CN203302870U - Carbonated beverage dispenser and bottle locking mechanism thereof - Google Patents

Abstract

The utility model discloses a carbonated beverage dispenser and a bottle locking mechanism of the carbonated beverage dispenser. The carbonated beverage dispenser comprises a machine body, a pressure release valve and an operational rod. The machine body is provided with a bottle connector assembly suitable for being connected with a beverage bottle. The pressure release valve is used for exhausting gas inside the beverage bottle. The operational rod can be movably installed on the machine body between the first position where the pressure release valve is closed and the second position where the pressure release valve is opened. The bottle locking mechanism is arranged between the beverage bottle and the bottle connector assembly to lock the beverage bottle when the pressure release valve is closed so as to prevent the beverage bottle from being disassembled from the bottle connector assembly. A third position is arranged between the first position and the second position. The operational rod closes the pressure release valve at the third position, and the bottle locking mechanism locks the beverage bottle at the third position. According to the bottle locking mechanism used in the carbonated beverage dispenser, before pressure release, the beverage bottle can not be disassembled, and the safety and reliability are improved.

Description

Carbonic acid beverage maker and lock bottled agency thereof

Technical field

The utility model relates to the beverage machine field, more specifically, relates to a kind of carbonic acid beverage maker and lock bottled agency thereof.

Background technology

Soda normally incorporates gas (mist of carbon dioxide or carbon dioxide and air) in water and makes.In recent years, the household small-size carbonic acid beverage maker is widely applied.Existing small-sized carbonic acid beverage maker prepares soda and generally includes aerating, pressure release and unload three steps of bottle.

Existing carbonic acid beverage maker is to open source of the gas and carry out aerating by pressing valve, carrys out pressure release by swinging beverage bottle, and beverage bottle is taken off in finally unloading, thereby prepares soda.Yet for above-mentioned carbonic acid beverage maker, aerating is divided into two with the pressure release of pendulum bottle and has independently moved.In addition, in aerating too much and the carbonated drink bottle internal pressure is excessive and while needing step-down to accelerate the carbonic acid reaction, must or utilize the button arranged in addition to carry out pressure release by the pendulum bottle, thereby cause the operating procedure complexity, and if the operator unloaded bottle mistakenly before pressure release, can cause soda to spray in beverage bottle, and affect the quality of beverage.

The utility model content

The utility model is intended to one of solve the problems of the technologies described above at least to a certain extent.For this reason, a purpose of the present utility model is to propose a kind of simple to operate and reliable carbonic acid beverage maker De lock bottled agency.

Another purpose of the present utility model is to propose a kind of carbonic acid beverage maker with above-mentioned lock bottled agency.

According to a kind of carbonic acid beverage maker De lock bottled agency of the utility model first aspect embodiment, described carbonic acid beverage maker comprises body, relief valve and action bars, and described body is provided with and is suitable for the bottle graft mouth assembly be connected with beverage bottle; Described relief valve is for discharging the gas in described beverage bottle; Described action bars is in the primary importance of cutting out described relief valve and open between the second place of described relief valve and be arranged on movably on described body; Wherein, described lock bottled agency is located between described beverage bottle and described bottle graft mouth assembly to lock described beverage bottle when described relief valve cuts out and unloads from described bottle graft mouth assembly preventing, and there is the 3rd position between described primary importance and the described second place, at described the 3rd described action bars in position, close described relief valve and described lock bottle mechanism locks described beverage bottle.

According to lock bottled agency of the present utility model, for carbonic acid beverage maker, before pressure release, beverage bottle can't be removed, and has improved safety and reliability.

In addition, can also there is following additional technical characterictic according to the carbonic acid beverage maker De lock bottled agency of the utility model above-described embodiment:

According to an embodiment of the present utility model, described lock bottled agency comprises: be formed on the flange of the bottle mouth position of described beverage bottle, described flange has lock bottle breach; Be formed on the chute on described bottle graft mouth assembly; With lock bottle slide block, described lock bottle slide block is engaged in slidably in described chute and by described action bars and drives, described action bars is the lock bottle position of described lock bottle slide block in being inserted into described lock bottle breach when described primary importance, and described action bars is the off-position of described lock bottle slide block in breaking away from described lock bottle breach when the described second place.

The upper end of described lock bottle slide block is provided with block, and described action bars is provided with the head of stirring that matches to drive described lock bottle slide block with described block.

One end of described lock bottle slide block is provided with mating holes, and described action bars is provided with the cooperation post, and described cooperation post is engaged in described mating holes.

A described lock bottle mechanism also comprises the first elastic component, and described the first elastic component is connected with a described lock bottle slide block with towards the described lock of described lock bottle position bottle slide block.

Thus, when filling beverage bottle, due to the effect of the first elastic component, lock bottle slide block inserts the lock bottle breach of beverage bottle, and beverage bottle can not unload.When action bars was upwards lifted, at first action bars depressed relief valve to carry out pressure release, and then a lock bottle slide block is lifted, thereby lock bottle slide block overcomes the elastic force of the first elastic component and own wt, skidded off the lock bottle breach of beverage bottle, can unload beverage bottle thus.

