CN208683426U - A kind of keg current-stabilizing structure - Google Patents

Abstract

A kind of keg current-stabilizing structure belongs to keg field, including staving, is provided with liquid in-out mouth and air inlet at the top of staving；Staving includes the inlet chamber for filling sap cavity and being arranged in above dress sap cavity；Liquid in-out mouth is close to the edge of staving, and liquid in-out mouth is connected on the outside of staving and dress sap cavity；Air inlet is connected on the outside of staving and inlet chamber；Connection inlet chamber and dress sap cavity offer blow vent；When inclination staving pours out the liquid in keg from liquid in-out mouth, air enters in inlet chamber from air inlet, is then entered in dress sap cavity by blow vent, keeps the air pressure in keg equal with the air pressure outside keg, and the air pressure in keg is made to keep stabilization；Liquid in keg is continuously poured out, and falls in same place, reduces the splashing of liquid；Meanwhile the liquid in keg vigorously moves amplitude and reduces, and operator is made to be easier keg of holding with a firm grip；Dress sap cavity and air inlet are separated by inlet chamber, the fluid storage in bucket reduces the probability that liquid in bucket spills from air inlet in transportational process in dress sap cavity.

Description

A kind of keg current-stabilizing structure

Technical field

The utility model relates to kegs, and in particular to a kind of keg current-stabilizing structure.

Background technique

Currently, only having 1 liquid in-out mouth on keg, when inclination keg pours out the liquid inside keg, if inclination angle Spending makes greatly the air into keg fewer than the liquid for pouring out keg, will lead to gas density in keg and reduces, air pressure in keg Reduce, under atmospheric pressure, the gas outside keg pours in keg, and the liquid flow capacity in keg reduces；When in keg Air pressure when restoring to the original state, the liquid flow capacity in keg increases, and keeps the air into keg fewer than the liquid for pouring out keg, Air pressure reduces in keg；Repeatedly, cause the liquid for pouring out keg discontinuous, drop point constantly changes, liquid splashes；And Liquid in keg constantly shakes under continually changing gas pressure in keg, shakes keg, and operator is difficult to grasp small Bucket.Air pressure when pouring out liquid in keg constantly changes so that security performance when using keg is not high.

Utility model content

Air pressure when in order to solve the problems, such as to pour out liquid in keg is changing, and the utility model proposes a kind of kegs Current-stabilizing structure, including staving, the staving top are provided with liquid in-out mouth and air inlet；The staving includes dress sap cavity and setting Inlet chamber above the dress sap cavity；The liquid in-out mouth is close to the edge of the staving, and the liquid in-out mouth is connected to institute State staving outside and the dress sap cavity；The air inlet is connected on the outside of the staving and the inlet chamber；It is connected to the inlet chamber Blow vent is offered with the dress sap cavity.

By the way that air inlet is arranged, when tilting staving and pouring out the liquid in keg from liquid in-out mouth, air is from air inlet It is middle to enter in inlet chamber, then entered in dress sap cavity by blow vent, keeps the air pressure in keg equal with the air pressure outside keg, The air pressure in keg is set to keep stablizing；Liquid in keg is continuously poured out, and falls in same place, reduces the splashing of liquid；Together When, the liquid in keg vigorously moves amplitude and reduces, and operator is made to be easier keg of holding with a firm grip；Dress sap cavity and air inlet are separated by inlet chamber Mouthful, the fluid storage in bucket reduces the probability that liquid in bucket spills from air inlet in transportational process in dress sap cavity.

Further, the blow vent is located at the inlet chamber far from liquid in-out mouth side.

When pouring out the liquid in keg from liquid in-out mouth towards the direction of liquid in-out mouth inclination staving, fill in sap cavity Liquid is assembled towards liquid in-out mouth direction, by the way that side of the inlet chamber far from liquid in-out mouth is arranged in blow vent, reduces liquid The probability for entering inlet chamber by blow vent decreases liquid water level when pouring out liquid and covers blow vent, lead to air can not Cross the probability that blow vent enters dress sap cavity；

Further, the venthole is close to the top of the inlet chamber.

By the way that blow vent to be positioned close to the top of the inlet chamber, the liquid further reduced in dress sap cavity passes through Blow vent enters the probability of inlet chamber, and liquid water level covers blow vent when pouring out liquid, make air can not by blow vent into Enter to fill the probability of sap cavity；And when raining or other factors cause water to enter inlet chamber from air inlet, water enters dress from blow vent The probability for causing liquid in bucket to pollute in sap cavity reduces.

Further, the inlet chamber bottom is connected on the outside of the staving by drainpipe.

By the way that drainpipe is arranged, when raining or other factors cause water to enter inlet chamber from air inlet, into inlet chamber Water can be discharged from drainpipe, prevent in inlet chamber ponding excessive and enter in dress sap cavity from venthole and pollute liquid in bucket.

