CN217852455U - Accuse temperature base and drink machine - Google Patents

Abstract

The utility model provides a accuse temperature base and drink machine, the drink machine includes the drink bucket, and accuse temperature base includes: a base body; the at least two placing positions are arranged on the seat body and used for placing the beverage barrel; refrigeration subassembly corresponds two at least places the position setting, can refrigerate placing the drink machine on the position at arbitrary. The utility model provides a accuse temperature base has set up two at least places positions on same pedestal, also can hold two at least drink barrels simultaneously, and each drink barrel all corresponds and is provided with the refrigeration subassembly, like this at the in-process of preparing the drink, can cool down a plurality of drink barrels simultaneously through a plurality of refrigeration subassemblies, just so avoided a accuse temperature base of a plurality of drink barrels sharing, lead to drinking up when a certain barrel of drink, a barrel temperature has not yet fallen to the condition of target temperature in addition.

Description

Accuse temperature base and drink machine

Technical Field

The utility model relates to a drink is stored, the fermentation field particularly, relates to a accuse temperature base and drink machine.

Background

The beverage barrel used by the temperature control base has higher requirements on temperature in the process of brewing and storing beverages, and if the beverage barrel cannot effectively preserve heat and control the temperature, the flavor of the beverages can be greatly reduced, so that how to ensure that the beverage barrel can effectively preserve heat in the process of brewing and storing the beverages is very important. At present, in order to practice thrift cost and space, can adopt the scheme of a accuse temperature base of a plurality of drink barrels sharing, after the cooling of accomplishing a drink barrel, can cool down to another drink barrel, but this kind of scheme can not keep warm to the drink barrel that has accomplished the cooling immediately, has when a certain barrel drink drinks the circumstances that another barrel temperature has not yet fallen to the target temperature after, influences the drink taste.

Therefore, how to design a temperature control base capable of cooling a plurality of drink barrels simultaneously becomes a problem to be solved urgently at present.

SUMMERY OF THE UTILITY MODEL

The present invention aims at least solving one of the technical problems existing in the prior art or the related art.

Therefore, it is an object of the present invention to provide a temperature-controlled base.

An object of the sixth aspect of the utility model is to provide a beverage machine.

The utility model discloses technical scheme of the first aspect provides a accuse temperature base for refrigerate the drink bucket, accuse temperature base includes: a base body; the at least two placing positions are arranged on the seat body and used for placing the beverage barrel; the refrigeration subassembly corresponds two at least places the position setting, can refrigerate the drink bucket of placing on arbitrary position.

The temperature control base provided by the utility model is used for a beverage machine, the beverage machine comprises a beverage barrel, the temperature control base comprises a base body, at least two placing positions and a refrigerating assembly, and the placing positions are all arranged on the base body and used for placing the beverage barrel; the quantity of refrigeration subassembly also is at least two, with place a one-to-one setting, can refrigerate the drink bucket of placing on arbitrary position. The utility model provides a accuse temperature base has set up two at least places positions on same pedestal, also can hold two at least drink barrels simultaneously, and each drink barrel all corresponds and is provided with the refrigeration subassembly, in-process at the preparation drink like this, can cool down a plurality of drink barrels simultaneously through a plurality of refrigeration subassemblies, just so avoided current accuse temperature base, accuse temperature base of a plurality of drink barrels sharing, lead to drinking up when a certain bucket drink, the condition that target temperature has not been fallen to another bucket temperature yet.

In the above technical solution, the placing bits include: the limiting groove, the drink barrel can be installed in the limiting groove in a limiting mode.

In this technical scheme, place the position including the spacing groove, the drink bucket can be spacing to be installed in the spacing inslot, can guarantee like this that the drink bucket is difficult for empting. Meanwhile, the beverage barrel is installed in the limiting groove in a limiting mode and can automatically contact with the refrigerating assembly, the relative position of the refrigerating assembly and the beverage barrel does not need to be matched again, and refrigerating efficiency is improved. The limiting groove can be a groove structure of a downward groove of the base body, and can also be a groove surrounded by the limiting structure base bodies such as a limiting block and a limiting protrusion.

In above-mentioned technical scheme, refrigeration component is located the one side of placing the position, and it still includes to place the position: the inclined plane, inclined plane extend by keeping away from one side of refrigeration subassembly to the one side slope of being close to the refrigeration subassembly gradually, and the drink bucket is placed and is being put the position back, can follow the slope to the refrigeration subassembly slope and with the laminating of refrigeration subassembly.

In this technical scheme, refrigeration component is located the one side of placing the position, places the position and still includes the inclined plane, and the inclined plane is inclined to the laminating with refrigeration component along the inclined plane by keeping away from one side of refrigeration component to the one side that is close to refrigeration component slope extension gradually, like this when the drink barrel places and places the back on placing the position. Through setting up the inclined plane, can guarantee like this that the drink bucket places after putting the position, under the effect of gravity, the drink bucket has to the gliding trend of refrigeration subassembly direction, can guarantee like this that drink bucket and refrigeration subassembly closely laminate, solve drink bucket and refrigeration subassembly laminating effect not good, lead to the problem that refrigeration efficiency reduces.

In the above technical solution, the temperature control base further includes: at least two temperature sensing devices are arranged corresponding to the at least two placing positions one to one and used for detecting the temperature of the drink barrel placed on the placing positions.

In this technical scheme, accuse temperature base still includes two at least temperature sensing devices, and the temperature sensing device is the same with the quantity of placing the position that also, and each temperature sensing device and each place the position one-to-one setting for detect the temperature of placing the drink bucket on placing the position. The temperature that detects through the temperature sensing device, can send to controlling means, controlling means is connected with temperature sensing device and refrigeration subassembly respectively, can be according to the temperature of the cask that the temperature sensing device detected, control refrigeration subassembly open or close, detect the temperature of placing the cask on the position through the temperature sensing device like this, after the temperature of cask is higher than preset temperature, show that the drink in the cask needs the cooling, the step of cooling is carried out in opening of the refrigeration subassembly that this cask of control that controlling means can be timely corresponds like this, after the cooling is accomplished, control closing of the refrigeration subassembly that this cask corresponds, the completion is cooled, and keep warm to the cask.

In the above technical solution, the temperature control base further comprises: at least two induction system, the one-to-one setting is placed on the position at least two for whether the drink bucket has been placed on the detection is placed the position.

In this technical scheme, accuse temperature base still includes two at least induction system, and it is the same with the quantity of placing the position that induction system also, each induction system and each place a position one-to-one setting for whether place the drink bucket on the detection place. The sensing device can be connected with the control device, so that the control device can control the opening or closing of the refrigeration assembly corresponding to the sensing device according to the sensing result of the sensing device. Whether place through induction system detection and place the position and placed the cask like this, when placing and placing the cask on the position, the step of cooling is carried out in opening of the refrigeration component that this cask of control device control corresponds, just so need not the manual refrigerating plant that opens of user, has satisfied user's demand.

In the technical scheme, the refrigeration assembly comprises at least two refrigeration pieces and at least two control loops for controlling the at least two refrigeration pieces in a one-to-one correspondence manner; the induction device comprises a microswitch which is connected to the control loop, when the drink barrel is placed on the placing position, the microswitch can be closed to close the control loop, and after the drink barrel is moved away from the placing position, the microswitch is opened to disconnect the control loop; or the sensing means comprises pressure detection means capable of opening and closing the control circuit based on the detected pressure.