According to another embodiment of the present utility model, described lock bottle mechanism comprises: the flange that is formed on the bottle mouth position of described beverage bottle; Locking bar, the lower end of described locking bar is provided with the lock bottle and hooks, described locking bar is driven by described action bars, described action bars described locking bar when described primary importance is in the lock bottle position that described lock bottle catches on described flange, and described action bars described locking bar when the described second place is in from described lock bottle and hooks the off-position broken away from described flange.

Described body is provided with guiding parts, but described locking bar is arranged on described guiding parts and along described guiding parts translation, described action bars has be used to driving the wedge shape drive division of described locking bar, described action bars described wedge shape drive division when described primary importance inserts between described bottle graft mouth assembly and described locking bar so that described lock bottle catches on described flange, described action bars described wedge shape drive division when the described second place breaks away between described bottle graft mouth assembly and described locking bar and breaks away from so that described lock bottle hooks with described flange, between described bottle graft mouth assembly and described locking bar, be provided with for the second elastic component towards the described locking bar of described lock bottle position.

The position of described locking bar between the two ends of this locking bar is connected with described body pivotly, and described action bars has be used to driving the wedge shape drive division of described locking bar,

Described action bars described wedge shape drive division when described primary importance inserts between described body and described locking bar so that described lock bottle catches on described flange, described action bars described wedge shape drive division when the described second place breaks away between described body and described locking bar so that described lock bottle hook and described flange disengaging are provided with between described body and described locking bar for the 3rd elastic component towards the described locking bar of described lock bottle position.

Thus, when user's filling beverage bottle, due to the effect of the second elastic component or the 3rd elastic component, the flange that the lock bottle catches on beverage bottle can not be unloaded beverage bottle down.After action bars was up pulled and depressed relief valve before this, the lock bottle hooked and breaks away from a flange beverage bottle can be unloaded down.

Preferably, it be outward-dipping inclined-plane downwards towards the side of described beverage bottle that described lock bottle hooks, so that, also can promote this inclined-plane by beverage bottle a lock bottle hook is moved, thereby not hinder the installation of beverage bottle during in primary importance when action bars.

According to the lock bottle mechanism of the carbonic acid beverage maker of the utility model embodiment, can realize that first pressure release, then to the safety operation of beverage bottle release, without the pressure release of pendulum bottle, increases and unloads a bottle space, reduce rocking of soda after reaction, avoid carbonic acid to decompose.

According to the carbonic acid beverage maker of the utility model second aspect embodiment, comprise the described lock bottled agency according to the utility model first aspect embodiment.

Additional aspect of the present utility model and advantage part in the following description provide, and part will become obviously from the following description, or recognize by practice of the present utility model.

The accompanying drawing explanation

Fig. 1 is the schematic diagram according to the carbonic acid beverage maker of the utility model embodiment;

Fig. 2 is the enlarged diagram of part shown in Fig. 1 centre circle A;

Fig. 3 is the enlarged diagram of part shown in Fig. 1 centre circle B;

Fig. 4 shows the schematic diagram of primary importance, the second place and the 3rd position of the action bars of carbonic acid beverage maker;

Fig. 5 shows the schematic diagram of an embodiment of revolving part of the action bars of the carbonic acid beverage maker shown in Fig. 1;

Fig. 6 shows the schematic diagram of another embodiment of revolving part of the action bars of the carbonic acid beverage maker shown in Fig. 1;

Fig. 7 shows the schematic diagram of an embodiment of the lock bottle mechanism of the carbonic acid beverage maker shown in Fig. 1;

Fig. 8 is the schematic diagram of the beverage bottle of the carbonic acid beverage maker shown in Fig. 7;

Fig. 9 is the schematic diagram of locking an example of bottle mechanism shown in Figure 7;

Figure 10 is the schematic diagram of locking another example of bottle mechanism shown in Figure 7;

Figure 11 is the schematic diagram of another embodiment of the lock bottle mechanism of the carbonic acid beverage maker shown in Fig. 1, and wherein locking bar is positioned at a lock bottle position;

Figure 12 is the schematic diagram of another embodiment of the lock bottle mechanism of the carbonic acid beverage maker shown in Fig. 1, and wherein locking bar is positioned at off-position;

Figure 13 is the schematic diagram of another embodiment of the lock bottle mechanism of the carbonic acid beverage maker shown in Fig. 1, and wherein locking bar is positioned at a lock bottle position;

Figure 14 is the schematic diagram of another embodiment of the lock bottle mechanism of the carbonic acid beverage maker shown in Fig. 1, and wherein locking bar is positioned at off-position.

