CN85103333A - Self-fill system - Google Patents

Abstract

In the autocontrol topping up case that links to each other with the beverage dispensing machine, the water of controlled inflow and the syrup that pumps into mix at this, low liquid level and high liquid level (HLL) probe are arranged in the case, the signal that they send comes operate pump by control path, pump work when low probe exposes liquid level, pump stopped when high probe was submerged, and the interior liquid level of case is remained between low and the high probe.Other has a safety checker that prevents to surmount, i.e. the 3rd probe when liquid level in the case surmounts high probe and arrives the 3rd probe, just cuts out whole device, and the present invention also provides and detected the detector that syrup is used up.

Description

Self-fill system

The present invention relates to the liquid dispensing machine and specially refers to a cover automatic guidance irritating with the automatic dress that Come carries out the bucket of dispensing machine very widely.The automatic self-chambering filling device that the present invention relates more specifically to is embodied on the control path that is used in a kind of machine, this machine divide irritate the liquid formed by water and syrup and with their mix the machine of packing into barrel in.

Divide the machine of irritating beverage to have a bucket with the Come storage beverage especially, the representative type beverage is to be mixed by water and heavy syrup, and will hold them on the low temperature with the evaporative condenser pipe.This machine is furnished with a water-supply-pipe, the filling of the most beverages in the beverage dispenser bucket is that the heavy syrup in the syrup container is poured in the bucket, at this moment need position with bucket be reduced to make it can obtain enough syrup in the heavy syrup container, then, adding an amount of water makes the concentration of beverage moderate.This routine operation that charges barrel interior beverage is difficult grasp and time taking because toward the bucket in charge during this period of time in, machine must quit work, so this is a kind of comparatively backward technology.But also to wait for the quite a long time again, the whole beverages in bucket are reduced to after the suitable temperature, could charge again.

For this reason, one of purpose of the present invention just provides a kind of improved beverage dispensing machine, and this machine is the filling beverage automatically.This just means can use a bigger heavy syrup storage container, is refilled and supplies according to the demand Come that stores bucket.

Another object of the present invention is to carry out automatically for dispensing machine provides the automatic self-chambering of the cover equipment of irritating to make to charge operation, so that the drinking water plane dimension in the bucket is held in certain scope.Beverage surface level in the dispensing machine bucket should maintain between the upper and lower bound generally speaking.

Another object of the present invention be exactly for dispensing machine provide the automatic self-chambering of cover irritate equipment for ease of maintenaince, relative more cheap of safety of operation and price.According to the present invention, also preferentially selected the overload safety measure for use, even like this liquid level surpassed the upper limit also have the overload safety gear make charging of machine stop or taking other action.

Also have the another one purpose, provided by the invention this overlaps automatic self-chambering filling equipment and has the advantages that to regulate automatic filling degree, and it is constant that syrup is kept the ratio of water, thereby make beverage reach desirable concentration.

The present invention is in order to finish above-mentioned purpose with other, provide a cover to divide to irritate normally for complete machine the beverage formed by water and heavy syrup automatically from filling device, water and syrup are blended in the bucket of dispensing machine, this covering device that the present invention adopts comprises one and is placed on barrel interior certain position, to the highstrung detector member of the lifting of liquid in bucket.These parts have a support that is fixed on barrel interior vertical direction.Pump with Come with in the syrup suction bucket.The control of water is to adopt a kind of electromagnetic valve Come control to flow into the interior water yield of bucket.Two of water delivery and syrup pipelines concentrate on the upper end of bucket in bucket, detector member comprises two probes, a low probe detects the predetermined low liquid level of liquid in bucket with Come, a high probe detects the predetermined high liquid level (HLL) level of liquid in bucket with Come, and these two probes can send their electric signal separately respectively.Thereby the control path device receives from the electric signal control pump of high and low probe with Come and enters the mode of operation of valve.Its flood valve when low probe does not have liquid topped is opened, and pump quits work when liquid level reaches high probe, thereby at any time the liquid level in the bucket can be maintained between the high and low probe.On high probe, settled the 3rd probe again, used when overloading in system.Promptly when liquid level surpasses the position of high probe, control path is failed cutoff device in time, thus generation effect when making liquid level reach system's overload probe.

When syrup lacks, before filling not, do not wish in bucket, to pump into again.Liquid in the bucket is can not can diluted like this.

Various other purposes, characteristics and preceence of the present invention are worked as conjunction with figs., have seen will becoming clear after the following description.

Figure 1A and 1B represent automatic self-chambering filling logic control circuit figure and a kind of dispensing machine, for example in order to minute a filling fruit juice or Other Drinks.

