CN206875817U - A kind of multilayer self-loopa beverage water tank - Google Patents

Abstract

The utility model discloses a kind of multilayer self-loopa beverage water tank, including cabinet, the bottom of the cabinet is connected with supporting mechanism, and inside is accommodated with refrigeration mechanism, and top is provided with carriage mechanism；The tank of the equal open type in several upper ends is vertically laminated with the carriage mechanism, equal interval holding has input and output material gap between neighbouring two tank, the downward aqueduct that current are circulated downwards by natural force is turned between neighbouring two tank, the upward aqueduct for there are current to supply circulation by external force is connected between the tank of bottom and the tank of the top, wherein the external force supply of the aqueduct upwards is provided by the water circulating pump wherein accessed.The multiple tanks of the utility model are in integrally tower-like arranged stacked, not only space is small, and influenced each other between tank, unite in a less region, it is small with air contact surfaces, so current keeping temperature effect is more satisfactory, therefore not only low in energy consumption, energy saving, and cooling time is short, efficiency high, effect are good.

Description

A kind of multilayer self-loopa beverage water tank

Technical field

Case equipment technical field is the utility model is related to, more specifically a kind of multilayer self-loopa beverage water tank.

Background technology

Water tank, it is one kind among refrigerator series of products, as the term suggests it is by the way that hydrothermal exchange is cooled, then with cooling Water hammer afterwards is used for the product for refrigerating purpose, after the product cooling to refrigerating purpose, increases ice-cold mouthfeel and other effects.

Patent CN201020258320.4 describes a kind of freezing ice water cabinet device, including one group of water storage cabinet being in series, Endless apron is provided with the water storage cabinet, the water storage cabinet is connected with each other by pipeline, and each water storage bottom of cabinet portion is respectively equipped with Chilled water water inlet pipe, the chilled water water inlet pipe are connected with water inlet manifold, and the water inlet manifold is provided with and is connected with refrigerant Heat exchanger.

But it is in the layout of an entire row water storage cabinet, floor space is big, and space waste is serious.Above all its overall width It is wide with air contact to wide, so than very fast, more to arrive several water storage cabinet effects below more undesirable for frozen water heating, and then Energy consumption is wasted than more serious.

Utility model content

The purpose of this utility model is to overcome prior art disadvantages described above, there is provided a kind of simple in construction, floor space is small, Easily manufactured, cooling time is short, efficiency high, effect are good, most important low in energy consumption, the multilayer self-loopa beverage water tank of energy saving.

In order to reach object above, the utility model is achieved through the following technical solutions：A kind of multilayer self-loopa drink Expect that water tank, including cabinet, the bottom of the cabinet are connected with supporting mechanism, inside is accommodated with refrigeration mechanism, and top is provided with support Frame mechanism；Characterized in that, the tank of the equal open type in several upper ends is vertically laminated with the carriage mechanism, it is neighbouring Equal interval holding has input and output material gap between two tanks, and it is downward by natural force to be turned on current between neighbouring two tank Circulation downward aqueduct, between the tank of bottom and the tank of the top connect have current by external force supply circulation to Upper aqueduct, wherein the external force supply of the aqueduct upwards is provided by the water circulating pump wherein accessed；The refrigeration mechanism enters One step includes the compressor being linked in sequence, condenser, capillary and evaporator；The tank inner bottom part of bottom is accommodated with heat exchange Water pipe, water inlet is provided with the heat exchanging water pipe, the capillary and evaporator are crossed from water inlet and be arranged at the heat exchange In water pipe, the heat exchanging water pipe is connected with upward aqueduct.

The multiple tanks of the utility model are in integrally tower-like arranged stacked, and not only space is small, and between tank mutually Influence, unite in a less region, small with air contact surfaces, so current energy consumption is lost less, keeping temperature effect compares Ideal, therefore not only low in energy consumption, energy saving, and cooling time is short, efficiency high, effect are good.

Refrigeration mechanism pipeline is set：By the entrance of the outlet connection condenser of compressor, condensator outlet connection filter Entrance, the entrance of the outlet connection capillary of filter, the outlet of capillary is by entering heat exchanging water pipe with steaming after water inlet The entrance of hair device is connected, and the entrance for being connected to compressor is drawn in the outlet of evaporator from water inlet.