Reference numeral:

1, source of the gas; 2, beverage bottle; 21, flange; 211, lock bottle breach;

3, body;

31, gas source interface assembly;

310, source of the gas passage; 3101, the outlet of source of the gas passage; 311, pressure buffer device;

3111, cushion chamber; 3112, slide block; 31121, seal boss; 31122; The elastic component boss;

3113, decompression joint; 3114, decompression plate; 31141, passage;

3115, decompression elastic component; 312, gas transmission joint;

32, bottle graft mouth assembly;

320, aerating passage; 323, inlet suction port; 322, air jet pipe; 324, chute;

33, steam supply valve; 34, relief valve; 35, guiding parts;

4, appendix;

5, action bars;

51, poke rod; 52, actuator lever; 53, connecting rod;

54, stir head; 55, coordinate post; 56, wedge shape drive division;

511, slotted eye; 512, lead;

6, drive motors;

7, revolving part; 71, projection; 72, guide channel;

8, lock bottle slide block; 81, block; 82, mating holes; 83, the first elastic component;

9, locking bar;

91, the lock bottle hooks; 911, inclined-plane;

92, the second elastic component; 93, the 3rd elastic component

The specific embodiment

Below describe embodiment of the present utility model in detail, the example of described embodiment is shown in the drawings, and wherein same or similar label means same or similar element or the element with identical or similar functions from start to finish.Below by the embodiment be described with reference to the drawings, be exemplary, be intended to be used to explaining the utility model, and can not be interpreted as restriction of the present utility model.

In description of the present utility model, it will be appreciated that, term " on ", orientation or the position relationship of the indications such as D score, 'fornt', 'back', " left side ", " right side ", " top ", " end " " interior ", " outward ", " clockwise ", " counterclockwise " be based on orientation shown in the drawings or position relationship, only the utility model and simplified characterization for convenience of description, rather than indicate or imply that the device of indication or element must have specific orientation, construct and operation with specific orientation, therefore can not be interpreted as restriction of the present utility model.In addition, term " first ", " second " be only be used to describing purpose, and can not be interpreted as indication or hint relative importance or the implicit quantity that indicates indicated technical characterictic.Thus, one or more these features can be expressed or impliedly be comprised to the feature that is limited with " first ", " second ".In description of the present utility model, the implication of " a plurality of " is two or more, unless otherwise expressly limited specifically.

In the utility model, unless otherwise clearly defined and limited, broad understanding should be done in the terms such as term " installation ", " being connected ", " connection ", " fixing ", for example, can be to be fixedly connected with, and can be also to removably connect, or connect integratedly; Can be directly to be connected, also can indirectly be connected by intermediary, can be the connection of two element internals.For the ordinary skill in the art, can understand as the case may be the concrete meaning of above-mentioned term in the utility model.

At first the carbonic acid beverage maker De lock bottled agency of the utility model embodiment is below described with reference to Fig. 7-Figure 14.Wherein, as shown in Figure 1, this carbonic acid beverage maker comprises body 3, relief valve 34 and action bars, and described body 3 is provided with and is suitable for the bottle graft mouth be connected with beverage bottle 2 assembly 32; Relief valve 34 is be used to discharging the gas in beverage bottle; Action bars is at the primary importance P1 that cuts out relief valve 34 and open between the second place P2 of relief valve 34 and be arranged on movably on body 3.

Due to after the beverage preparation, need to unload beverage bottle 2, now beverage bottle 2 is interior can exist the residual gas that does not participate in reaction, pressure in beverage bottle 2 is larger, therefore, if directly unload beverage bottle 2, the one side resistance is more difficult unloading greatly, after unloading on the other hand beverage bottle 2, the gas in beverage bottle 2 easily expands rapidly, may set off an explosion.In addition, in some cases, the operator may unload beverage bottle 2 mistakenly before pressure release, can cause like this soda from the interior ejection of beverage bottle 2, and affected the quality of beverage.Therefore, need to first carry out pressure release to beverage bottle 2, and then unload beverage bottle 2 from carbonic acid beverage maker.

As shown in Fig. 7-14, according to lock bottled agency of the present utility model, be located between beverage bottle 2 and bottle graft mouth assembly 32, locking beverage bottle 2 when relief valve 34 cuts out, from bottle graft mouth assembly 32, unload preventing, and there is the 3rd position P3 between primary importance P1 and second place P2, at the 3rd position P3 action bars 5, close relief valve 34 and lock bottle mechanism locking beverage bottle.In other words, under the duty of carbonic acid beverage maker, i.e. in aerating or pressure leak process, beverage bottle 2 can not unload from bottle graft mouth assembly 32.

Thus, according to lock bottled agency of the present utility model, for carbonic acid beverage maker, before pressure release, beverage bottle 2 can't be removed, and has improved safety and reliability.

Below with reference to Fig. 7-Figure 14, specifically describe the lock bottle mechanism according to a plurality of embodiment of the utility model.

As Fig. 7-shown in Figure 10, according to an embodiment of the present utility model, lock bottle mechanism comprise the bottle mouth position that is formed on beverage bottle 2 flange 21, be formed on chute 324 and a lock bottle slide block 8 on bottle graft mouth assembly 32.

