the cross section of the flow direction of described vacuum orifice；And/or the projection that described spiral deflector is on described block plate is arc-shaped, oval arcuation or parabolic shape.

Gas-liquid separation device the most according to claim 1, it is characterised in that the quantity of the spiral deflector in described spiral deflector group is 5 or 6,7,8,9,10,11,12,13,14,15.

Gas-liquid separation device the most according to claim 1, it is characterised in that the structure using suspension ring flange manhole to coordinate between described lid with described container body forms dismountable connection, and is provided with manhole sealing ring；And/or described vacuum orifice is positioned at the middle part of described lid, and towards the center position of described container body.

Gas-liquid separation device the most according to claim 1, it is characterised in that described importing stream cross section at described container body is rectangle or circular, oval, regular polygon.

Gas-liquid separation device the most according to claim 6, it is characterised in that described importing stream is in the plane of farthest relative to this container body center at described container body or straight line is tangent with the inwall of this container body.

Gas-liquid separation device the most according to claim 1, it is characterized in that, the Way out of described importing stream diagonally downward, and its Way out on a certain cross section of described container body projection with on described container body inwall a certain consecutive tangent coincidence or parallel.

Gas-liquid separation device the most according to any one of claim 1 to 8, it is characterised in that be provided with the helicla flute initiateing with the exit of described importing stream and spirally declining and extend in described container body.

10. bottle placer or a packaging facilities, including gas-liquid separation device, it is characterised in that described gas-liquid separation device is the gas-liquid separation device according to any one of claim 1 to 9.