In this technical scheme, induction system is including the micro-gap switch who connects at control circuit, and micro-gap switch places on the surface of placing the position, and when the drink bucket was placed on placing the position, micro-gap switch can be closed under the pressure of drink bucket to this alright control circuit intercommunication makes refrigeration subassembly can open the refrigeration. Otherwise, the micro switch is disconnected, and the corresponding control loop is also disconnected, so that the refrigeration assembly cannot be started for refrigeration. Of course, the sensing device can also be a pressure detection device, so that the on-off of the control loop can be controlled through the detected pressure, and whether the refrigeration assembly can be opened or closed or not is controlled. This kind of setting, when the drink bucket was not placed on the station, induction system can the disconnection control circuit, also this application is through having set up induction system such as micro-gap switch at control circuit, can avoid user's maloperation like this, just opens refrigeration plant and has caused energy loss's problem under the condition that does not place the drink bucket, can also avoid refrigeration subassembly and human contact, causes frostbite etc. to the personnel.

Further, refrigeration subassembly and at least two place the position one-to-one setting, accuse temperature base still includes: the at least two power supply circuits are used for supplying power to the at least two refrigeration components in a one-to-one correspondence manner; and the at least two self-locking switches are arranged on the at least two power supply circuits in a one-to-one correspondence manner and are used for being opened when the beverage barrels are not placed on the placing positions so as to disconnect the power supply circuits.

In the above technical scheme, refrigeration subassembly includes: at least two semiconductor refrigeration plant, with at least two places the position one-to-one setting, semiconductor refrigeration plant includes semiconductor refrigeration component and heat abstractor, semiconductor refrigeration component can with place the drink bucket contact on placing the position to place the drink bucket on placing the position and refrigerate.

In this technical scheme, the refrigeration subassembly includes two at least semiconductor refrigeration plant, and further, semiconductor refrigeration plant is unanimous with the quantity of placing the position, and every semiconductor refrigeration plant with place the position one-to-one setting, semiconductor refrigeration plant includes semiconductor refrigeration component and heat abstractor, semiconductor refrigeration component can with place the drink bucket contact on placing the position to place the drink bucket on placing the position and refrigerate. According to the semiconductor refrigeration device, the semiconductor refrigeration device is used as a refrigeration element, namely, the Peltier effect of the semiconductor material is utilized, when direct current passes through a couple formed by connecting two different semiconductor materials in series, heat can be absorbed and released at two ends of the couple respectively, the purpose of refrigeration can be achieved, a refrigerant is not needed, the environment pollution caused by the refrigerant is avoided, meanwhile, the semiconductor refrigeration device is used as the refrigeration element, no moving part is arranged in the whole refrigeration process, and the reliability is higher.

In the above technical scheme, refrigeration subassembly includes: the compressor refrigeration equipment comprises at least one condenser and at least two evaporators, wherein the number of the evaporators is at least two, and the evaporators are arranged in one-to-one correspondence with at least two placing positions; the evaporator can exchange heat from the drink barrel on the placing position; the refrigeration loop comprises a first loop and/or a second loop, wherein the first loop and/or the second loop are/is provided with at least two evaporators.

In this technical scheme, refrigeration assembly includes compressor refrigeration plant, and compressor refrigeration plant includes at least one condenser and two at least evaporimeters, and further, the evaporimeter is unanimous with the quantity of placing the position, and every evaporimeter with place the position one-to-one setting. The evaporator can exchange heat from a drink barrel placed on the placing position, and in the scheme, the refrigeration system can be ensured to be stable by taking the compressor refrigeration equipment as a refrigeration element, so that the energy consumption is low, and the refrigeration effect is good. Meanwhile, the condenser and the at least two evaporators are connected into at least two refrigeration circuits, and specifically, the refrigeration circuits may include first circuits in which the condenser and the evaporator are disposed in one-to-one correspondence. Of course, the refrigeration circuit may also comprise a second circuit in which the condenser is provided with at least two evaporators.

In the above technical solution, the temperature control base further comprises: and the heat dissipation device is arranged corresponding to the refrigeration assembly so as to dissipate heat of the condenser.

In this technical scheme, accuse temperature base still includes heat abstractor, corresponds the setting with refrigeration subassembly, carries out refrigerated in-process at refrigeration subassembly like this, and heat abstractor can dispel the heat to refrigeration subassemblies such as condensers, can avoid refrigeration subassembly's high temperature and damage like this, can guarantee the life-span of refrigeration subassembly.

In the above technical solution, the temperature control base further comprises: the operation display panel is arranged on the temperature control base and/or the drink barrel and used for receiving operation information to control the work of the temperature control base and display the information.

In the technical scheme, the temperature control base further comprises an operation display panel. The operation display panel is generally arranged on the temperature control base, and can be arranged on the drink barrel. Operation display panel is used for receiving operation information to the work of control temperature control base, for example, the start-stop work, the temperature measurement etc. of control temperature control base. Meanwhile, the operation display panel can also be used for displaying information such as working state, temperature and the like.

Further, the operation display panel further includes: and the instruction generating device is used for sending a working instruction for controlling one refrigerating assembly to work or controlling a plurality of refrigerating assemblies to work simultaneously. Such as control buttons, etc. The user can accomplish the cooling of drink through manual triggering or through control system automatic triggering refrigeration instruction.

In the technical scheme, the number of the placing positions and the refrigerating assemblies is 2-6, so that the number of the placing positions and the refrigerating assemblies is too large, the weight of the beverage machine is increased, the number of the placing positions and the refrigerating assemblies can be too low, and the requirements of users cannot be met.

In above-mentioned technical scheme, the pedestal includes: a chassis; the upright columns are arranged on the chassis and form at least two placing positions with the chassis in a surrounding way; refrigeration subassembly includes and places a plurality of refrigeration portions that the position one-to-one set up with at least two, and the drink bucket is placed and is being placed the back on the position, can contact with refrigeration portion.

In this technical scheme, the pedestal includes stand and chassis, is provided with two at least places positions on the chassis, and the refrigeration subassembly sets up on the stand, and the drink bucket is placed after placing on the position, and the drink bucket can just so refrigerate the drink bucket through the refrigeration subassembly with the refrigeration subassembly contact on the stand, and the stand can also support the drink bucket simultaneously, avoids the drink bucket to empty. Further, the chassis can incline to set up and constitute the inclined plane, and the drink bucket can slide to the stand orientation under the effect of gravity after placing the position like this for the drink bucket can with the refrigeration subassembly in close contact with on the stand, guaranteed refrigeration efficiency.

In the above technical solution, the temperature control base further comprises: the controller is used for adjusting the refrigeration conditions of at least two placing positions according to the temperature of the drink barrel placed on the placing position and the placing conditions of the drink barrel placed on the placing position: the refrigerating capacity of the placing position with the temperature less than or equal to the set temperature value is reduced, and the refrigerating capacity of the placing position with the temperature greater than the set temperature value is increased; and/or the refrigerating capacity of the placing positions with the temperature higher than the set temperature value in other placing positions is increased when the placing positions are detected to be empty; when being used for detecting to place newly placing the drink bucket on the position, reduce other refrigeration capacities of placing the position.

In this technical scheme, the controller specifically is used for according to the temperature of placing the drink bucket on the position to and whether the drink bucket on placing the position has the refrigeration capacity of synthesizing the regulation and control on each placing the position, also the controller can be based on actual conditions to rationally adjust the refrigeration condition of every placing the position, in order to realize different placing the position, based on the difference distribution of the different refrigeration capacities of refrigeration demand. For example, for the drink bucket that the temperature has reduced to the settlement temperature value, can reduce the refrigeration capacity to placing the position, simultaneously, increase the refrigeration capacity of placing the position that other temperatures are still than higher to this can avoid the transition refrigeration, also can ensure the refrigeration effect of other positions. For another example, the cold quantity of the place where the drink barrel is taken away can be closed, and the cold quantity of other places with higher temperature can be increased. Or, if the placed beverage barrel is newly detected, the refrigerating capacity of other refrigerating positions can be reduced, so that some refrigerating capacity can be homogenized to realize the refrigeration of the newly placed beverage barrel. The intelligent automatic regulation and control of the refrigerating capacity can be realized through the controller, the waste of the refrigerating capacity is avoided, and the refrigerating effect is improved, so that the user experience is improved.