Preferably, the heat exchanging water pipe is also communicated with drainpipe and overflow pipe, wherein the overflow pipe is in H-shaped structure, And horizontal level where at the top of the arc of H-shaped is higher than horizontal level where the heat exchanging water pipe, horizontal level where the arc top of H-shaped Less than the top horizontal position of the tank of bottom, the first breather pipe is connected with the top of the overflow pipe.

The water of self-loopa needs timing to change, so needing to set up drainpipe.Overflow pipe is further needed exist for, prevents orlop The water of tank is overflowed, and overflow pipe is also used as natural cold water draining among following proposal.Breather pipe effect prevents current resorption.

Preferably, the tank of bottom is provided with filter mantle in the water inlet of heat exchanging water pipe.

Just in case there is impurity to fall into tank, to prevent the blocking of various water pipes and uniform fluid flow, so needing to set up filtering Cover.

Preferably, each tank is double-layer sandwich wall, insulation material is filled with double-layer sandwich wall.In order that Water temperature is kept, and prevents energy to be excessively lost in, so filling insulation material in flume wall.

Preferably, groove face gradually increases these tanks being vertically laminated from top to bottom, i.e., be vertically laminated these Tank is in integrally up-small and down-big tower structure.

In order that the chilled goods such as beverage can aspect take out, so by water trough design into up-small and down-big tower-like knot Structure, pick and place unobstructed.

Preferably, it is provided with the second breather pipe, the top gas outlet of second breather pipe at the top of aqueduct upwards Horizontal level is higher than the horizontal level where aqueduct peak upwards；The water side of upward aqueduct is also associated with being provided from so The water injection pipe of cold water injection, is provided with control valve at the water filling port of the water injection pipe.

Refrigeration system sometimes can be closed in order to save, is changed to be passed through underground water（Naturally ice-cold natural cold water）, from Right cold water enters from water injection pipe, then circulates to bottom tank, finally goes out from overflow pipe from downward aqueduct mistake successively, on one side While discharge, the heat in the process with beverage in water delivery tank cool to it, environmental protection saves again for input.Breather pipe effect prevents Current resorption.

Preferably, the tank of bottom is provided with water temperature temperature-sensing pipe on the wall of heat exchanging water pipe's water inlet side, Being provided with ice temperature-sensing pipe on evaporator tube wall in heat exchanging water pipe, the water temperature temperature-sensing pipe and change ice temperature-sensing pipe are connected respectively to On cabinet surface the water temperature temperature controller of control panel and change ice temperature controller on, the control panel also with compressor, water circulating pump It is connected with control valve.

Two kinds of mode of operations：（1）When opening compressor cooling pattern, refrigeration system and water circulating pump work automatically, natural Chilled water system is closed automatically.The refrigeration cold water of evaporator refrigeration in heat exchanging water pipe is provided by upward aqueduct by water circulating pump Power delivers to the tank of the superiors, then through downward aqueduct downward water guide step by step, enters moisture water pipe and water outlet distributive pipe provides Current proportionality action, circulate to undermost tank, be again introduced into heat exchanging water pipe and enter next circulation, during which, beverage is cold But.So far, temperature reaches highest when the cold water that freezes reaches heat exchanging water pipe's water inlet（Refrigeration cold water water inlet be heat exchange most End）, now the water temperature temperature-sensing pipe of its side detect temperature.Water temperature reaches design temperature, and water temperature temperature-sensing pipe detectable signal is anti- The water temperature temperature controller fed on control panel, shut down compressor and condensation fan, when water temperature rises to turn-on temperature, water temperature sense Warm pipe detectable signal feeds back to the water temperature temperature controller on control panel, compressor and condensation fan is started shooting.