Further, the splash guard connecting at the top of the inlet chamber, the splashproof gear are provided in the inlet chamber Plate is located at the air inlet close to the side of the blow vent, and the splash guard and the inlet chamber are close to the blow vent Side wall there is certain overlapping region in the vertical direction.

By the way that splash guard is arranged, after water enters inlet chamber from air inlet, when hitting inlet chamber bottom and splashing, splash Water can by under splash guard crotch without passing through blow vent.

Further, the outside of inlet chamber described in the staving inner top is provided at least two at the venthole Reverse flow baffle, the reverse flow baffle is located in the staving, and the reverse flow baffle arranges along the vertical direction, in the horizontal direction It is staggered, the side that the reverse flow baffle is not connect with bucket wall refers both to oliquely downward, and the reverse flow baffle is in the horizontal direction It is upper that there is certain overlapping region.

By the way that reverse flow baffle is arranged, during transportation, when liquid sloshing in bucket, can be refluxed baffle and block, and along Reverse flow baffle flows back in dress sap cavity, and preventing liquid in bucket from entering leads to fluid waste in inlet chamber.

Further, the side outer wall of the staving is provided with the vertical level gauging pipe of transparent axial direction, the liquid level Measurement pipe both ends are connected to the dress sap cavity.

By the way that level gauging pipe is arranged, since level gauging pipe both ends are connected to dress sap cavity, the liquid in level gauging pipe Position, in the same height, is the liquid that may know that in dress sap cavity by the liquid level in observation level gauging pipe with the liquid level in dress sap cavity Position prevents loading liquid excessive and liquid is made to have blow vent to enter fluid waste caused by inlet chamber.

The beneficial effect of the utility model keg current-stabilizing structure is:

1, it realizes that bucket is outer and atmosphere in the tub circulates by setting air inlet, maintains pressure in bucket to stablize, effectively mitigate in bucket The Oscillation Amplitude and splashing degree of liquid, improve the usage safety performance of product.

2, by the way that preset portion or inlet chamber is arranged, make in transportational process, liquid in bucket will not spill from air inlet.

3, it by setting reverse flow baffle, prevents in transportational process liquid in bucket to enter by blow vent and causes liquid in inlet chamber Body waste.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the utility model keg structure of voltage regulation；

Appended drawing reference: 1, staving；2, liquid in-out mouth；3, air inlet；4, sap cavity is filled；5, inlet chamber；6, venthole；7, it drains Pipe；8, splash guard；9, reverse flow baffle；10, protector；11, level gauging pipe.

Specific embodiment

Below in conjunction with attached drawing, the preferred embodiment of the utility model is described in detail.

As shown in Figure 1, the present embodiment keg current-stabilizing structure includes staving 1, staving 1 includes filling sap cavity 4 and inlet chamber 5, into Air cavity 5 is located at the centre at 1 top of staving；Dress sap cavity 4 is located at the bottom of staving 1, for containing liquid.It is offered at the top of staving 1 Liquid in-out mouth 2 and air inlet 3, liquid in-out mouth 2 are located at the edge at 1 top of staving, directly 1 outside of connection staving and dress sap cavity 4.Into Port 3 is provided with the top of inlet chamber 5,1 outside of connection staving and inlet chamber 5.Inlet chamber 5 is pushed up far from the side of liquid in-out mouth 2 Portion offers blow vent 6, the connection of blow vent 6 dress sap cavity 4 and inlet chamber 5.Staving 1 is tilted towards the direction of liquid in-out mouth 2, makes bucket When liquid in body 1 is flowed out from liquid in-out mouth 2, air is entered in inlet chamber 5 by air inlet 3, then enters dress liquid by blow vent 6 In chamber 4, pressure in bucket is maintained to stablize.And separated since inlet chamber 5 will fill sap cavity 4 with air inlet 3, during transportation, staving 1 The probability that interior liquid spills from air inlet 3 reduces.

Since rainy or roof leak or other accidents may be such that water enters in inlet chamber 5 from air inlet 3, in inlet chamber 5 The dilutional hyponatremia of entrance may make water have venthole 6 to enter in dress sap cavity 4, cause the liquid contained in dress sap cavity 4 contaminated.Air inlet 5 bottom of chamber is directly connected to on the outside of staving 1 by drainpipe 7, and the water in inlet chamber 5 passes through outside 7 times of discharge stavings 1 of drainpipe. When water has air inlet 3 to enter inlet chamber 5, water hits the bottom of inlet chamber 5 and splashes, and water may be made to enter dress liquid from blow vent 6 In chamber 4, the splash guard 8 being fixedly connected at the top of inlet chamber 5 is provided in inlet chamber 5, splash guard 8 is located at air inlet 3 and leans on The side of nearly blow vent 6, and splash guard 8 and inlet chamber 5 have certain weight close to the side wall of blow vent 6 in the vertical direction Folded region.When water hit the bottom of inlet chamber 5 and when splashing, water blocked by splash guard 8 and can not be by blow vent 6.