As shown in Figure 7 and Figure 8, flange 21 has lock bottle breach 211, lock bottle slide block 8 is engaged in slidably in chute 324 and by action bars 5 and drives, action bars 5 is locked bottle slide block 8 and is in the lock bottle position be inserted in lock bottle breach 211 when primary importance P1, now beverage bottle 2 can not unload from bottle graft mouth assembly 32.Action bars 5 is locked bottle slide block 8 and is in the off-position broken away from lock bottle breach 211 when second place P2, now beverage bottle 2 can unload from bottle graft mouth assembly 32.

Further, a lock bottle mechanism can also comprise that the first elastic component 83, the first elastic components 83 are connected to lock bottle slide block 8 towards lock bottle position with a lock bottle slide block 8.Alternatively, the first elastic component 83 is spring.

In an example of the present utility model, as shown in Figure 9, the upper end of lock bottle slide block 8 is provided with block 81, action bars 5 be provided with block 81, match to drive lock bottle slide block 8 stir 54.Particularly, as mentioned above, stir 54 ends that can be located at the poke rod 51 of action bars 5.Thus, when the user stirs poke rod 51, stir 54 and stir block 81, make lock bottle slide block 8 move and insert in the lock bottle breach 211 of bottleneck flange 21 or detach in lock bottle breach 211.

In another example of the present utility model, as shown in figure 10, an end of lock bottle slide block 8 is provided with mating holes 82, and action bars 5 is provided with and coordinates post 55, coordinates post 55 can be located at an end of the poke rod 51 of action bars 5, coordinates post 55 to be engaged in mating holes 82.Thus, when the user stirs poke rod 51, coordinate post 55 to be engaged in mating holes 82 and slide, slide and insert in the lock bottle breach 211 of bottleneck flange 21 or detach in lock bottle breach 211 thereby drive lock bottle slide block 8.

Thus, when filling beverage bottle 2, due to the effect of the first elastic component 83, lock bottle slide block 8 inserts the lock bottle breach 211 of beverage bottle 2, and beverage bottle 2 can not unload.When action bars 5 is upwards lifted, at first action bars 5 depresses relief valve to carry out pressure release, then a lock bottle slide block 8 is lifted, thereby lock bottle slide block 8 overcomes the elastic force of the first elastic component 83 and own wt, skids off the lock bottle breach 211 of beverage bottle 2, can unload beverage bottle 2 thus.

As Figure 11-shown in Figure 14, according to another embodiment of the present utility model, lock bottle mechanism comprises flange 21 and the locking bar 9 of the bottle mouth position that is formed on beverage bottle 2.

The lower end of locking bar 9 is provided with the lock bottle and hooks 91, and locking bar 9 is driven by action bars 5.Action bars 5 is when primary importance P1, and locking bar 9 is in the lock bottle and hooks the 91 lock bottle positions of catching on flange 21, and now beverage bottle 2 can not unload from bottle graft mouth assembly 32.Action bars 5 is when second place P2, and locking bar 9 is in the off-position broken away from from lock bottle hook 91 and flange 21, and now beverage bottle 2 can unload from bottle graft mouth assembly 32.

Alternatively, it be outward-dipping inclined-plane 911 downwards that lock bottle hooks 91 sides towards beverage bottle 2, so that when action bars 5 during at primary importance P1, beverage bottle 2 can promote this inclined-plane 911 moves a lock bottle hook 91, thereby does not hinder the installation of beverage bottle 2.

In an example of the present utility model, as Figure 11 and shown in Figure 12, body 3 is provided with guiding parts 35, but locking bar 9 is arranged on guiding parts 35 and along guiding parts 35 translations, action bars 5 has be used to driving the wedge shape drive division 56 of locking bar 9.Action bars 5 is when primary importance P1, and wedge shape drive division 56 inserts between bottle graft mouth assembly 32 and locking bar 9 and catches on flange 21 so that the lock bottle hooks 91, as shown in figure 11.Action bars 5 is when second place P2, and wedge shape drive division 56 breaks away between bottle graft mouth assembly 32 and locking bar 9 so that the lock bottle hooks 91 to break away from flange 21, as shown in figure 12.

Preferably, between bottle graft mouth assembly 32 and locking bar 9, be provided with for the second elastic component 92 towards lock bottle position locking bar 9, as Figure 11 and shown in Figure 12.Alternatively, the second elastic component 92 is spring.

In an example of the present utility model, as shown in Figure 13 and Figure 14, the position of locking bar 9 between the two ends of this locking bar 9 is connected with body 3 pivotly, and for example, locking bar 9 is connected with body 3 pivotly by rotating shaft 94.

Particularly, as shown in Figure 13 and 14, action bars 5 has be used to driving the wedge shape drive division 56 of locking bar 9.Action bars 5 is when primary importance P1, and wedge shape drive division 56 inserts between body 3 and locking bar 9 and catches on flange 21 so that the lock bottle hooks 91, as shown in figure 13.Action bars 5 is when second place P2, and wedge shape drive division 56 breaks away between body 3 and locking bar 9 so that the lock bottle hooks 91 to break away from flange 21, as shown in figure 14.

Preferably, between body 3 and locking bar 9, be provided with for the 3rd elastic component 93 towards lock bottle position locking bar 9, as shown in Figure 13 and Figure 14.Alternatively, the 3rd elastic component 93 is spring, for example can be stretching, compression or torsionspring.