Fig. 2 is the front perspective view of a twin-tub dispensing machine, is broken away so that can demonstrate probe groups according to input filling pipeline provided by the present invention and assembling one of them barrel section.

Fig. 3 is the section-drawing of Fig. 2 along the 3-3 line, has further at length shown the assembling of chargine line and probe.

Fig. 4 is the section-drawing of Fig. 3 along 4-4, shows the inner structure of probe.

Fig. 5 is the back perspective view of dispensing machine shown in Figure 2.

With reference to the accompanying drawings, Figure 1A and 1B are the functional arrangement figure that automatic dress of the present invention is irritated machine.Accompanying drawing 2-5 is depicted as the dispensing machine according to the general type of principle design of the present invention, and certain principle of the present invention also is applicable to the dispensing machine of any other form.But accompanying drawing 2-5 is a kind of self acting preferably that embodies according to the present invention charges dispensing machine certainly.Fig. 2, the front perspective view of expression twin-tub dispensing machine, one of them barrel section is cut open so that show the installation of chargine line and probe.Fig. 3 is the cross sectional drawing that cuts along 3-3, shows their structure thus in more detail.Fig. 4 is the cross sectional drawing that the 4-4 along Fig. 3 cuts open, further at length shows assembling, the combination of probe.Fig. 5 is the back perspective view of dispensing machine, and outer cover is broken away.

Figure 1A and 1B represent the self acting relevant with dispensing machine from charging logic control circuit figure, and for example dress is irritated the machine of fragrance fruit drink.The part of control path figure can be divided into two parts; One is connected with left side liquid bucket 8, and another is received on the liquid bucket 9 on the right.Each bucket has three probes coupled again, and its actual arrangement is plotted in accompanying drawing 2-4.In each bucket, there is one to support 11,, is fixed between supply pipe 13 and 15 as Fig. 3.These two chargine lines are to supply water and heavy syrup respectively.Probe has been installed supporting on 11, probe comprises low probe ring 17, high probe ring 19 and be the used top probe cap 21 of system's overload device.When linking to each other with control path, different probes is distinguished at the mark of its each personal similar features of input control terminal.Be provided with the probe 23 that shows that syrup is used up in addition.When the syrup storage bucket sends indication when empty.Simultaneously, Fig. 2-4 has also provided low probe ring 17, the detail drawing of high probe ring 19 and top probe cap 21.

Before the operation of the control path of narration accompanying drawing 1A and 1B, introduce Fig. 2 earlier, what link to each other with the dispensing machine body is under base B and the drip pan, can both place a cup below any one the dress filling nozzle on this plate.Certainly each bucket 8 and 9 all is connected to a dress and irritates nozzle here.In accompanying drawing 2, also drawn first syrup and concentrated storage bucket R1 and second syrup to concentrate storage bucket R2.Accompanying drawing 1 is also expressed indicating device 1 and switch SW 1 and switch SW 2.Indicating device 1 is the indicator lamp that syrup is used up.Switch SW 1 is a main switch, below will together with scheme circuit simultaneously Come hash out.Switch SW 2(switch 52 is that source switch is used for dress filling automatically Figure 1B).

Fig. 3 has represented supply pipe 13,15 and with the support 11 of forming a probe part comprising of they.Fig. 3 has also showed probe ring 17,19 and probe cap 21.Supply line and support 11 all above the outer cover H of evaporator frame go out.Accompanying drawing 3 has also been represented evaporator coil C and the three wire W that link with the different probe ring.The probe service condition relevant with whole circuit with them will further be discussed below.

During the operation of the circuit below discussing, probe and the corresponding pipeline that uses L and R suffix with the left side and the right side respectively differentiated Come.

Connection with figures 3, the structure that can notice evaporator are general common, but its performance is a two-fold in the present invention, promptly also can be used as the support of pipeline and probe groups.

Also note that among Fig. 3 that supply pipe 13 is to stretch out in the middle of evaporator shell, this is for making evaporator coil C be unlikely the supply of disturbing water.If this pipeline is too near from evaporator coil C, water is freezed.

Accompanying drawing 4, the section detail drawing of expression whole probe group, except the contact of probe is the electric conductor, the major part of probe groups all is to be made by the non-conductive non-conductive material.The W of electric wire shown in Fig. 4 connects with the contact of probe respectively, weld together like that shown in the image pattern.Charge M is sealed all parts, and Charge can adopt epoxy resin.