The utility model discloses the second aspect provides a drink machine, include: a temperature-controlled base according to any one of the first aspect of the present application; one or more drink barrels, each drink barrel can be placed on any place.

In the above technical scheme, the drink bucket includes: the feeding port is arranged at the upper end of the drink barrel and used for feeding drink raw materials; the liquid outlet is arranged at the lower end of the drink barrel and used for discharging drinks; and the gas inlet is arranged at the upper end of the drink barrel, is connected with a gas source of fermentation gas and is used for inputting the fermentation gas into the drink barrel.

In this technical scheme, the drink bucket includes: the feeding port is arranged at the upper end of the drink barrel and used for feeding drink raw materials; the liquid outlet is arranged at the lower end of the beverage barrel and is used for discharging cooled beverage; the gas inlet is arranged at the upper end of the drink barrel, is connected with a gas source of fermentation gas and is used for inputting the fermentation gas into the drink barrel.

Further, the beverage machine also comprises an aeration component. The gas charging component comprises a gas charging connector and a gas source, the gas charging connector is arranged on the drink barrel and is communicated with the inside of the drink barrel, and the gas source and the gas charging connector can be detachably connected so as to charge gas into the drink barrel through the gas charging connector.

In the technical scheme, the gas charging assembly is mainly used for charging gas required by fermentation, preservation or seasoning into the beverage barrel, for example, for a beer machine, the gas can be charged to construct fermentation conditions required by beer fermentation.

Further, the beverage machine also comprises a sterilization and cleaning component. The sterilization cleaning component is used for conveying sterilization cleaning media into the beverage barrel so as to sterilize and clean the interior of the beverage barrel. The sterilization and cleaning treatment herein specifically includes one or more of sterilization, disinfection, cleaning, drying, and the like. The automatic sterilization of the beverage barrel can be realized through the sterilization cleaning assembly, so that the cleanliness of the fermentation environment can be improved, and the success rate of fermentation is improved.

Specifically, the beverage machine further comprises a liquid discharging assembly, an air feeding assembly and the like which are connected with the beverage barrel. The sterilization cleaning component can also be connected with the liquid discharge component, the air supply component and the like so as to sterilize and disinfect the liquid discharge component, the air supply component and the like, thereby ensuring the cleanliness of the fermentation barrel. The cleaning assembly can be used for sterilizing, cleaning and drying the beverage barrel according to different positions, and the fermentation of the raw materials is carried out in the beverage barrel, so that more residues exist in the beverage barrel, and the beverage barrel is required to be sterilized, cleaned and dried.

Further, the sterilizing and cleaning assembly comprises: the steam generator is used for inputting steam into the beverage barrel; or the ozone generator is connected with the drink barrel and is used for inputting ozone into the drink barrel for sterilization; or an ion generator connected with the drink barrel for ion sterilization.

In this technical scheme, disinfect and wash the subassembly including steam generator, ozone generator or ion generator, and then disinfect and wash the subassembly and can carry out steam sterilization, ozone sterilization or ion sterilization, specifically, ozone generator or ion generator are connected with the gas transmission subassembly to in passing through gas transmission subassembly gas transmission with ozone or ion substitution to corresponding part, steam generator and infusion subassembly are connected, and then the infusion subassembly can think the steam generator infusion, in order to produce steam.

Further, the beverage machine still includes refrigeration heating device to heat or refrigerate the drink bucket, in order to make things convenient for the drink bucket to ferment or refrigerate the drink bucket.

Wherein, the beverage machine includes beverage fermentation machine, beverage refrigerator, and this beverage machine both can be used to refrigerate promptly, also can be used to the fermentation.

The utility model also provides a control method of drink machine for the drink machine, the drink machine includes if this application first aspect arbitrary technical scheme's accuse temperature base with can place and carry out refrigerated drink bucket on accuse temperature base, the control method of drink machine includes, when detecting the cooling instruction, if detect arbitrary placing position and placed the drink bucket, and the temperature of drink bucket is greater than preset temperature, starts the refrigeration step.

According to the utility model provides a control method of drink machine, at first, drink machine includes this application first aspect arbitrary technical scheme's accuse temperature base and can place and carry out refrigerated drink bucket on accuse temperature base, and control method includes: after the refrigeration instruction is received, if the beverage barrel is placed on any one of the placing positions and the temperature of the beverage barrel is higher than the preset temperature, the refrigeration step is started. Because the control method of the beverage machine provided by the application is applied to the beverage machine, and the beverage machine comprises the temperature control base provided by any one of the technical schemes in the first aspect of the application, the control method of the beverage machine provided by the application has all the beneficial effects of the temperature control base provided by any one of the technical schemes in the first aspect of the application, and is not repeated herein.

In the above technical solution, the control method of the beverage maker further includes: when no drink barrel is placed on the placing position, the refrigeration circuit corresponding to the placing position is powered off.

In this technical scheme, when not placing the drink bucket on placing the position, make and place the refrigeration circuit outage that the position corresponds, can avoid causing the waste of the energy like this in timely outage after taking off the drink bucket.

In the above technical solution, the refrigeration step specifically includes: when the temperature of the drink barrel is higher than the preset temperature, a refrigeration loop corresponding to the drink barrel is opened to refrigerate the drink barrel; and when the temperature of the drink barrel is less than or equal to the preset value, closing the refrigeration loop corresponding to the drink barrel to stop refrigerating the drink barrel.

In this technical scheme, when the temperature of drink bucket is greater than when presetting the temperature, open the refrigeration circuit that the drink bucket corresponds, the subassembly that refrigerates like this can refrigerate the drink bucket, when the temperature of drink bucket is less than or equal to the default, explains that refrigerates and accomplishes, closes the refrigeration circuit that the drink bucket corresponds this moment to stop refrigerating the drink bucket.

The utility model also provides a controlling means of drink machine, include: the detection unit is used for detecting whether the beverage barrel is placed on the placing station; the temperature judging unit is used for judging whether the temperature of the drink barrel is greater than a preset temperature or not; and the refrigeration control unit is used for placing the beverage barrel on the placing station, and controlling the refrigeration assembly to refrigerate the beverage barrel when the temperature of the beverage barrel is greater than the preset temperature.

According to the utility model provides a controlling means of drink machine, include: the device comprises a detection unit, a temperature judgment unit and a refrigeration control unit, wherein the detection unit is used for detecting whether a beverage barrel is placed on a placing station; the temperature judging unit is used for judging whether the temperature of the drink barrel is greater than a preset temperature or not; the refrigeration control unit is used for placing the beverage barrel on the placing station, and when the temperature of the beverage barrel is greater than the preset temperature, the refrigeration assembly is controlled to refrigerate the beverage barrel. Because the control device of the beverage machine provided by the application is the control device corresponding to the control method of the beverage machine provided by the application in the second aspect, the control device of the beverage machine provided by the application has all the beneficial effects of the control method of the beverage machine provided by the application, and the description is omitted here.

The utility model also provides a controlling means of drink machine, including memory and treater, the storage has program or instruction on the memory, and program or instruction are carried out by the treater, realize the step of this application second aspect arbitrary drink preparation method.

The utility model also provides a readable storage medium, has stored thereon program or instruction, and program or instruction when being executed by the processor realize the step of this application second aspect's any one of the control method of beverage machine.

Additional aspects and advantages of the invention will be set forth in part in the description which follows, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1 is a schematic structural view of a temperature-controlled base according to an embodiment of the present invention;

fig. 2 is another schematic structural diagram of a portion of a temperature-controlled base according to an embodiment of the present invention;

fig. 3 is a schematic structural view of a beverage machine according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a beverage barrel of the beverage machine according to an embodiment of the present invention;

fig. 5 is a schematic structural view of a beverage machine according to an embodiment of the present invention;

fig. 6 is a schematic structural view of a temperature controlled base according to another embodiment of the present invention;

fig. 7 is a schematic view of a partial structure of a temperature controlled base according to an embodiment of the present invention;

fig. 8 is a schematic diagram of a local circuit control of a beverage machine according to another embodiment of the present invention.