（2）When opening nature cold water pattern, refrigeration system and water circulating pump are closed automatically, and natural chilled water system is opened automatically Open.Natural cold water is directly entered the tank of the superiors, then through downward aqueduct downward water guide step by step, enters moisture water pipe and water outlet Distributive pipe provides current proportionality action, circulates to undermost tank, enters back into heat exchanging water pipe, and is discharged from overflow pipe, Period, beverage cooling.So far, temperature reaches highest when natural cold water reaches heat exchanging water pipe's water inlet（Natural cold water is in water inlet Place is heat exchange least significant end）, now the water temperature temperature-sensing pipe of its side detect temperature.Water temperature reaches design temperature, water temperature temperature-sensitive Pipe detectable signal feeds back to the water temperature temperature controller on control panel, control valve is closed automatically and stops intaking, water temperature rises to During turn-on temperature, water temperature temperature-sensing pipe detectable signal feeds back to the water temperature temperature controller on control panel, make control valve automatically turn on and Intake again.

Change ice temperature controller effect in compressor cooling pattern：Settingization ice temperature-sensing pipe main function is on evaporator tube wall Deicing, it is to use mechanical temperature controller to change ice temperature controller, and temperature-sensing pipe is all elongated capillary, is easy to repair, electronic probe exists It is not placed into heat exchanging water pipe and also cannot take out, maintenance is very inconvenient.An ingress pipe is first welded on evaporator tube wall, is imported The imports end of pipe is drawn from the water inlet of heat exchanging water pipe, and the temperature of evaporator is detected in being easy to ice temperature-sensing pipe insertion ingress pipe Change.

When water temperature is low, evaporator can be frozen, and when ice knot is to certain thickness, evaporator is encased by ice, and cold air, which dissipates, not to be come out, and is made Evaporator temperature declines, and during evaporator temperature reaching ice temperature, change ice temperature-sensing pipe detectable signal is fed back on control panel Change ice temperature controller, shut down compressor and condensation fan, evaporator icing cold air takes away refrigeration, reaching ice by water circulating pump Purpose.After ice, when evaporator temperature rises to turn-on temperature, change ice temperature-sensing pipe detectable signal and feed back on control panel Change ice temperature controller, compressor and condensation fan is started shooting.

Preferably, the water intake end of the every aqueduct downwards is respectively connected with into moisture water pipe, every described to lead downwards The water side of water pipe and the water side of the aqueduct upwards are respectively connected with water outlet distributive pipe, either enter moisture water pipe still Some tapping holes being equally spaced are provided with the tube wall of water outlet distributive pipe, either enters moisture water pipe and still goes out moisture water Pipe is each perpendicular to its each self-corresponding aqueduct or downward aqueduct upwards；Every enters moisture water pipe and is respectively positioned on tank groove where it Deep middle part above position, position below the middle part of tank groove depth where every water outlet distributive pipe is respectively positioned on it.

In order to ensure that current are balanced in tank, situations such as flood is inhaled is not come out, i.e., compares concentration in some point position current, So to carry out a point water balance, moisture water pipe is accessed above downward aqueduct, picks out moisture water pipe below, current point are uniform Situation can also play the generation of anti-clogging situation.The water outlet distributive pipe of also downward aqueduct or upward aqueduct is located at water where it The bottom of groove, singing of the stream can be reduced so below water level, play the muting function of complete machine, the position for entering moisture water pipe is played calmly The effect of water level, also can not be very high, prevents water overflows from coming.

Preferably, neighbouring two downward aqueduct exists in same tank in shape of dividing right and left, i.e. these aqueducts On these tanks arrangement is moved towards in roundabout S-shaped.

The roundabout cabling of current so that current are suitably detained in tank, cool to beverage lifting for enough time.

Preferably, the carriage mechanism is the tank tower being located at outside these tanks, the top and left and right two of the tank tower Side is provided with clear glass wall, and front and rear sides are provided with clear glass sliding door.

Clear glass wall and clear glass sliding door are installed on tank tower, is on the one hand using or is being prevented in the case of Energy loss, on the other hand it is easy to user to observe internal beverage kind, is conveniently selected for it.

Beneficial effect：The multiple tanks of the utility model are in integrally tower-like arranged stacked, and not only space is small, and tank Between influence each other, unite in a less region, it is small with air contact surfaces, so current energy consumption loses few, keeping temperature Effect is more satisfactory, therefore not only low in energy consumption, energy saving, and cooling time is short, efficiency high, effect are good.

Brief description of the drawings

Fig. 1 is structural representation of the present utility model；

Fig. 2 is water circulation figure of the present utility model.