In order to reduce the probability for filling the liquid in sap cavity 4 in transportational process and entering by blow vent 6 inlet chamber 5, in staving 1 The outside of top inlet chamber 5 is provided with 2 reverse flow baffles 9 at venthole 6, and reverse flow baffle 9 arranges along the vertical direction.Top 9 one end of reverse flow baffle be fixedly connected on the outer wall of inlet chamber 5, the other end tilts obliquely downward；The reverse flow baffle 9 one of lower section End is fixedly connected on the inner wall of staving 1, and the other end also tilts obliquely downward.2 reverse flow baffles 9 have one in the horizontal direction Fixed overlapping region.When liquid sloshing in sap cavity 5 is filled in transportational process and when splashing, can be refluxed under baffle 9 is kept off without It is flowed back in dress sap cavity 4 by blow vent 6, and along reverse flow baffle 9, reduces the liquid in transportational process in dress sap cavity 4 by leading to Port 6 enters the probability of inlet chamber 5.

When staving 1 is provided with excessive liquid, liquid may cover reverse flow baffle 9, or even cover blow vent 6, also body It can enter in inlet chamber 5 due to shaking, cause the fluid waste of staving 1.The side of 1 outer wall of staving is recessed inwardly, and is formed rectangular Protector 10, axial vertical level gauging pipe 11 is provided in protector 10, level gauging pipe 11 is made of transparent material, And the upper and lower ends of level gauging pipe 11 are connected to dress sap cavity 4.Since level gauging pipe 11 and dress sap cavity 4 constitute linker, liquid The height of game is equal with the height of liquid level in dress sap cavity 4 in the measurement pipe 11 of position, passes through the liquid level in observation level gauging pipe 11 It highly can be appreciated that the liquid level in dress sap cavity 4, prevent loading liquid in dress sap cavity 4 excessive.

Finally, it is stated that preferred embodiment above is merely intended for describing the technical solutions of the present application, but not for limiting the present application, to the greatest extent Pipe has been described in detail the utility model by above preferred embodiment, but those skilled in the art should manage Solution, can make various changes, without departing from the utility model claims book institute to it in the form and details The range of restriction.

Claims (7)

1. a kind of keg current-stabilizing structure, which is characterized in that including staving (1), be provided with liquid in-out mouth at the top of the staving (1) (2) and air inlet (3)；

The staving (1) includes the inlet chamber (5) of dress sap cavity (4) and setting above dress sap cavity (4)；

The liquid in-out mouth (2) is close to the edge of the staving (1), and the liquid in-out mouth (2) is connected on the outside of the staving (1) And the dress sap cavity (4)；

The air inlet (3) is connected on the outside of the staving (1) and the inlet chamber (5)；

It is connected to the inlet chamber (5) and the dress sap cavity (4) offers blow vent (6).

2. a kind of keg current-stabilizing structure according to claim 1, which is characterized in that the blow vent (6) is located at described Inlet chamber (5) is far from liquid in-out mouth (2) side.

3. a kind of keg current-stabilizing structure according to claim 2, which is characterized in that the blow vent (6) is close to described The top of inlet chamber (5).

4. a kind of keg current-stabilizing structure according to claim 3, which is characterized in that inlet chamber (5) bottom passes through Drainpipe (7) is connected on the outside of the staving (1).

5. a kind of keg current-stabilizing structure according to claim 3, which is characterized in that be provided in the inlet chamber (5) With the splash guard (8) connecting at the top of the inlet chamber (5), the splash guard (8) is located at the air inlet (3) close to described The side of blow vent (6), and the splash guard (8) and the inlet chamber (5) close to the blow vent (6) side wall vertical There is certain overlapping region on direction.

6. a kind of keg current-stabilizing structure according to claim 3, which is characterized in that the outside of the inlet chamber (5) is leaned on It being provided at least two reverse flow baffle (9) at the nearly blow vent (6), the reverse flow baffle (9) is located in the staving (1), and The reverse flow baffle (9) arranges along the vertical direction, is staggered in the horizontal direction, the reverse flow baffle (9) not with bucket wall The side of connection refers both to oliquely downward, and the reverse flow baffle (9) has certain overlapping region in the horizontal direction.

7. a kind of keg current-stabilizing structure according to claim 1, which is characterized in that outside the side of the staving (1) Be provided with the vertical level gauging pipe (11) of transparent axial direction on wall, level gauging pipe (11) both ends with the dress sap cavity (4) it is connected to.