Accompanying drawing 5 illustrates the detail drawing of dispensing machine back, is included as the installation and the protecting sheathing 100 that improve the used many parts of native system, and syrup storage device R1 and R2 were once mentioned in the front.The circuit 102 that draws Come from the syrup storage device connects with left side bucket, and circuit 104 is connected with the right side bucket.Circuit 102 links to each other with the syrup detector 106 of left side bucket again, and 104 are connected with the syrup detector 108 of right side bucket.Particulars in syrup detects sees also with this paper reports and submits simultaneously and applies for a patent file.Basic condition is the syrup content of the probe electrode 23L in the detector 106 and 108 and 23R difference detection line 102 and 104.When syrup used up in the receiver, the circuit that detector can be given with Figure 1A links to each other with 1B sent indicator signal.

The circuit 110 of drawing from detector 106 connects mutually with left side bucket compressing pump 112, and another circuit 114 that links with pump discharge and a syrup pipeline 15L of left side bucket link.Equally, the circuit 115 of drawing from detector 108 links to each other with compressing pump 116, and compressing pump and right bucket link.Another pipeline that is arranged in right side bucket 9 does not mark at Fig. 5, draws from pump 116 exits and leads to syrup supply pipe 15R.

In the accompanying drawing 5, the 120th, coolant inlet pipe, branch are 122 and 124.122 link to each other with electromagnetic valve 128.The electromagnetic valve outlet end links to each other with flow-control equipment 130, with 130 join be as shown in the figure water regulator 132 as shown in Figure 2, this is to regulate the discharge flow to coolant outlet pipe 134 and check valve 136 with Come to use.So current enter water supply pipe 13R and flow in the right bucket 9.

In the left side is same layout, and circuit 124 links to each other with electromagnetic valve 140.The mouth of electromagnetic valve 140 is received on the volume control device 142, and a corresponding flow regulator is arranged on the front panel of this device too.The pipeline 144 that links to each other with the mouth of pipeline 142 passes on the check valve 146, and enters in the bucket in left side by water-supply-pipe 13L therefrom.

Adopt above-mentioned input media that two reasons are arranged basically.One is the environment that keeps clean, if the input supply line pressure lost efficacy and vacuum words, will make beverage flow in the water pipe, if adopt the inlet of low liquid level because of the inverted-siphon effect, unless then use two ball valves of the costliness of restricted property, otherwise the product beverage will be inhaled in the suction culvert.And in order to prevent that the operator from forgetting the suction culvert reduction, is provided with a single ball check valve in the coolant inlet pipe of this unit.These have illustrated characteristics of supply line, just no longer may flow backwards to get back in the supply line after in a single day liquid flow into bucket and go.In accompanying drawing 2, clearly illustrate that chargine line 13 and 15 stretches out on probe groups.Like this, the outlet of supply pipe is higher than the probe groups top, just can not produce inverted siphon phenomenon.So also just can use better simply device not need to adopt expensive two ball valve Come to stop beverage products to be gone into coolant inlet pipe by suck-back has suffered.

Water and heavy syrup adopt the second reason of high liquid level (HLL) inlet to be, Brix Scale or molasses sugar are than detecting easily.As long as put two measuring cups in the exit of syrup and water pipe and remove water receiving and syrup, perhaps with the two with a glass go to connect also can, go to check Brix Scale with refractometer then.And wanting to adjust Brix Scale is easily, as long as regulate bolt 132 as shown in Figure 2, this control timber bolt is installed in the front of bottom, the every limit of this equipment.In stowing operation, regulate the flow Come control water of input water and the ratio between the sugar by swivel bolt switch 132.

In Fig. 5, also drawn a series of fan F1 and F2, be to use Come cooling pump motor, drawn switch SW 1 and switch SW 2 and corresponding indicating device 1.Except Fig. 2 and switch and indicating device shown in Figure 5, over there, also have in the left side of this equipment in other words one with receiver R ₁Relevant syrup is used up detector life indicating device.The left side also has pair of switches, comprises the main switch and the reset switch in left side.Also there are current to regulate outlet on the same position of left side bucket, identical with the position of adjusting bolt switch 132 in the accompanying drawing 2, but be on the corresponding another side of dispensing machine.

Once mentioned above, four switches were arranged on the filling plant, two switch SW 1 and the SW2 as shown in Figure 2 in every limit.To illustrate that hereinafter reset switch is the part of overload line system, when beverage surface exceeded overload probe cap 21, switch just cut out.If when this equipment on power initiation and power supply mistake, the logic function of overload line system can stop flip flop equipment.At this moment the overload system that must reset recloses power supply.