In figure：1- cabinets, 2- tanks, 3- input and output materials gap, the downward aqueducts of 4-, the upward aqueducts of 5-, 6- compressors, 7- Condenser, 8- capillaries, 9- evaporators, 10- heat exchanging water pipes, 11- water inlets, 12- drainpipes, 13- overflow pipes, 14- filter mantles, The breather pipes of 15- second, 16- water injection pipes, 17- control valves, 18- water temperature temperature-sensing pipes, 19- enter moisture water pipe, 20- universal wheels, 21- casees Frame, 22- water circulating pumps, the breather pipes of 23- first, 24- water outlet distributive pipes, 25-ization ice temperature-sensing pipe, 26- control panels.

Embodiment

In order that technological means of the present utility model, creation characteristic and reached purpose are readily apparent from understanding, below in conjunction with tool The utility model is expanded on further in body embodiment.

Embodiment：As depicted in figs. 1 and 2, a kind of multilayer self-loopa beverage water tank, including cabinet 1, cloth in the side wall of cabinet 1 Many heat emission holes are equipped with, heat emission hole keeps workpiece in case to radiate in time, increased the service life.And it is also equipped with cabinet 1 Controlling switch.

The bottom of cabinet 1 is connected with supporting mechanism, and supporting mechanism is four universal in the bottom four corners of cabinet 1 respectively Wheel 20, it is also support that universal wheel 20, which causes while whole water tank is moved easily, it is certainly contemplated that can have been selected to supporting role The universal wheel 20 of braking mechanism.

The top of cabinet 1 is provided with carriage mechanism, and carriage mechanism is the tank tower 21 being located at outside these tanks, tank tower 21 Top and the left and right sides are provided with clear glass wall, and front and rear sides are provided with clear glass sliding door.

The tank 2 of four equal open types in upper end is vertically laminated with tank tower 21, each tank 2 is double-layer sandwich wall, Insulation material is filled with double-layer sandwich wall, insulation material is foam.These tanks 2 being vertically laminated groove face from top to bottom Gradually increase, i.e., overall these tanks 2 being vertically laminated are in up-small and down-big tower structure.

Equal interval holding has input and output material gap 3 between neighbouring two tank 2, is turned between neighbouring two tank 2 There is the downward aqueduct 4 that current are circulated downwards by natural force, being connected between the tank 2 of bottom and the tank 2 of the top has Current supply the upward aqueduct 5 of circulation by external force, wherein the external force of upward aqueduct 5 supplies the recirculated water by wherein accessing Pump 22 provides.Neighbouring two downward aqueduct 4 is in shape of dividing right and left in same tank 2, i.e., these downward aqueducts 4 are at this On a little tanks 2 arrangement is moved towards in roundabout S-shaped.

The water intake end of every downward aqueduct 4 is respectively connected with into moisture water pipe 19, the water side of every downward aqueduct 4 with And the water side of aqueduct 5 is respectively connected with water outlet distributive pipe 24 upwards, either enters moisture water pipe 19 or water outlet distributive pipe 24 Tube wall on be provided with some tapping holes being equally spaced, either enter moisture water pipe 19 or water outlet distributive pipe 24 hang down Directly in its each self-corresponding aqueduct 4 upwards or downward aqueduct 5；Every enters moisture water pipe 19 and is respectively positioned on tank groove depth where it Middle part above position, every water outlet distributive pipe 24 is respectively positioned on position below the middle part of tank groove depth where it, preferably directes reach bottom Portion.

The inside of cabinet 1 is accommodated with refrigeration mechanism, and refrigeration mechanism further comprises thering is the compressor 6 being linked in sequence, condensation Device 7, capillary 8 and evaporator 9；Heat exchanging water pipe 10, heat exchanging water pipe are accommodated with the inner bottom part double-layer sandwich wall of tank 2 of bottom Water inlet 11 is provided with 10, water inlet 11 is on the bottom surface of the tank 2 of bottom, and capillary 8 and evaporator 9 are from water inlet 11 Cross and be arranged in heat exchanging water pipe 10, heat exchanging water pipe 10 is connected with upward aqueduct 5.The tank 2 of bottom is in heat exchanging water pipe 10 water inlet is provided with filter mantle 14.Water level graticule is provided with the tank 2 of bottom, water level graticule is less than overflow pipe 13, water level is determined by entering the highly automated of moisture water pipe 19 with upper flume 2.Evaporator 9 is arranged in heat exchanging water pipe 10 so that circulation Water and the heat exchange of evaporator 9 are more abundant.