Wherein, the correspondence between the reference numbers and the component names in fig. 1 to 8 is:

the temperature control device comprises a temperature control base 1, a base body 11, a base plate 112, a column 114, a placement position 116, a refrigeration component 12, an evaporator 122, a compressor 124, a condenser 126, a semiconductor refrigeration element 128, a temperature sensing device 13, a sensing device 14, a heat dissipation device 15, a first control valve 16A, a second control valve 16B, a third control valve 16C, a beverage barrel 2, a feeding port 22 and an air inlet 24.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention more clearly understood, the present invention will be described in further detail with reference to the accompanying drawings and specific embodiments. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and therefore the scope of the present invention is not limited by the specific embodiments disclosed below.

Example one

As shown in fig. 1 to fig. 3, the present embodiment provides a temperature control base 1 for a beverage machine, the beverage machine includes a beverage barrel 2, the temperature control base 1 includes: a base body 11; at least two placing positions 116 arranged on the seat body 11 and used for placing the beverage barrel 2; the refrigeration component 12, corresponding to at least two places 116 settings, can refrigerate the drink machine placed on any place 116. Further, the refrigeration assembly 12 includes a compressor refrigeration device, the compressor refrigeration device includes at least one condenser 126 and at least two evaporators 122, further, the number of the evaporators 122 is the same as that of the placement positions 116, and each of the evaporators 122 is disposed in one-to-one correspondence with the placement position 116. The evaporator 122 is capable of exchanging heat from the beverage container 2 placed on the placing position 116. Meanwhile, the condenser 126 and the at least two evaporators 122 are connected to form at least two refrigeration circuits, and specifically, the refrigeration circuit may include first circuits in which the condenser 126 and the evaporators 122 are disposed in one-to-one correspondence. Of course, the refrigeration circuit may also comprise a second circuit in which at least two evaporators 122 are provided in correspondence of the condenser 126.

The temperature control base 1 provided by the embodiment is used for a beverage machine, the beverage machine comprises a beverage barrel 2, the temperature control base 1 comprises a base body 11, at least two placing positions 116 and a refrigerating assembly 12, and the placing positions 116 are arranged on the base body 11 and used for placing the beverage barrel 2; the quantity of refrigeration component 12 also is at least two, with place position 116 one-to-one setting, can place the drink bucket 2 on arbitrary place position 116 and refrigerate. The utility model provides a accuse temperature base 1 has set up two at least places position 116 on same pedestal 11, also can hold two at least drink barrels 2 simultaneously, and each drink barrel 2 all corresponds and is provided with refrigeration component 12, in-process at the preparation drink like this, can cool down a plurality of drink barrels 2 simultaneously through a plurality of refrigeration components 12, just so avoided current accuse temperature base 1, a accuse temperature base of a plurality of drink barrels 2 sharing, lead to drinking up when a certain barrel drink, the condition that target temperature has not been fallen to another barrel temperature yet. In the scheme, the compressor refrigeration equipment is used as a refrigeration element, so that the stability of a refrigeration system can be ensured, the energy consumption is low, and the refrigeration effect is good.

In this embodiment, as shown in fig. 7, the placing position 116 includes a limiting groove, and the beverage barrel 2 can be limited and installed in the limiting groove, so that the beverage barrel 2 is not easy to topple. Meanwhile, the beverage barrel 2 is installed in the limiting groove in a limiting mode, can be automatically contacted with the refrigerating assembly 12, does not need to be matched with the relative position of the refrigerating assembly 12 and the beverage barrel 2 again, and improves refrigerating efficiency. Of course, the placing position 116 may also include a limiting structure such as a limiting block and a limiting protrusion, that is, the beverage barrel 2 is quickly limited by the limiting block and the limiting protrusion, so that the beverage barrel 2 can be ensured to be in close contact with the refrigeration component 12.

In this embodiment, as shown in fig. 1 and 3, the refrigeration component 12 is located one side of the placing position 116, and the placing position 116 further includes an inclined surface, and the inclined surface is gradually reduced from one side far away from the refrigeration component 12 to one side close to the refrigeration component 12, so that when the beverage barrel 2 is placed on the placing position 116, the inclined surface can slide to be attached to the refrigeration component 12. Through setting up the inclined plane, can guarantee like this that drink bucket 2 places after placing position 116, under the effect of gravity, drink bucket 2 has the gliding trend to refrigeration subassembly 12 direction, can guarantee like this that drink bucket 2 closely laminates with refrigeration subassembly 12, and it is not good to solve drink bucket 2 and refrigeration subassembly 12 laminating effect, leads to the problem that refrigeration efficiency reduces.

In this embodiment, the temperature control base 1 further includes at least two temperature sensing devices 13 and a control device, that is, the number of the temperature sensing devices 13 is the same as that of the placing positions 116, and each temperature sensing device 13 is arranged corresponding to each placing position 116 one to one, and is used for detecting the temperature of the beverage barrel 2 placed on the placing position 116; controlling means is connected with temperature sensing device 13 and refrigeration component 12 respectively, can be according to the 2 temperatures of drink bucket that temperature sensing device 13 detected, control opening or closing of refrigeration component 12, like this through temperature sensing device 13 detection place on position 116 drink bucket 2's temperature, after drink bucket 2's temperature is higher than preset temperature, indicate that the drink in drink bucket 2 needs the cooling, the step of cooling is carried out in opening of the refrigeration component 12 that this drink bucket 2 of controlling means can be timely corresponds like this, after the cooling is accomplished, control closing of the refrigeration component 12 that this drink bucket 2 corresponds, accomplish the cooling.

In this embodiment, as shown in fig. 2 and 7, the temperature-controlled base 1 further includes: at least two sensing devices 14 and control devices, that is, the sensing devices 14 and the placing positions 116 are the same in number, and each sensing device 14 and each placing position 116 are arranged in a one-to-one correspondence manner and used for detecting whether the beverage barrel 2 is placed on the placing position 116; the control device is respectively connected with the sensing device 14 and the refrigeration assembly 12, and can control the refrigeration assembly 12 corresponding to the sensing device 14 to be opened or closed according to the sensing result of the sensing device 14. Whether place drink bucket 2 on the position 116 through induction system 14 detection like this, when placing drink bucket 2 on the position 116, the step of cooling down is carried out in opening of the refrigeration subassembly 12 that this drink bucket 2 of control device control that can be timely corresponds, just so need not the manual refrigerating plant that opens of user, has satisfied user's demand.

In this embodiment, as shown in fig. 8, the sensing device 14 includes a micro switch, and the micro switch is placed on the surface of the placing position 116, and when the drink barrel 2 is placed on the placing position 116, the micro switch can be closed under the pressure of the drink barrel 2, so that it can be detected whether the drink barrel 2 is placed completely through the micro switch.

In this embodiment, as shown in fig. 1 and fig. 3, temperature-controlled base 1 further includes heat dissipation device 15, and is disposed corresponding to refrigeration component 12, so that in the refrigeration process of refrigeration component 12, heat dissipation device 15 can dissipate heat from refrigeration component 12, thereby avoiding damage caused by over-high temperature of refrigeration component 12, and ensuring the service life of refrigeration component 12.

In this embodiment, the refrigeration assembly 12 is disposed in one-to-one correspondence with at least two placement positions 116, and the temperature-controlled base 1 further includes: at least two supply circuit, every supply circuit all sets up with refrigeration subassembly 12 one-to-one, every supply circuit can supply power for respective refrigeration subassembly 12 like this, and simultaneously, the cold base still includes two at least self-locking switches, every self-locking switch corresponds the setting on every supply circuit, be used for placing opening when not placing drink bucket 2 on position 116, in order to break off this supply circuit who places position 116 and correspond, when drink bucket 2 is not placed on the station like this, self-locking switch can break off supply circuit, also this application is through having set up self-locking switch at supply circuit, can avoid user's maloperation like this, just open refrigeration plant under the condition of not placing drink bucket 2 and caused energy loss's problem, can also avoid refrigeration subassembly 12 and human contact, cause frostbite etc. to the personnel.