Scheme circuit is also expressed and voltage transformer T ₁The live wire 50 that connects, the primary winding of voltage transformer is P, output primary S.Output primary output with by diode D ₁-D ₄Bridge full wave rectifier circuit 65 phases of forming also connect.The output of this circuit is connected to filter capacitor C ₉, Zener diode Z ₁And resistance R ₇And crystal triode Q ₂On.Crystal triode Q like this ₂Base stage on just set up enough vdcs, make Q ₂Conducting completely.Basically can think that this current/voltage drives the emission follower by the Zener diode shunt regulator and produces, further supposition overload systemic-function does not work and crystal triode Q ₁Still conducting, this just make electric current can by with diode D ₅Relay K in parallel ₁Coil.Expression has action reset switch 66 and with it and the indicator lamp 68 that connects in the scheme circuit.Lamp can be the neon glim lamp with a series resistance.70 whiles and switch 66, indicator lamp 68 and relay K of center line of power supply ₁A contact K ₁A is connected.

At the initial stage of operation, reset switch 66 is closed, for center line 70 passes through leads 71 to voltage transformer T ₁Primary winding P path is provided.Alternating-current voltage/AC voltage just is added on the bridge rectifier 65 like this, then just can be to crystal triode Q ₁And Q ₂Direct supply is provided, and makes relay K ₁Coil electricity, K ₁Contact K ₁The A closure.So just, form a complete power line.

Explanation and left side bucket 8 and relay coil K now ₃Relevant control path part.This part comprises 12,14,16,18,20,22,24 and common doors 26 of door.All these doors all are AND-NOT gates.The door 12,14,16, and 18 respectively with input capacitor C ₅, C ₆, C ₇And C ₄Link to each other.These goalkeepers provide inherent schmidt trigger tape for 4093 used stamen sheets.This schmidt trigger function is applied in the input terminal of probe.Because of liquid level landing when dry gradually, can stablize its logical implication with convenient probe.Door 14 and 16 mutual cross connections constitute flip-flop multivibrator.

So, high probe terminal 19L is connected to " with one non-" door 12; Low probe 17L receives " with one non-" door 14; Syrup is used up sense terminals 23L and is connected to " with one non-" door 18; Overload probe 21L receives " with one non-" door 26.Be also pointed out that in the input circuit of each root probe here also to comprise a resistance, they are respectively R ₈, R ₉, R ₁₀And R ₄The other end of every resistance all is connected on negative supply (13V).The logic function of employed in this circuit " with one non-" door is as follows: when two input ends all be logic when high, " with one non-" is output as logic low.When any one or two in the input end are in logic low, " with one non-" door output logic height then.Each door joins according to above-described logical relation and fluid level probe.Simultaneously, the probe ground connection by means of the contact of liquid again.When not having conducting liquid, the resistance that probe is only talked about previously is connected on negative supply-13V.

The ground level signal of mentioning in logical relation is equivalent to logic height or logical one in the present invention, and-13V mark is equivalent to logic low or logical zero.Ground level is decided to be the logic height, is for fear of being connected to when being negative voltage with respect to liquid the electrode generation electrocorrosion of probe because probe drives.So probe all adopts negative electrode and the cathodic anti-corrosion measure is arranged.

Relate to the operation of control path, at first should be taken into account when starting dispensing machine, to exist without any liquid in the bucket.At this moment, four detector probe are all unearthed, and the input of each corresponding door 12,14,18 and 26 is on low level (13 volts).So from these outputs all is high level or logical one (0 volt).From high outgoing event to the door 16 of door 14 is an input, makes the output of door 16 become low level.Because at this moment two inputs of door 16 all are high level.The height output of door 14 also is connected on the door 20.The output of door 18 height can obtain a high level at the mouth of door 20 so successively changing low output through moving into one's husband's household upon marriage into after 22.In this logic, door 20 is exported earth signals at this moment.This means relay coil K ₃There is not electric current to pass through.In addition, received two high level signals at door 24 input ends, causing its mouth is low level, for this reason indicator lamp 25L(Fig. 2 middle finger indicator lamp 1) shinny.In this moment of operation, coil is not switched on, and pump also starts.

Main switch is separately all arranged on each limit of branch filling device, and the switch SW 1 shown in the image pattern 2 also has a syrup to use up in addition and detects light-emitting diode or indicator lamp 1.Lamp does not just redden shinny when having syrup in the syrup detector.When these occur in the initial startup of this device.Press in the accompanying drawings contact 53 and 55 or 59 and 61 by instantaneous contact main switch SW1() the syrup feeding mechanism that can start on one side makes it work.At this moment, pump motor 54 starts.But turn-offed electromagnetic valve 56, doing like this is when preventing that pump from charging into this device with syrup, does not have water and is poured in the bucket earlier.When syrup was charged to syrup detector, light-emitting diode 1 extinguished.Unclamp button, this installs that will charge syrup and water.