Thus, when beverage bottle 2 was installed, under the effect of the second elastic component 92 or the 3rd elastic component 93, lock bottle hook 91 caught on the flange 21 of beverage bottle 2, thereby beverage bottle 2 can not unload.When action bars 5 was upwards lifted, at first action bars 5 was opened relief valve beverage bottle 2 is carried out to pressure release, and then the lock bottle hooks 91 disengaging flanges 21, thereby can unload beverage bottle 2.

According to the lock bottle mechanism of the carbonic acid beverage maker of the utility model embodiment, can realize that first pressure release, then to the safety operation of beverage bottle 2 releases, without the pressure release of pendulum bottle, increases and unloads a bottle space, reduce rocking of soda after reaction, avoid carbonic acid to decompose.

Although described a plurality of embodiment of lock bottle mechanism, but those skilled in the art are understandable that, can to beverage bottle 2, carry out the locking and unlocking by independent release mechanism is set, in other words, the locking and unlocking of beverage bottle 2 can not realized by action bars.

Below with reference to Fig. 1-Figure 14, describe the carbonic acid beverage maker according to the utility model embodiment in detail.

As shown in Figure 1, according to the carbonic acid beverage maker of the utility model embodiment, comprise: body 3, gas distribution channel, steam supply valve 33, relief valve 34 and action bars 5.Carbonic acid beverage maker can connect source of the gas 1 and beverage bottle 2.Source of the gas 1 is generally the compression gas tank that gas (mist of carbon dioxide or carbon dioxide and air) is housed.In beverage bottle 2, water is housed, with the gas reaction Formed acid beverage be passed into from source of the gas 1 in beverage bottle 2, the water difference according in beverage bottle, can prepare different sodas.

Body 3 is provided with for the gas source interface assembly 31 that is connected with source of the gas 1 and bottle graft mouth assembly 32 for being connected with beverage bottle 2.Gas distribution channel is connected between gas source interface assembly 31 and bottle graft mouth assembly 32, is transported in beverage bottle 2 for the gas by source of the gas 1.Steam supply valve 33 is for conducting and cut-off gas distribution channel, thus the conveying of control gas.Relief valve 34 is be used to discharging the gas in beverage bottle 2.Action bars 5 is arranged on body 3 movably opening steam supply valve 33 and cut out the primary importance P1 of relief valve 34 and cut out steam supply valve 33 and open between the second place P2 of relief valve 34.

Particularly, when action bars 1 was positioned at primary importance, steam supply valve 33 was opened, and relief valve 34 cuts out simultaneously, thereby opens source of the gas 1, so that the gas in source of the gas 1 enters in beverage bottle 2 by described gas distribution channel.When action bars 5 was positioned at the second place, steam supply valve 33 cut out, and relief valve 34 is opened simultaneously, beverage bottle 2 pressure releases, and for example, the unnecessary carbon dioxide that does not participate in reaction supplied in beverage bottle 2 is discharged.Alternatively, action bars 5 can be manual lever, by user's manual operation.Be understandable that, action bars 5 can also operate by automatic control, for example, carbonic acid beverage maker can have controller, in controller, can preset control program, after starting carbonic acid beverage maker, described controller can operate according to preset programme-control action bars 5, this is known for those skilled in the art, is not described in detail at this.

According to the carbonic acid beverage maker of the utility model embodiment, by stirring of action bars 5, realizing aerating and the pressure release action to beverage bottle 2, simple in structure and easy and simple to handle reliable.

In preferred embodiments more of the present utility model, as shown in Figure 4, between primary importance P1 and second place P2, have the 3rd position P3, action bars 5 steam supply valve 33 and relief valve 34 when the 3rd position P3 are closed.Thus, when carbonic acid beverage maker was in off working state, namely carbonic acid beverage maker neither carried out aerating and does not also carry out pressure release, and steam supply valve 33 and relief valve 34 are closed, and reduced energy consumption, and had guaranteed the safe handling of beverage bottle 2.

As shown in Figure 1, in embodiment more of the present utility model, action bars 5 comprises poke rod 51 and actuator lever 52, and the first end of poke rod 51 is installed in rotation on body 3, the second end of actuator lever 52 is installed in rotation on body 3, and the first end of actuator lever 52 is connected with poke rod 51.Action bars 5 is when primary importance P1, and actuator lever 52 is opened steam supply valve 33.Action bars 5 is when second place P2, and poke rod 51 is opened relief valve 34.Further, by connecting rod 53, be connected pivotly between the second end of poke rod 51 and the first end of actuator lever 52, poke rod 51, connecting rod 53 and actuator lever 52 form linkage thus.Therefore, when poke rod 51 activated, drive connecting rod 53 and drive actuator lever 52 motions, drive thus the release that steam supply valve 33 is controlled the gas in source of the gas 1.When poke rod 51 was struck to primary importance P1, actuator lever 52 was opened steam supply valve 33 to discharge gas.Alternatively, connecting rod 53 can comprise two or many rod members of head and the tail connection successively.