In this embodiment, the temperature control base 1 further includes an instruction generating device for sending a work instruction for controlling one refrigeration assembly 12 to work or controlling a plurality of refrigeration assemblies 12 to work simultaneously, so that a user can complete the cooling of the beverage by manually triggering or automatically triggering the refrigeration instruction through a control system.

In this embodiment, the number of the placing positions 116 and the number of the refrigeration assemblies 12 are 2 to 6, so that the excessive number of the placing positions 116 and the refrigeration assemblies 12 can be avoided, the weight of the beverage machine is increased, and the situation that the number of the placing positions 116 and the refrigeration assemblies 12 is too low to meet the requirements of users can be avoided.

In this embodiment, pedestal 11 includes stand 114 and chassis 112, is provided with two at least places positions 116 on the chassis 112, and refrigeration component 12 sets up on stand 114, and drink bucket 2 places on placing position 116 after, and drink bucket 2 can contact with refrigeration component 12 on the stand 114, just so can refrigerate drink bucket 2 through refrigeration component 12, and stand 114 can also support drink bucket 2 simultaneously, avoids drink bucket 2 to topple over. Further, the chassis 112 can be obliquely arranged to form an inclined surface, so that after the drink barrel 2 is placed on the placing position 116, the drink barrel can slide towards the upright post 114 under the action of gravity, the drink barrel 2 can be in close contact with the refrigerating component 12 on the upright post 114, and the refrigerating efficiency is ensured.

Example two

As shown in fig. 6 to fig. 8, the present embodiment provides a temperature control base 1, which is different from the first embodiment in that the present embodiment adopts a semiconductor refrigeration device as a refrigeration element, specifically, the beverage machine includes a beverage barrel 2, and the temperature control base 1 includes: a base body 11; at least two placing positions 116 arranged on the seat body 11 and used for placing the beverage barrel 2; refrigeration subassembly 12, corresponding at least two places position 116 setting, can refrigerate the drink machine of placing on arbitrary position 116. Further, refrigeration component 12 includes at least two semiconductor refrigeration plant, and further, semiconductor refrigeration plant is unanimous with the quantity of placing position 116, and every semiconductor refrigeration plant with place position 116 one-to-one setting, semiconductor refrigeration plant includes semiconductor refrigeration component 128 and heat abstractor 15, semiconductor refrigeration component 128 can with place the drink bucket 2 contact on placing position 116 to place the drink bucket 2 on placing position 116 and refrigerate.

The temperature control base 1 provided by the embodiment is used for a beverage machine, the beverage machine comprises a beverage barrel 2, the temperature control base 1 comprises a base body 11, at least two placing positions 116 and a refrigerating assembly 12, and the placing positions 116 are arranged on the base body 11 and used for placing the beverage barrel 2; the quantity of refrigeration component 12 also is at least two, with place position 116 one-to-one setting, can place the drink bucket 2 on arbitrary place position 116 and refrigerate. The utility model provides a accuse temperature base 1 has set up two at least places position 116 on same pedestal 11, also can hold two at least drink barrels 2 simultaneously, and each drink barrel 2 all corresponds and is provided with refrigeration component 12, in-process at the preparation drink like this, can cool down a plurality of drink barrels 2 simultaneously through a plurality of refrigeration components 12, just so avoided current accuse temperature base 1, a accuse temperature base of a plurality of drink barrels 2 sharing, lead to drinking up when a certain barrel drink, the condition that target temperature has not been fallen to another barrel temperature yet. Meanwhile, the semiconductor refrigeration equipment is used as a refrigeration element, namely, the Peltier effect of the semiconductor material is utilized, when direct current passes through a couple formed by connecting two different semiconductor materials in series, heat can be absorbed and released at two ends of the couple respectively, the refrigeration purpose can be realized, a refrigerant is not needed, the environment pollution caused by the refrigerant is avoided, meanwhile, the semiconductor refrigeration equipment is used as the refrigeration element, no moving part is needed in the whole refrigeration process, and the reliability is higher.

As shown in fig. 6 to 8, the temperature-controlled base 1 further includes a bottom plate 112 and a column 114, and the semiconductor refrigeration element 128 is disposed on the column 114, so that the beverage barrel 2 is refrigerated from the side, and the side has a larger space for disposing a larger refrigeration compared to the bottom refrigeration or the upper refrigeration, thereby improving the refrigeration efficiency. Meanwhile, the cooling capacity can be more uniformly distributed along the height direction of the barrel body by the side refrigeration. And, the semiconductor cooling element 128 is in direct contact with the keg 2.

As shown in fig. 1, the semiconductor cooling element 128 is mounted on the column 114 at a predetermined distance from the base pan 112. By arranging the refrigeration part on the upright column 114, which is equivalent to refrigerating the beverage barrel 2 from the side, the side has a larger space to provide larger refrigeration compared with a bottom refrigeration or upper refrigeration mode, so that the refrigeration efficiency can be improved. Meanwhile, the cooling capacity can be more uniformly distributed along the height direction of the barrel body by the side refrigeration.

In the above embodiment, as shown in fig. 3, one side of the pillar 114 close to the placing position 116 is provided with a communication opening communicating with the accommodating space, and the heat absorbing portion of the semiconductor cooling element 128 protrudes or is flush with the communication opening. Because stand 114 itself has certain thickness, the heat absorption portion of semiconductor sets up the inside at stand 114, and can not directly contact with drink barrel 2, like this the thickness of in-process stand 114 itself at the heat transfer can bring certain influence for the heat transfer, consequently need set up certain connector with stand 114 and the position of placing position 116 and contacting, the heat absorption portion that lets semiconductor refrigeration component 128 stretches out or the parallel and level in the intercommunication mouth, so that semiconductor refrigeration component 128 can directly contact with drink barrel 2, the refrigeration effect of realization drink that just so can be better, the rate of refrigeration is improved.

In the above embodiment, as shown in fig. 6 to 8, the pillar 114 is provided with a protruding portion protruding toward the placement site 116 on a side close to the placement site 116, and the connection port is provided on the protruding portion. The bulge is arranged on one side of the upright column 114, so that the heat absorption part of the semiconductor refrigeration element 128 is positioned at the bulge position, the heat absorption part of the semiconductor refrigeration element 128 can be well tightly attached to the drink barrel 2, and the problem that the refrigeration efficiency is reduced due to the poor attaching effect of the drink barrel 2 and the refrigeration component is solved.

In this embodiment, the placing position 116 includes a limiting groove, and the drink barrel 2 can be limited and installed in the limiting groove, so that the drink barrel 2 is not easy to topple. Meanwhile, the beverage barrel 2 is installed in the limiting groove in a limiting mode, can be automatically contacted with the refrigerating assembly 12, does not need to be matched with the relative position of the refrigerating assembly 12 and the beverage barrel 2 again, and improves refrigerating efficiency. Of course, the placing position 116 may also include a limiting structure such as a limiting block and a limiting protrusion, that is, the beverage barrel 2 is quickly limited by the limiting block and the limiting protrusion, so that the beverage barrel 2 can be ensured to be in close contact with the refrigeration component 12.

In this embodiment, refrigeration component 12 is located the one side of placing position 116, and place position 116 still includes the inclined plane, and the inclined plane reduces to the one side that is close to refrigeration component 12 by the one side of keeping away from refrigeration component 12 gradually, like this when drink barrel 2 places on placing position 116 after, can slide to laminating with refrigeration component 12 along the inclined plane. Through setting up the inclined plane, can guarantee like this that drink bucket 2 places back on placing position 116, under the effect of gravity, drink bucket 2 has to the gliding trend of refrigeration subassembly 12 direction, can guarantee like this that drink bucket 2 closely laminates with refrigeration subassembly 12, and it is not good with the laminating effect of refrigeration subassembly 12 to solve drink bucket 2, leads to the problem that refrigeration efficiency reduces.