In case after the native system manual activation, syrup is used up the i.e. ground connection by means of the conduction of syrup of detector probe 23L.Make door 18 output low levels like this, door 22 output high level.Door 20 just obtains two high input signals at this moment, and the output step-down is that voltage is-13 volts.Relay K ₃Coil electricity, water is flowed and syrup is pumped into.After main switch disconnects, relay K ₂And K ₃Current electromagnetic valve of each self-closing and a compressing pump.

Liquid level raises up to the low probe 17L of liquid contact in the feasible bucket 9 of above-mentioned operation.So high logic level is delivered to door 14, but this opposite house 14 and having no effect, low because the level that exports the input end of door 14 to from door 16 is still, the output of door 14 is maintained at high logic level state.The input that this means door 20 also still is on the high logic level, and the low level of door 20 outputs also will make relay K ₃Continue to keep conducting.Like this, carry out in bucket when liquid-filled, the contact of low probe 17L can not produce action, and the process of pumping into will be proceeded.

Notice that the liquid conductive mode of various probes is " ground connection ".This pathway is by metal tube, and cooling room and hydraulic pipeline provide.Therefore, this yes complete recycle circuit.

When high probe 19L touches syrup, door 12 be input as high logic level state, its output just is in the low logic level state.This low output is received on the door 16, causes door 16 output high level.This high logic level turns back to the input end of door 14.At this moment, because low probe is touched, another input end of door 14 also is a high logic level, so door 14 outputs are transformed into low state, this signal is received door 20, makes its output change high logic level state (ground level) into by low, thereby makes relay coil K ₃Not conducting, the action of fill liquid stops as required.

When the output of door 12 was transformed into low level state, this signal input gate 24 made its output be transformed into high level state, and light-emitting diode 25L stops shinny.Have only when being input to door two level of 24 to be all when high, promptly when the high probe of generation did not touch syrup and syrup and uses up situation, light-emitting diode 25L just can be shinny.

Liquid is extracted out liquid level and will be reduced in bucket, below the low paramount probe 19L of liquid level, door 12 outputs uprise, but do not influence door 16.So door 20 is still exported high level and is kept relay K ₃End.And continue to descend when liquid level, expose low probe at last, line 17L to the incoming signal of door 14 also with step-down.The bistable device that door 14 and 16 is formed resets, and door 14 outputs uprise.Another input of door 20 is at this moment also exported the low state that changes into for high signal makes door 20.Relay K is led in reclosing ₃Coil current, so, restart liquid pump (and water solenoid valve).Till the two remained in operation when syrup touches high probe, the output of door 20 at this moment was converted to high state, makes relay coil K again again ₃Not conducting.This action automatically repeats, and makes liquid level can maintain between low probe 17L and the high probe 19L.

Also additional except these two probes have overload probe 21L to be connected with corresponding 21L terminal.This input is connected on the input end of " with one non-" door 26, and passes through resistance R ₆, " with one non-" door 26 mouth be connected crystal triode Q ₁The basis on.26 effects of " with one non-" door are phase inverters and trigger Schmidt circuit.

In normal circumstances, last probe cap 21L can not be touched, and therefore the output of door 26 is high level, keeps crystal triode Q ₁Conducting.But sometimes because misoperation, probe cap 21L has been touched, so the output of door 26 will step-down, and crystal triode Q ₁End.Thereby relay K ₁The support power supply of shutoff, pump motor, electromagnetic valve and overall logic disappears.

Also have a syrup of representing at terminal 23L to use up the input that detector passes Come on the control path.Be connected on the input end of " with one non-" door 18, door 18 also is a phase inverter.As long as there is syrup to exist in the detector means 106, the output of door 18 is exactly low, and corresponding door 22 is output as height.The syrup that needs only this system is not used up, under the output control of bistable device, and relay K ₃Can be in selected mode of operation.Bistable device said by the front that " with one non-" door 14 and 16 formed through cross connections.

Syrup in the syrup storage device is used the light time, and lead 23L is ground connection no longer.Door 18 input step-down causes the output of door 18 to become high level, 22 becomes low output and delivers to door 20 again through moving into one's husband's household upon marriage, and this low input of 20 has been blocked from other signals of the defeated Come of bistable device, and causes door 20 to be output as high level, and this just makes relay K ₃No longer conducting.To stop automatically charging and pumping into according to the invention provides when the syrup of finding any one is used up situation.