In the embodiment of Fig. 1-shown in Figure 6, poke rod 51 is located on bottle graft mouth assembly 32 and can swings up and down.Particularly, (be positioned at primary importance P1) when poke rod 51 is stirred downwards, by driving the rotational action of connecting rod 53, drive actuator lever 52 and rotate, steam supply valve 33 is opened, thereby opens source of the gas 1 output gas, and poke rod 51 cuts out relief valve 34 simultaneously.When poke rod 51 kept flat (being positioned at the 3rd position P3) or upwards stirs (being positioned at second place P2), by driving the rotational action of connecting rod 53, actuator lever 52 was rotated, and steam supply valve 33 cuts out.When poke rod 51 is upwards stirred, can touch the switch (scheming not shown) of relief valve 34 and open relief valve 34, thereby can lose heart to beverage bottle 2.

According to the carbonic acid beverage maker of an optional embodiment of the utility model, also comprise operating flexibility part (scheming not shown), the operating flexibility part is connected with action bars 5, for from primary importance P1 or second place P2, driving action bars 5 towards the 3rd position P3.Like this, by the operating flexibility part, to action bars 5 end of operations and after completing beverage bottle 2 air feed or pressure release, action bars 5 can return to the 3rd position P3, make thus steam supply valve 33 and relief valve 34 close the user, carbonic acid beverage maker is in off working state.

According to the carbonic acid beverage maker of the utility model embodiment, can also comprise be used to driving the electric drive assembly of action bars 5.Particularly, electric drive assembly comprises drive motors 6 and revolving part 7, and wherein revolving part 7 is connected to drive rotation by drive motors with motor, and revolving part 7 is connected with action bars 5 and moves between primary importance P1 and second place P2 to drive action bars 5.

In an example of the present utility model, as shown in Figure 5, action bars 5 is provided with slotted eye 511, revolving part 7 is provided with the projection 71 be engaged in slidably in slotted eye 511, action bars 5 is by reciprocating rotary reciprocally swinging between primary importance P1 and second place P2 of revolving part 7, like this, the simple in structure and cost of carbonic acid beverage maker is low.Alternatively, on projection 71, can scribble the lubricant of being convenient to slide and/or be provided with bearing or the ball of rolling, so that the slip of projection 71 in slotted eye 511.

In another preferred example of the present utility model, as shown in Figure 6, revolving part 7 is for rotating disk and be provided with guide channel 72, action bars 5 is provided with lead 512, lead 512 is engaged in guide channel 72 slidably, and action bars 5 is by rotation reciprocally swinging between primary importance P1 and second place P2 of revolving part 7.According to the carbonic acid beverage maker of this example, in aerating and pressure leak process, can accurately control the time of staying of poke rod 51 in each position, and demand motive motor 6 conversion direction of rotation not, control thus more accurate and simply.Alternatively, on lead 512, can scribble the lubricant of being convenient to slide and/or be provided with bearing or the ball of rolling, so that the slip of lead 512 in guide channel 72.

As shown in Figure 2, gas source interface assembly 31 comprises the ready-packaged joint 313 for being connected with source of the gas 1.The assembling simple and fast of source of the gas 1 and gas source interface assembly 31, improved efficiency of assembling thus, and for ease of maintenaince replace.

In addition, as shown in Figures 2 and 3, steam supply valve 33 is located in gas source interface assembly 31, has pressure release passage in bottle graft mouth assembly 32, and relief valve 34 is arranged on the outlet side of pressure release passage.Particularly, in bottle graft mouth assembly 32, has aerating passage 320, in gas source interface assembly 31, have source of the gas passage 310, be provided with appendix 4 between the outlet of the import of aerating passage 320 and source of the gas passage 310, gas distribution channel consists of the inner chamber of aerating passage 320, source of the gas passage 310 and appendix 4.Alternatively, appendix 4 is flexible pipe.As shown in Figure 2, the import department of aerating passage 320 is provided with the inlet suction port 323 be connected with appendix 4, and the exit of aerating passage 320 is provided be used to stretching into the air jet pipe 322 in beverage bottle 2.As shown in Figure 3, the exit of source of the gas passage 310 is provided with the gas transmission joint 312 for being connected with appendix 4.By above setting, make simple in structure according to carbonic acid beverage maker of the present utility model and cost is low, and efficiency of assembling is higher.

Those skilled in the art will appreciate that the gas pressure in source of the gas 1 is usually very large, the elements such as the joint of carbonic acid beverage maker, pipeline easily damage under the impact of gas.According to preferred embodiments more of the present utility model, carbonic acid beverage maker can comprise pressure buffer device 311, and pressure buffer device 311 is located between appendix 4 and source of the gas passage 310, for the air pressure of buffering from the gas of source of the gas 1 supply.By pressure buffer device 311, can effectively reduce the element impact of gas to carbonic acid beverage maker, lower the possibility of causing danger, extend the life-span such as the element of joint.