In this embodiment, the temperature control base 1 further includes at least two temperature sensing devices 13 and a control device, that is, the number of the temperature sensing devices 13 is the same as that of the placing positions 116, and each temperature sensing device 13 is arranged corresponding to each placing position 116 one to one, and is used for detecting the temperature of the beverage barrel 2 placed on the placing position 116; controlling means is connected with temperature sensing device 13 and refrigeration component 12 respectively, can be according to the 2 temperatures of drink bucket that temperature sensing device 13 detected, control refrigeration component 12 opens or closes, detect the temperature of putting drink bucket 2 on position 116 through temperature sensing device 13 like this, after the temperature of drink bucket 2 is higher than predetermineeing the temperature, indicate that the drink in the drink bucket 2 needs the cooling, the step of cooling is carried out in opening of the refrigeration component 12 that this drink bucket 2 of control device accessible time corresponds like this, the back is accomplished in the cooling, control closing of the refrigeration component 12 that this drink bucket 2 corresponds, accomplish the cooling.

In this embodiment, the refrigeration assembly 12 includes a compressor refrigeration device, the compressor refrigeration device includes at least one condenser 126 and at least two evaporators 122, further, the number of the evaporators 122 is the same as that of the placement positions 116, and each of the evaporators 122 is disposed in one-to-one correspondence with the placement positions 116. The evaporator 122 can exchange heat from the beverage barrel 2 placed on the placing position 116, and in the scheme, the refrigeration device of the compressor is used as a refrigeration element, so that the stability of a refrigeration system can be ensured, the energy consumption is low, and the refrigeration effect is good. Meanwhile, the condenser 126 and the at least two evaporators 122 are connected to form at least two refrigeration circuits, and specifically, the refrigeration circuit may include first circuits in which the condenser 126 and the evaporators 122 are disposed in one-to-one correspondence. Of course, the refrigeration circuit may also include a second circuit in which at least two evaporators 122 are provided in correspondence with the condenser 126.

In this embodiment, as shown in fig. 1 and fig. 3, temperature-controlled base 1 further includes heat dissipation device 15, and is disposed corresponding to refrigeration component 12, so that in the refrigeration process of refrigeration component 12, heat dissipation device 15 can dissipate heat from refrigeration component 12, thereby avoiding damage caused by over-high temperature of refrigeration component 12, and ensuring the service life of refrigeration component 12.

In this embodiment, the refrigeration assembly 12 is disposed in one-to-one correspondence with at least two placement positions 116, and the temperature-controlled base 1 further includes: at least two supply circuit, every supply circuit all sets up with refrigeration subassembly 12 one-to-one, every supply circuit can supply power for respective refrigeration subassembly 12 like this, and simultaneously, the cold base still includes two at least self-locking switches, every self-locking switch corresponds the setting on every supply circuit, be used for placing opening when not placing drink bucket 2 on position 116, in order to break off this supply circuit who places position 116 and correspond, when drink bucket 2 is not placed on the station like this, self-locking switch can break off supply circuit, also this application is through having set up self-locking switch at supply circuit, can avoid user's maloperation like this, just open refrigeration plant under the condition of not placing drink bucket 2 and caused energy loss's problem, can also avoid refrigeration subassembly 12 and human contact, cause frostbite etc. to the personnel.

In this embodiment, pedestal 11 includes stand 114 and chassis 112, is provided with two at least places positions 116 on the chassis 112, and refrigeration component 12 sets up on stand 114, and drink bucket 2 places on placing position 116 after, and drink bucket 2 can contact with refrigeration component 12 on the stand 114, just so can refrigerate drink bucket 2 through refrigeration component 12, and stand 114 can also support drink bucket 2 simultaneously, avoids drink bucket 2 to topple over. Further, the chassis 112 can be obliquely arranged to form an inclined surface, so that after the drink barrel 2 is placed on the placing position 116, the drink barrel can slide towards the upright post 114 under the action of gravity, the drink barrel 2 can be in close contact with the refrigerating component 12 on the upright post 114, and the refrigerating efficiency is ensured.

In the above embodiment, the temperature-controlled base further comprises: the controller is used for adjusting the refrigeration conditions of at least two placing positions according to the temperature of the drink barrel 2 placed on the placing position and the placing conditions of the drink barrel 2 placed on the placing position: the refrigerating capacity of the placing position with the temperature less than or equal to the set temperature value is reduced, and the refrigerating capacity of the placing position with the temperature greater than the set temperature value is increased; and/or the refrigerating capacity of the placing positions with the temperature higher than the set temperature value in other placing positions is increased when the placing positions are detected to be empty; when detecting to place newly on the position and place drink bucket 2, reduce other refrigeration capacities of placing the position.

In this embodiment, the controller is specifically used for according to placing the temperature of the drink bucket 2 on the position to and placing the position drink bucket 2 on have or not come the refrigeration capacity of comprehensive regulation and control on each position, also the controller can be based on actual conditions reasonably adjusts the refrigeration condition of every position of placing, in order to realize different positions of placing, based on the difference distribution of the different refrigeration capacities of refrigeration demand. For example, to the drink bucket 2 that the temperature has reduced to the set temperature value, can reduce the refrigerating output to placing the position, simultaneously, increase the refrigerating output of other temperature still than higher placing the position to this transition refrigeration can be avoided, the refrigeration effect of other positions also can be ensured. For another example, the cooling capacity of the place where the drink barrel 2 is taken away can be closed, and the cooling capacity of other places with higher temperature can be increased. Or, if the newly placed drink barrel 2 is detected, the refrigerating capacity of other refrigerating positions can be reduced, so that some refrigerating capacity can be homogenized to realize the refrigeration of the newly placed drink barrel 2. The intelligent automatic regulation and control of the refrigerating capacity can be realized through the controller, the waste of the refrigerating capacity is avoided, and meanwhile, the refrigerating effect is improved, so that the user experience is improved.

EXAMPLE III

As shown in fig. 8, the present embodiment provides a temperature control base 1, which is different from the second embodiment in that the present embodiment adopts a pressure detection device to replace a micro switch as an induction device 14, specifically, the beverage machine includes a beverage barrel 2, and the temperature control base 1 includes: a base body 11; at least two placing positions 116 arranged on the seat body 11 and used for placing the beverage barrel 2; the refrigeration component 12, corresponding to at least two places 116 settings, can refrigerate the drink machine placed on any place 116. Accuse temperature base 1 still includes: at least two induction devices 14 and control devices, that is, the induction devices 14 and the placing positions 116 are the same in number, and each induction device 14 and each placing position 116 are arranged in a one-to-one correspondence manner and used for detecting whether the beverage barrel 2 is placed on the placing position 116; the control device is respectively connected with the sensing device 14 and the refrigeration assembly 12, and can control the refrigeration assembly 12 corresponding to the sensing device 14 to be turned on or turned off according to the sensing result of the sensing device 14. Whether place drink bucket 2 on the position 116 through induction system 14 detection like this, when placing drink bucket 2 on the position 116, the step of cooling down is carried out in opening of the refrigeration subassembly 12 that this drink bucket 2 of control device control that can be timely corresponds, just so need not the manual refrigerating plant that opens of user, has satisfied user's demand. Further, induction system 14 is pressure measurement, and pressure measurement sets up on placing the surface of position 116, and like this when drink bucket 2 is placed on placing position 116, pressure measurement can detect out drink bucket 2 and exist, and pressure measurement can give controlling means with information transfer like this, and control refrigeration subassembly 12 accomplishes the refrigeration to drink bucket 2.