The operation of the left side bucket of in fact describing with the front with the operation of right side bucket bonded assembly control circuit is the same.The unloading phase all do not have liquid to be present in right bucket or the pump.At this moment, four liquid detector probe of joining with right bucket all do not have ground connection, with the input end of their corresponding door 32,34,38 and 26 at low level (13 volts).These output just is in high level or logical one (0 volt).The height output intersection of door 34 is received the input end of door 36, so door 36 mouths are low level because its two input ends all are high.The input end of door 40 is also received in the height output of door 34.The height output of door 38 converts low level to through the output of door 42.The height output of door 40 logically is the ground level signal, this means relay K ₂Coil be not switched on.From operation, this moment, circuit also was in the quiescence that does not begin to adorn filling.

In case after system's manual activation, syrup detector probe 23R is a ground connection, make that door 38 outputs are low and door 42 is output as height.Two inputs of door 40 all are high like this, cause exporting step-down or-13 volts of level.Relay K ₂The coil conducting, liquid pump action makes flow of liquid.

Above-mentioned operation is risen till the liquid contact of low probe 17R the liquid level in the bucket 9.This makes high logic level be connected with door 34.Door 34 output is not influenced by this, because be low level from the input end of door 36 Come, so the output resume of door 34 keeps high logic level state.These two input ends that also mean door 40 are in high logic level state, thereby the low level of door 40 outputs makes relay K with maintenance ₂Magnet coil energising.When charging liquid in bucket, the liquid contact of low probe 17R is not effect in fact, pumps into and proceeds like this.

Now, make the input of door 32 be high logic level when liquid level rise to arrive high probe 19R, the output of door 32 is when the low logic level state, and this low level can make door 36 produce a high output.The output of this high logic is returned the input end of receiving door 34, so because another input end that low probe has formerly been contacted door 34 by liquid also is high, the output of door 34 becomes low state.This low signal is delivered to door 40 makes its output become high logic level or ground level.Relay K ₂Magnet coil outage.Charge action according to the desirable Come down that stops.

When door 32 outputs became low level state, this signal also can be sent to the input end of door 44, made the output of door 44 transfer high state to.Stop light-emitting diode 25R shinny like this.When only occurring syrup that liquid level also do not reach high probe and using up, two inputs of door 44 all are high level, and light-emitting diode 25R is could conducting shinny.

Liquid is drawn out of from bucket, and liquid level descends.When liquid level is lower than high probe 19R when following, door 32 outputs are uprised, but this signal does not influence door 36 upsets, so door 40 outputs still be height, keep relay K ₂The magnet coil off-position.Then, liquid level continues to reduce, and low probe 17R inevitably will be exposed, and the signal of giving door 34 is also with regard to step-down.This is resetted by door 34 and door 36 flip-flop multivibrator of forming with regard to making, the output of door 34 uprises.At this moment, another input end of door 40 also is high, and it is low that door 40 is output as, and just recloses relay K ₂Coil current.Molasses pump and water delivery electromagnetic valve are activated again, and keep this state, when liquid level touches high probe till.At this moment the output of door 40 uprises block system relay K heavily again ₂Coil current.This action repeats, and makes liquid level can automatically remain between low probe 17R and the high probe 19R always.

Except these two probes, also adopted overload probe 21R, be serially connected, also can think this probe the expansion of that probe with the overload probe 21L in left side.The performance of this probe was discussed.Should be noted that in accompanying drawing 1A door U especially ₁And U ₃What use is 4093 types " with non-" doors, has the function of schmidt trigger.Remaining door is as U ₂And U ₄Be " with one non-" door of standard, can adopt 4011 type stamen sheets, these Men Buyu probes of mentioning later directly link to each other.

Here the control circuit of addressing (especially in accompanying drawing 1B) comprises a high-power input power cord 50, joins by source switch 52 and the pump of the left and right sides and the electromagnetic coil of relay.Bucket on the left of being noted that has adopted the electromagnetic valve (referring to valve 140 in the accompanying drawing 5) of pump motor and water delivery.Similarly, the right bucket also has been provided a pump motor 58 and water delivery electromagnetic valve 60(referring to valve 128 in the accompanying drawing 5).Motor 54 and 58 is applicable to drive compression pump (referring to pump 112 and 116 in the accompanying drawing 2), and these two pumps pump into syrup with Come, and work speed is that per minute 160 changes.Use the input speed of the flow controller Come control water of 1 gallon of per minute, operation pressure is 30～35 pounds of every square of inch.