As shown in Figure 3, in a concrete example, pressure buffer device 311 comprises cushion chamber 3111, slide block 3112, decompression plate 3114 and decompression elastic component 3115.

Cushion chamber 3111 is formed in source of the gas passage 310, and slide block 3112 is located in cushion chamber 3111 movably, for example, as shown in Figure 3, cushion chamber 3111 horizontal-extendings, namely slide block 3112 is flatly in the interior movement of cushion chamber 3111.Certainly, the utility model is not limited to this, cushion chambers 3111 in aerating passage 320 can extend along the vertical direction or incline direction extends, namely gas along the vertical direction or incline direction interior when mobile at cushion chamber 3111, slide block 3112 is removable along gas flow direction.

In example as shown in Figure 3, an end of slide block 3112 has seal boss 31121, and the form fit of the outlet of the shape of seal boss 31121 and source of the gas passage 310, so that the outlet of shutoff source of the gas passage 310 better.Preferably, the cross section of the outlet 3101 of source of the gas passage 310 forms circle, and the internal diameter of the outlet of the diameter of seal boss 31121 and source of the gas passage 310 is close for example about equally, as shown in Figure 3.The other end of slide block 3112 has elastic component boss 31122.

Decompression plate 3114 has passage 31141, and decompression plate 3114 is located at the end place that gas transmission joint 312 is adjacent with cushion chamber 3111.Thus, 31141 of the passages of decompression plate 3114 allow less gases to pass through, thus further decompression effectively, the impact of mitigation of gases to gas transmission joint 312 elements such as grade in the exit that is located at source of the gas passage 310.

Decompression elastic component 3115 is located between decompression plate 3114 and slide block 3112, for slide block 3112 is compressed.Particularly, decompression elastic component 3115 is located between decompression plate 3114 and elastic component boss 31122.Preferably, decompression elastic component 3115 is spring, and elastic component boss 31122 can be engaged in spring.

When the user stirs poke rod 51 downwards, drive actuator lever 52 and open steam supply valve 33, in the starting stage, the gas pressure in source of the gas 1 is large, and the air pressure in body 3 is little, the elastic force that the gas in source of the gas 1 can overcome decompression elastic component 3115 enters in body 3.When air pressure in body 3 moved closer to mutually, under the elastic force effect of decompression elastic component 3115, slide block 3112 was blocked aerating passage 320 when the gas pressure in source of the gas 1.In addition, steam supply valve 33 also can manual-lock.

Further, also comprise decompression joint 3113 according to the carbonic acid beverage maker of the utility model embodiment, decompression joint 3113 is located in cushion chamber 3111 and is reducing pressure between plate 3114 and decompression elastic component 3115.Alternatively, as shown in Figure 3, decompression joint 3113 is threaded in cushion chamber 3111.

In the above-described embodiments, pressure buffer device 311 is located between appendix 4 and source of the gas passage 310.But those skilled in the art are appreciated that, pressure buffer device 311 can also be arranged on appendix 4, will cause although it is so one section between pressure buffer device 311 and source of the gas 1 to be still high pressure, easy break-down, yet pressure buffer device and body are independent of one another, easy-maintaining.

The operating process of manufacturing soda according to the carbonic acid beverage maker of the utility model embodiment is described below with reference to Fig. 1-Figure 14.

Step S1: source of the gas 1 is connected to body 3 by gas source interface assembly 31, and beverage bottle 2 is connected to body 3 by bottle graft mouth assembly 32, now action bars 5 is positioned at second place P2 or the 3rd position P3.

Step S2: move down the poke rod 51 of action bars 5 to primary importance P1, drive connecting rod 53 and drive actuator lever 52 motions, thereby open steam supply valve 33, so that the gas in source of the gas 1 enters in beverage bottle 2 through gas distribution channel and air jet pipe 322.

Step S3: poke rod 51 is moved to the 3rd position P3, wait for water and abundant hybrid reaction a period of time of gas.

Step S4: the poke rod 51 of the action bars 5 that moves up is to second place P2, and action bars 5 touches the switch of relief valve 34 and opens relief valve 34, thereby can carry out pressure release to beverage bottle 2, until the air pressure in beverage bottle 2 reach predetermined value, and atmospheric pressure for example.Meanwhile, steam supply valve 33 cuts out, and source of the gas 1 is no longer to the interior infeed gas of beverage bottle 2.

Step S5: repeat above-mentioned steps S2-S4, until obtain the soda of desired concn;

Step S6: take off beverage bottle 2.

According to the carbonic acid beverage maker of the utility model embodiment, by action bars 5, can realize aerating and pressure release to beverage bottle 2, thus, carbonic acid beverage maker simple in structure and easy and simple to handle reliable.By pressure buffer device 311, can effectively reduce the inner member impact of gas to carbonic acid beverage maker, improve safety and reliability, extend the component life of carbonic acid beverage maker.In addition, by a lock bottle mechanism, realized automatically that first to beverage bottle 2 pressure releases, then the release beverage bottle 2, without the pressure release of pendulum bottle, increase and unload a bottle space, reduced rocking of carbonated water after reaction, avoided carbonic acid to decompose.