The temperature control base 1 provided by the embodiment is used for a beverage machine, the beverage machine comprises a beverage barrel 2, the temperature control base 1 comprises a base body 11, at least two placing positions 116 and a refrigerating assembly 12, and the placing positions 116 are arranged on the base body 11 and used for placing the beverage barrel 2; the quantity of refrigeration component 12 also is at least two, with place position 116 one-to-one setting, can place the drink bucket 2 on arbitrary place position 116 and refrigerate. The utility model provides a accuse temperature base 1 has set up two at least places position 116 on same pedestal 11, also can hold two at least drink barrels 2 simultaneously, and each drink barrel 2 all corresponds and is provided with refrigeration component 12, in-process at the preparation drink like this, can cool down a plurality of drink barrels 2 simultaneously through a plurality of refrigeration components 12, just so avoided current accuse temperature base 1, a accuse temperature base of a plurality of drink barrels 2 sharing, lead to drinking up when a certain barrel drink, the condition that target temperature has not been fallen to another barrel temperature yet.

Further, refrigeration component 12 includes at least two semiconductor refrigeration plant, and semiconductor refrigeration plant is unanimous with the quantity of placing position 116, and every semiconductor refrigeration plant with place position 116 one-to-one setting, semiconductor refrigeration plant include semiconductor refrigeration component 128 and heat abstractor 15, semiconductor refrigeration component 128 can with place the drink bucket 2 contact on placing position 116 to place the drink bucket 2 on placing position 116 and refrigerate. According to the semiconductor refrigeration device, the semiconductor refrigeration device is used as a refrigeration element, namely, the Peltier effect of the semiconductor material is utilized, when direct current passes through a couple formed by connecting two different semiconductor materials in series, heat can be absorbed and released at two ends of the couple respectively, the purpose of refrigeration can be achieved, a refrigerant is not needed, the environment pollution caused by the refrigerant is avoided, meanwhile, the semiconductor refrigeration device is used as the refrigeration element, no moving part is arranged in the whole refrigeration process, and the reliability is higher.

In this embodiment, the placing position 116 includes a limiting groove, and the drink barrel 2 can be limited and installed in the limiting groove, so that the drink barrel 2 is not easy to topple. Meanwhile, the beverage barrel 2 is installed in the limiting groove in a limiting mode, and can automatically contact with the refrigerating assembly 12 without being matched with the relative position of the refrigerating assembly 12 and the beverage barrel 2 again, and refrigerating efficiency is improved. Of course, the placing position 116 may also include a limiting structure such as a limiting block and a limiting protrusion, that is, the beverage barrel 2 is quickly limited by the limiting block and the limiting protrusion, so that the beverage barrel 2 can be ensured to be in close contact with the refrigeration assembly 12.

In this embodiment, refrigeration component 12 is located the one side of placing position 116, and place position 116 still includes the inclined plane, and the inclined plane reduces by a lateral direction that keeps away from refrigeration component 12 to the one side that is close to refrigeration component 12 gradually, like this when drink bucket 2 place on placing position 116 after, can follow the inclined plane and slide to laminating with refrigeration component 12. Through setting up the inclined plane, can guarantee like this that drink bucket 2 places back on placing position 116, under the effect of gravity, drink bucket 2 has to the gliding trend of refrigeration subassembly 12 direction, can guarantee like this that drink bucket 2 closely laminates with refrigeration subassembly 12, and it is not good with the laminating effect of refrigeration subassembly 12 to solve drink bucket 2, leads to the problem that refrigeration efficiency reduces.

In this embodiment, the temperature control base 1 further includes at least two temperature sensing devices 13 and a control device, that is, the number of the temperature sensing devices 13 is the same as that of the placing positions 116, and each temperature sensing device 13 is arranged corresponding to each placing position 116 one to one, and is used for detecting the temperature of the beverage barrel 2 placed on the placing position 116; controlling means is connected with temperature sensing device 13 and refrigeration component 12 respectively, can be according to the 2 temperatures of drink bucket that temperature sensing device 13 detected, control opening or closing of refrigeration component 12, like this through temperature sensing device 13 detection place on position 116 drink bucket 2's temperature, after drink bucket 2's temperature is higher than preset temperature, indicate that the drink in drink bucket 2 needs the cooling, the step of cooling is carried out in opening of the refrigeration component 12 that this drink bucket 2 of controlling means can be timely corresponds like this, after the cooling is accomplished, control closing of the refrigeration component 12 that this drink bucket 2 corresponds, accomplish the cooling.

In this embodiment, as shown in fig. 1 and 3, the refrigeration assembly 12 includes a compressor refrigeration device including at least one condenser 126 and at least two evaporators 122, further, the number of evaporators 122 corresponds to the number of placement sites 116, and each evaporator 122 is disposed in one-to-one correspondence with a placement site 116. The evaporator 122 can exchange heat from the beverage barrel 2 placed on the placing position 116, and in the scheme, the refrigeration device of the compressor is used as a refrigeration element, so that the stability of a refrigeration system can be ensured, the energy consumption is low, and the refrigeration effect is good. Meanwhile, the condenser 126 and the at least two evaporators 122 are connected to form at least two refrigeration circuits, and specifically, the refrigeration circuit may include first circuits in which the condenser 126 and the evaporators 122 are disposed in one-to-one correspondence. Of course, the refrigeration circuit may also comprise a second circuit in which at least two evaporators 122 are provided in correspondence of the condenser 126.

In this embodiment, accuse temperature base 1 still includes heat abstractor 15, corresponds the setting with refrigeration subassembly 12, carries out refrigerated in-process at refrigeration subassembly 12 like this, and heat abstractor 15 can dispel the heat to refrigeration subassembly 12, can avoid refrigeration subassembly 12's high temperature and damage like this, can guarantee the life-span of refrigeration subassembly 12.

In this embodiment, the refrigeration assembly 12 is disposed in one-to-one correspondence with at least two placement positions 116, and the temperature-controlled base 1 further includes: at least two supply circuit, every supply circuit all sets up with refrigeration subassembly 12 one-to-one, every supply circuit can supply power for respective refrigeration subassembly 12 like this, and simultaneously, the cold base still includes two at least self-locking switches, every self-locking switch corresponds the setting on every supply circuit, be used for placing opening when not placing drink bucket 2 on position 116, in order to break off this supply circuit who places position 116 and correspond, when drink bucket 2 is not placed on the station like this, self-locking switch can break off supply circuit, also this application is through having set up self-locking switch at supply circuit, can avoid user's maloperation like this, just open refrigeration plant under the condition of not placing drink bucket 2 and caused energy loss's problem, can also avoid refrigeration subassembly 12 and human contact, cause frostbite etc. to the personnel.

In this embodiment, the temperature control base 1 further includes an instruction generating device for sending a work instruction for controlling one refrigeration assembly 12 to work or controlling a plurality of refrigeration assemblies 12 to work simultaneously, so that a user can complete the cooling of the beverage by manually triggering or automatically triggering the refrigeration instruction through a control system.

In this embodiment, the number of the placing positions 116 and the number of the refrigeration assemblies 12 are 2 to 6, so that the excessive number of the placing positions 116 and the refrigeration assemblies 12 can be avoided, the weight of the beverage machine is increased, and the situation that the number of the placing positions 116 and the refrigeration assemblies 12 is too low to meet the requirements of users can be avoided.

In this embodiment, pedestal 11 includes stand 114 and chassis 112, is provided with two at least places positions 116 on the chassis 112, and refrigeration component 12 sets up on stand 114, and drink bucket 2 places on placing position 116 after, and drink bucket 2 can contact with refrigeration component 12 on the stand 114, just so can refrigerate drink bucket 2 through refrigeration component 12, and stand 114 can also support drink bucket 2 simultaneously, avoids drink bucket 2 to topple over. Further, the chassis 112 can be obliquely arranged to form an inclined surface, so that after the drink barrel 2 is placed on the placing position 116, the drink barrel can slide towards the upright post 114 under the action of gravity, the drink barrel 2 can be in close contact with the refrigerating component 12 on the upright post 114, and the refrigerating efficiency is ensured.