Operation about the right bucket also is identical.Note it being the contact switch 61 that links with main switch 59.When main switch is connected, thereby contact switch 61 disconnects the path of opening magnet coil 60.During in cancelling two main switches 55 or 59 any one,, thereby make separately magnet coil conducting work with the contact switch 53 of their interlocks or 61 normally closed positions that can return to former Come because they are momentary switchs.

Syrup is to be stored in the container and by syrup detector to flow into.Detector is the application main contents in May 13 1985 sequence number No85103398 applying date of reporting and submitting simultaneously with the application.Syrup is pumped to be sent into height behind the syrup detector and goes in the bucket of beverage surface.When the syrup with high resistance and conduction makes electric current from detector end during through syrup ground connection, syrup is used up detection line and will be frozen device and bring into operation.The detector tip is stretched in the syrup and conduction.When the syrup storage device was used sky, the detector compartment liquid level descended, and the tip no longer contacts with syrup, also no longer conducted electricity, and logic control system makes device stop action.

About electromagnetic valve.It can adapt to the flow of two gallons of when both sides are open simultaneously per minutes.Use the copper pipe of 3/8ths inch external diameters to be connected with machine.Water flows into from house steward, branches to electromagnetic valve 56 and 60 through copper pipe.Current are through having the control cock of scalable needle therefrom, and the check valve of flowing through is subsequently flowed through stainless steel tube again to bowl or bucket.As the syrup pipeline, water from the overflow pipe linear flow to the Beverage pail that is arranged in more than the fluid level.In conjunction with accompanying drawing 2 noted earlier, pipeline 15 is used for syrup, and pipeline 13 is used for water.

Emphasize that as preceding the arrangement that a principal feature of the present invention is supply line 13 and 15 will extend on the probe.In accompanying drawing 1, clearly expressed this point, more outstanding in 3 in accompanying drawing.This is that inverted-siphon effect meeting pours into water pipe with beverage for fear of when water pipe produces vacuum.

Will be suitable for a kind of concrete equipment narration of the present invention most as above.Can significantly find out now experienced in this respect personnel can use principle of the present invention imagination many other similar devices or make some and revise, as being mentioned in the preamble the inside.

Claims (28)

1, a kind ofly be applicable to that branch is poured water and equipment is irritated in the self acting self-chambering of being suitable for the fragrance that mixes with water to concentrate precursor syrup solution, be characterized in that this equipment comprises:

A bucket that is suitable for automatic filling liquid;

Installed a kind of detection part on the certain position in bucket for liquid in bucket lifting sensitivity;

Under selectable control, be suitable for syrup pumped into the pumping unit in the bucket;

Described check implement has the low control pin facility that can detect low liquid level predetermined in the bucket, and detects the high probe facility of high liquid in the predetermined bucket, and each self energy is sent the height probe signals;

And the control path facility in order to the signal that receives and react said height probe and send to control above-mentioned pump facility, pump just brings into operation and just stops when liquid level arrives high probe location when low probe end is topped by liquid;

Thereby the liquid level in the bucket remains between said low probe and the high probe.

According to the self acting self-chambering filling device of claim 1, be characterized in that 2, dispensing machine has each bucket of a pair of bucket that one cover check implement, pump facility and water facilities are arranged.

According to the self acting self-chambering filling device of claim 1, be characterized in that 3, the bucket there has a supply pipe at least to guide flow of liquid to bucket.

According to the self acting self-chambering filling device of claim 1, be characterized in that 4, described there detector member includes spine parts and support the be kept upright parts of position of pillar in bucket.

According to the self acting self-chambering filling device of claim 4, be characterized in that 5, each probe member comprises a high probe ring of ring and is installed on the pillar stiffener also keeps certain distance with it on low probe ring there.

6, according to the self acting self-chambering filling device of claim 5, be characterized in, also comprise being positioned at that its function is the 3rd a probe ring of system's overload device on the high probe ring, its effect is exactly to close this device when control path facility inefficacy liquid level has arrived the 3rd probe ring.

7, according to the self acting self-chambering filling device of claim 1, be characterized in, comprise that the 3rd probe ring component is positioned on the high probe member to system's overload signal is provided.

According to the self acting self-chambering filling device of claim 7, be characterized in that 8, the control path parts comprise that detecting the overload signal makes in order to control path and stop action there.

According to the self acting self-chambering filling device of claim 1, be characterized in that 9, said there control path device includes a bistable device, and one of them has the input end that receives low probe signals and another has the input end that receives high probe signals.

10, according to the self acting self-chambering filling device of claim 9, be characterized in, comprise that also parts that a relay combines with relay in order to the output of prime pump parts and bistable device are in order to a trigger action.