Refrigeration mechanism pipeline is set：By the entrance of the outlet connection condenser 7 of compressor 6, the outlet of condenser 7 connection filtering The entrance of device, the entrance of the outlet connection capillary 8 of filter, the outlet of capillary 8 is by entering heat-exchanging water after water inlet 11 Pipe 10 is connected with the entrance of evaporator 9, and the entrance for being connected to compressor 6 is drawn in the outlet of evaporator 9 from water inlet 11.

Heat exchanging water pipe 10 is also communicated with drainpipe 12 and overflow pipe 13, and wherein overflow pipe 13 is in H-shaped structure, and the arc of H-shaped Horizontal level where top is higher than the place horizontal level of heat exchanging water pipe 10, and place horizontal level is less than bottom at the top of the arc of H-shaped Tank top horizontal position, the top of overflow pipe 13 is connected with the first breather pipe 23.

The top of upward aqueduct 5 is provided with the second breather pipe 15, the top gas outlet horizontal level of the second breather pipe 15 Higher than horizontal level where the upward peak of aqueduct 5；The water side of upward aqueduct 5 is also associated with being provided from right cold water injection Water injection pipe 16, control valve 17 is provided with the water filling port of water injection pipe 16.

The tank 2 of bottom is provided with water temperature temperature-sensing pipe 18 on the wall of the water inlet side of heat exchanging water pipe 10, is exchanging heat Being provided with ice temperature-sensing pipe 25 on the tube wall of evaporator 9 in water pipe 10, water temperature temperature-sensing pipe 18 and change ice temperature-sensing pipe 25 connect respectively On to the surface of cabinet 1 the water temperature temperature controller of control panel 26 and change ice temperature controller on, control panel 26 also with compressor 6, circulation Water pump 22 is connected with control valve 17.

Use：（1）When opening compressor cooling pattern, refrigeration system and water circulating pump work automatically, natural chilled water system It is automatic to close.Power is provided the refrigeration cold water of evaporator refrigeration in heat exchanging water pipe by water circulating pump by upward aqueduct to deliver to The tank of the superiors, then through downward aqueduct downward water guide step by step, enter moisture water pipe and water outlet distributive pipe to provide current balanced Effect, circulates to undermost tank, is again introduced into heat exchanging water pipe and enters next circulation, during which, beverage cooling.So far, Temperature reaches highest when refrigeration cold water reaches heat exchanging water pipe's water inlet（Refrigeration cold water is heat exchange least significant end in water inlet）, this When its side water temperature temperature-sensing pipe detect temperature.Water temperature reaches design temperature, and water temperature temperature-sensing pipe detectable signal feeds back to control Water temperature temperature controller on panel, shut down compressor and condensation fan, when water temperature rises to turn-on temperature, the detection of water temperature temperature-sensing pipe Signal feeds back to the water temperature temperature controller on control panel, compressor and condensation fan is started shooting.

（2）When opening nature cold water pattern, refrigeration system and water circulating pump are closed automatically, and natural chilled water system is opened automatically Open.Natural cold water is directly entered the tank of the superiors, then through downward aqueduct downward water guide step by step, enters moisture water pipe and water outlet Distributive pipe provides current proportionality action, circulates to undermost tank, enters back into heat exchanging water pipe, and is discharged from overflow pipe, Period, beverage cooling.So far, temperature reaches highest when natural cold water reaches heat exchanging water pipe's water inlet（Natural cold water is in water inlet Place is heat exchange least significant end）, now the water temperature temperature-sensing pipe of its side detect temperature.Water temperature reaches design temperature, water temperature temperature-sensitive Pipe detectable signal feeds back to the water temperature temperature controller on control panel, control valve is closed automatically and stops intaking, water temperature rises to During turn-on temperature, water temperature temperature-sensing pipe detectable signal feeds back to the water temperature temperature controller on control panel, make control valve automatically turn on and Intake again.