In the description of this specification, the description of reference term " embodiment ", " some embodiment ", " example ", " concrete example " or " some examples " etc. means to be contained at least one embodiment of the present utility model or example in conjunction with specific features, structure, material or the characteristics of this embodiment or example description.In this manual, the schematic statement of above-mentioned term not necessarily referred to identical embodiment or example.And the specific features of description, structure, material or characteristics can be with suitable mode combinations in any one or more embodiment or example.

Although the above has illustrated and has described embodiment of the present utility model, be understandable that, above-described embodiment is exemplary, can not be interpreted as restriction of the present utility model, those of ordinary skill in the art is not in the situation that break away from principle of the present utility model and aim can change above-described embodiment in scope of the present utility model, modification, replacement and modification.

Claims (10)

1. the lock bottled agency of a carbonic acid beverage maker, described carbonic acid beverage maker comprises body, relief valve and action bars, described body (3) is provided with and is suitable for the bottle graft mouth assembly (32) be connected with beverage bottle (2); Described relief valve is for discharging the gas in described beverage bottle; Described action bars (5) is in the primary importance of cutting out described relief valve and open between the second place of described relief valve and be arranged on movably on described body (3);

It is characterized in that,

Described lock bottled agency is located between described beverage bottle and described bottle graft mouth assembly to lock described beverage bottle when described relief valve cuts out and unloads from described bottle graft mouth assembly (32) preventing, and there is the 3rd position between described primary importance and the described second place, at described the 3rd described action bars in position (5), close described relief valve and described lock bottle mechanism locks described beverage bottle.

2. carbonic acid beverage maker De according to claim 1 lock bottled agency, is characterized in that, described lock bottled agency comprises:

Be formed on the flange of the bottle mouth position of described beverage bottle, described flange has lock bottle breach;

Be formed on the chute on described bottle graft mouth assembly (32); With

Lock bottle slide block, described lock bottle slide block is engaged in slidably in described chute and by described action bars and drives, described action bars described lock bottle slide block when described primary importance is in the lock bottle position be inserted in described lock bottle breach, and described action bars described lock bottle slide block when the described second place is in the off-position broken away from described lock bottle breach.

3. carbonic acid beverage maker De according to claim 2 lock bottled agency, it is characterized in that, the upper end of described lock bottle slide block (3) is provided with block (31), and described action bars (5) is provided with stir (51) of matching to drive described lock bottle slide block (3) with described block (31).

4. carbonic acid beverage maker De according to claim 2 lock bottled agency, it is characterized in that, one end of described lock bottle slide block (3) is provided with mating holes (32), and described action bars (5) is provided with and coordinates post (52), and described cooperation post (52) is engaged in described mating holes (32).

5. carbonic acid beverage maker De according to claim 2 lock bottled agency, is characterized in that, a described lock bottle mechanism also comprises the first elastic component, and described the first elastic component is connected with a described lock bottle slide block with towards the described lock of described lock bottle position bottle slide block.

6. carbonic acid beverage maker De according to claim 1 lock bottled agency, is characterized in that, a described lock bottle mechanism comprises:

Be formed on the flange of the bottle mouth position of described beverage bottle;

Locking bar, the lower end of described locking bar (3) is provided with the lock bottle and hooks (33), described locking bar is driven by described action bars, described action bars described locking bar when described primary importance is in the lock bottle position that described lock bottle catches on described flange, and described action bars described locking bar when the described second place is in from described lock bottle and hooks the off-position broken away from described flange.

7. carbonic acid beverage maker De according to claim 6 lock bottled agency, it is characterized in that, described body is provided with guiding parts, but described locking bar is arranged on described guiding parts and along described guiding parts translation, described action bars has for driving the wedge shape drive division of described locking bar

Described action bars described wedge shape drive division when described primary importance inserts between described bottle graft mouth assembly (32) and described locking bar so that described lock bottle catches on described flange, described action bars described wedge shape drive division when the described second place breaks away between described bottle graft mouth assembly (32) and described locking bar so that described lock bottle hook and described flange disengaging are provided with between described bottle graft mouth assembly (32) and described locking bar for the second elastic component towards the described locking bar of described lock bottle position.

8. carbonic acid beverage maker De according to claim 7 lock bottled agency, is characterized in that, the position of described locking bar between the two ends of this locking bar is connected with described body pivotly, and described action bars has for driving the wedge shape drive division of described locking bar,

Described action bars described wedge shape drive division when described primary importance inserts between described body and described locking bar so that described lock bottle catches on described flange, described action bars described wedge shape drive division when the described second place breaks away between described body and described locking bar so that described lock bottle hook and described flange disengaging are provided with between described body and described locking bar for the 3rd elastic component towards the described locking bar of described lock bottle position.

9. carbonic acid beverage maker De according to claim 8 lock bottled agency, is characterized in that, it is downward outward-dipping inclined-plane towards the side of described beverage bottle that described lock bottle hooks.

10. a carbonic acid beverage maker, is characterized in that, comprises according to the described lock bottled agency of claim 1-9 any one.

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