According to the self acting self-chambering filling device of claim 10, be characterized in that 11, said there bistable device comprises a pair of cross one another door.

According to the self acting self-chambering filling device of claim 11, be characterized in that 12, said there parts combine with the output of bistable device and comprise " with one a non-" door.

13, according to the self acting self-chambering filling device of claim 12, be characterized in, also comprise a detector, in order to determine that triggering syrup when the syrup in the machine is used up uses up signal, this signal combines the operation that makes said magnet coil disconnect and stop pump with " non-with one " door.

14, according to the self acting self-chambering filling device of claim 12, be characterized in, comprise that also a main switch is with entering readiness so that charge the automatic operation of syrup.

15, according to the self acting self-chambering filling device of claim 1, be characterized in, comprise that one makes the parts that pump enters readiness and stops the function unit of current to make in the new field of technical activity and is unlikely the liquid that waters down in the bucket.

16, according to the self acting self-chambering filling device of claim 15, its characteristics, each bucket all links to each other with a main switch so that prepare startup there.

17, according to the self acting self-chambering filling device of claim 1, be characterized in, comprise and a pair of supply line of bucket bonded assembly, a transporting water, another carries syrup.

According to the self acting self-chambering filling device of claim 17, be characterized in that 18, said there a pair of supply line all extends terminal and guides the top inflow of liquid from bucket.

According to the self acting self-chambering filling device of claim 18, be characterized in that 19, said there guiding liquids to the pipeline in the bucket is positioned on the detector member.

According to the self acting self-chambering filling device of claim 18, be characterized in that 20, said there guiding liquids to the pipeline in the bucket is positioned on the high probe, unlikely because the inverted-siphon effect makes in the beverage flow oral siphon when producing vacuum in the convenient water supply pipe.

21, irritate by water and the fragrance heavy syrup that is suitable for mixing with water is formed in the machine of liquid at branch, also comprise a bucket that is suitable for automatic filling liquid, described barrel automatic dress irrigation method is characterized in, comprises the steps:

A liquid level comprises that the low high liquid level (HLL) signal that reaches of utilization is to detect predetermined low liquid level and high liquid level (HLL) level in the detection bucket, the filling of control inner bucket water and syrup continues to charge and then interrupt when liquid level exceeds predetermined high liquid level (HLL) when being lower than predetermined low liquid level with convenient liquid level, thereby the liquid level in the bucket is always remained between the predetermined low and high liquid level (HLL).

22,, be characterized in comprising whether the 3rd position detecting liquid level be more taller so that interrupt the further operation of machine than predetermined high liquid level (HLL) level according to the method for claim 21.

23, according to the method that claim 20 proposed, be characterized in, comprise and measure water and syrup concentration and regulate the concentration between the two so that reach suitable predetermined concentration.

24, a cover filling device is used for branch and irritates by water and the machine of the liquid that the fragrance heavy syrup that is suitable for mixing with water is formed, and is characterized in that described device is by forming with the lower part:

One is suitable for adorning the bucket of irritating liquid.

Be suitable for that under selectively controlling syrup is pumped into one in the bucket and overlap the pump facility;

The a pair of supply line that is connected with bucket, a transporting water and the said syrup of another conveying;

Above-mentioned supply pipe direct the flow of liquid either into top that exit end in the bucket is positioned at bucket on the predetermined high liquid level (HLL) level of bucket.

25, according to the device of claim 24, be characterized in, this supply pipe should vertically with outlet make in fact liquid from pipe overhead stream following time at least should part vertical drop.

According to the device of claim 24, be characterized in that 26, the pipeline that also has the detector probe group and direct the flow of liquid either into therein in the bucket that is attached thereto is positioned on the detector probe group.

27, according to the device of claim 26, be characterized in, described there detector probe group comprises the low probe unit and the high probe unit that detects predetermined high liquid level (HLL) that detect predetermined low liquid level in the bucket, send the corresponding low action that reaches the control path of high probe signals and reception and the high and low probe signals of reaction with control pump separately, when low probe is not capped with regard to the primer pump facility, pump just stops when liquid level arrives high probe location, makes a barrel interior liquid level maintain described low reaching between the high probe.

28, be to comprise for dividing its characteristics that charge facility of machine of irritating the liquid of forming by water fragrance heavy syrup:

Charge the bucket of liquid with Come, its position of detecting device is installed in bucket is convenient to detect liquid in bucket rising and decline, and under selectable control, syrup pumped into pump facility in the bucket in order to the control bucket in liquid level make between the upper limit and lower limit the detector that when syrup is used up in detection machine in addition.

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