Claims (10)

1. a kind of multilayer self-loopa beverage water tank, including cabinet, the bottom of the cabinet are connected with supporting mechanism, inside is accommodated with Refrigeration mechanism, top are provided with carriage mechanism；Characterized in that, it is equal that several upper ends are vertically laminated with the carriage mechanism The tank of open type, interval holding has input and output material gap between neighbouring two tank, is connect between neighbouring two tank The downward aqueduct that current are circulated downwards by natural force is connected with, being connected between the tank of bottom and the tank of the top has water Stream supplies the upward aqueduct of circulation by external force, wherein the external force of the aqueduct upwards supplies the recirculated water by wherein accessing Pump provides；The refrigeration mechanism further comprises thering is the compressor being linked in sequence, condenser, capillary and evaporator；Bottom Tank inner bottom part be accommodated with heat exchanging water pipe, be provided with water inlet on the heat exchanging water pipe, the capillary and evaporator are from entering The mouth of a river is crossed and is arranged in the heat exchanging water pipe, and the heat exchanging water pipe is connected with upward aqueduct.

2. multilayer self-loopa beverage water tank according to claim 1, it is characterised in that the heat exchanging water pipe also row of being communicated with Water pipe and overflow pipe, wherein the overflow pipe is in H-shaped structure, and horizontal level where at the top of the arc of H-shaped is higher than the heat-exchanging water Horizontal level where pipe, the first breather pipe is connected with the top of the overflow pipe.

3. multilayer self-loopa beverage water tank according to claim 1, it is characterised in that the tank of bottom is in heat exchanging water pipe Water inlet be provided with filter mantle.

4. the multilayer self-loopa beverage water tank according to claim 1 or 2 or 3, it is characterised in that each tank is bilayer Sandwich wall, insulation material is filled with double-layer sandwich wall.

5. multilayer self-loopa beverage water tank according to claim 1, it is characterised in that these tanks being vertically laminated from Groove face is up to descended gradually to increase, i.e., these tanks being vertically laminated are in integrally up-small and down-big tower structure.

6. multilayer self-loopa beverage water tank according to claim 1, it is characterised in that be provided with the top of upward aqueduct Second breather pipe, the top gas outlet horizontal level of second breather pipe are horizontal higher than where the aqueduct peak upwards Position；The water side of upward aqueduct is also associated with being provided from the water injection pipe of right cold water injection, is set at the water filling port of the water injection pipe It is equipped with control valve.

7. multilayer self-loopa beverage water tank according to claim 6, it is characterised in that the tank of bottom is in heat exchanging water pipe Water temperature temperature-sensing pipe is provided with the wall of water inlet side, being provided with ice temperature-sensitive on the evaporator tube wall in heat exchanging water pipe Pipe, the water temperature temperature-sensing pipe and change ice temperature-sensing pipe are connected respectively to the water temperature temperature controller of control panel on cabinet surface and change ice temperature Control on device, the control panel is also connected with compressor, water circulating pump and control valve.

8. multilayer self-loopa beverage water tank according to claim 1, it is characterised in that the every aqueduct downwards enters Water end (W.E.) is respectively connected with into moisture water pipe, and the water side of the every water side of aqueduct downwards and the aqueduct upwards is equal Water outlet distributive pipe is connected with, either enters and some be equally spaced is provided with the tube wall of moisture water pipe or water outlet distributive pipe Tapping hole, either enter moisture water pipe or water outlet distributive pipe be each perpendicular to its each self-corresponding aqueduct upwards or led downwards Water pipe；The every middle part above position for entering tank groove depth where moisture water pipe is respectively positioned on it, every water outlet distributive pipe are respectively positioned on it Position below the middle part of place tank groove depth.

9. the multilayer self-loopa beverage water tank according to claim 1 or 8, it is characterised in that neighbouring two downward water guide Pipe moves towards arrangement on these tanks in shape of dividing right and left, i.e. these downward aqueducts in same tank in roundabout S-shaped.

10. multilayer self-loopa beverage water tank according to claim 1, it is characterised in that the carriage mechanism is to be located at Tank tower outside these tanks, the top and the left and right sides of the tank tower are provided with clear glass wall, and front and rear sides are respectively provided with There is clear glass sliding door.