Wherein the refrigeration assembly comprises a valve assembly by means of which the refrigeration capacity of each place can be adjusted. At least two temperature sensing devices are linked with the valve component, and the temperature sensing devices detect that the temperature of the drink barrel 2 corresponding to the placing position is smaller than or equal to a set temperature value, so that the valve opening degree of the position is reduced, and the valve opening degrees of the placing positions with other temperatures larger than or equal to the preset temperature are improved. Simultaneously, place induction system on the position and detect that drink bucket 2 leaves, and other positions of placing do not reach the set temperature value, control other valve apertures and increase. The induction device detects the entrance of the drink barrel 2 and controls the opening degree reduction of other valves

The following describes the beverage machine in detail by taking an example that the beverage machine comprises 3 beverage barrels and a refrigeration component compressor for refrigeration.

As shown in fig. 5, this drink machine includes 3 drink barrels 2, from left to right be 1 respectively, 2 # and 3 # drink barrels, be provided with 3 temperature sensing device 13 and 3 induction system 14 (as shown in fig. 2) and 3 control valves on this drink machine respectively simultaneously, after induction system 14 that 1 # drink barrel corresponds detected that 1 # drink barrel places in place, temperature sensing device 13 that 1 # drink barrel corresponds is used for detecting the temperature of 1 # drink barrel, when the temperature of 1 # drink barrel is higher than predetermineeing the temperature range, control 1 # drink barrel corresponds first control valve 16A closed, at this moment, compressor 124 begins work, the temperature control base 1 that 1 # drink barrel corresponds simultaneously communicates with compressor 124, just so can refrigerate No. 1 drink barrel through compressor 124 refrigerating plant, then cool down condenser 126 through heat abstractor 15, realize the refrigeration of No. 1 drink barrel. After induction system 14 that corresponds when No. 2 drink barrels detects that No. 2 drink barrels place to target in place, the temperature sensing device 13 that No. 2 drink barrels correspond is used for detecting the temperature of No. 2 drink barrels, when the temperature of No. 2 drink barrels is higher than preset temperature range, the second control valve 16B that No. 2 drink barrels correspond is controlled closed, at this moment, compressor 124 begins work, the accuse temperature base 1 that No. 2 drink barrels correspond simultaneously communicates with compressor 124, just so can refrigerate No. 2 drink barrels through compressor 124 refrigerating plant, then cool down condenser 126 through heat abstractor 15, realize the refrigeration of No. 2 drink barrels, and is further, the refrigeration step and its the same reason of No. 3 drink barrels. That is, the No. 3 drink barrel is also correspondingly provided with a third control valve 16C to control the on-off of the refrigeration control loop of the No. 3 drink barrel.

Further, after sensing device 14 that No. 1 drink bucket and No. 2 drink bucket correspond all detected No. 1 drink bucket and No. 2 drink bucket and placed in place, the temperature-sensing device 13 that No. 1 drink bucket and No. 2 drink bucket correspond detects the temperature of No. 1 drink bucket and No. 2 drink bucket simultaneously, when the temperature of No. 1 drink bucket and No. 2 drink bucket all is higher than when predetermineeing the temperature range, control the first control valve 16A and the second control valve 16B closure that No. 1 drink bucket and No. 2 drink bucket correspond, at this moment, compressor 124 begins to work, the accuse temperature base 1 that No. 1 drink bucket and No. 2 drink bucket correspond simultaneously communicates with compressor 124, just so can refrigerate No. 1 drink bucket and No. 2 drink bucket simultaneously through compressor 124 refrigerating plant, then cool down condenser 126 through heat abstractor 15, realize the while refrigeration of No. 1 drink bucket and No. 2 drink bucket, in-process at the preparation drink like this, can cool down a plurality of drink buckets simultaneously through a plurality of refrigeration components 12, just so 1 base of the existing accuse temperature has been avoided, a plurality of drink buckets has not had, a plurality of base, a base 1 of accuse temperature, a base has not shared, a certain base 1, when a certain temperature bucket leads to drink bucket in addition the circumstances of the target temperature is reduced to the target temperature condition.

Wherein, for the temperature control base 1 of which the refrigeration component comprises the semiconductor refrigeration element 128, a control loop is correspondingly provided for each drink barrel, and an induction device 14 capable of being opened and closed is provided on each control loop (in fig. 8, the induction device 14 is specifically a micro switch).

As shown in fig. 3, an embodiment of the second aspect of the present invention provides a beverage machine, including: a temperature controlled base 1 as provided in the embodiments of the first aspect of the present application; the beverage barrel 2 can be placed on any placing position 116.

According to this embodiment provides a drink machine includes: a temperature-controlled base 1 as provided in the embodiments of the first aspect of the present application; still include drink barrel 2, drink barrel 2 can place on arbitrary place 116. Because the beverage machine that this application provided includes the temperature control base 1 that any one technical scheme provided in the embodiment of the first aspect of this application provided, consequently, the beverage machine that this application provided has the whole beneficial effect of the temperature control base 1 that any one technical scheme provided in the embodiment of the first aspect of this application provided, and it is no longer repeated here.

In this embodiment, as shown in fig. 4, the drink barrel includes: the feeding port 22 is arranged at the upper end of the drink barrel 2 and used for feeding drink raw materials; the liquid outlet is arranged at the lower end of the beverage barrel and is used for discharging cooled beverage; the gas inlet 24 is arranged at the upper end of the drink barrel, is connected with a gas source of fermentation gas and is used for inputting the fermentation gas into the drink barrel.

Further, the beverage machine also comprises an aeration component. The gas charging component comprises a gas charging connector and a gas source, the gas charging connector is arranged on the drink barrel 2 and is communicated with the inside of the drink barrel 2, and the gas source and the gas charging connector can be detachably connected so as to charge the inside of the drink barrel 2 through the gas charging connector.

In this embodiment, the aerating assembly primarily fills the keg 2 with gas for fermentation, freshness or flavoring, for example, in the case of a beer machine, to create fermentation conditions for beer fermentation.

Further, the beverage machine also comprises a sterilization and cleaning component. The sterilization cleaning component is used for conveying sterilization cleaning media into the beverage barrel 2 so as to sterilize and clean the interior of the beverage barrel 2. The sterilization cleaning treatment herein specifically includes one or more treatments of sterilization, disinfection, cleaning, drying, and the like. The automatic sterilization of the beverage barrel 2 can be realized through the sterilization cleaning component, so that the cleanliness of the fermentation environment can be improved, and the success rate of fermentation is improved.

Specifically, the beverage machine further comprises a liquid discharge assembly, an air supply assembly and the like which are connected with the beverage barrel 2. The sterilization cleaning component can also be connected with the liquid discharge component, the air supply component and the like so as to sterilize and disinfect the liquid discharge component, the air supply component and the like, thereby ensuring the cleanliness of the fermentation barrel. Also can be to different positions through disinfecting the washing subassembly and focus and disinfect, wash and dry, because carry out the fermentation of raw materials in drink bucket 2, and then the residue in drink bucket 2 is more, and it needs to focus and disinfect, wash and dry.

Further, the sterilizing and cleaning assembly comprises: the steam generator is used for inputting steam into the beverage barrel 2; or the ozone generator is connected with the drink barrel 2 and is used for inputting ozone into the drink barrel 2 for sterilization; or an ion generator, is connected with the drink barrel 2 for ion sterilization.

In this embodiment, the sterilization and cleaning assembly comprises a steam generator, an ozone generator or an ion generator, and the sterilization and cleaning assembly can perform steam sterilization, ozone sterilization or ion sterilization, and specifically, the ozone generator or the ion generator is connected with the gas transmission assembly, so that ozone or ions can be introduced into the corresponding components through the gas transmission assembly, the steam generator is connected with the liquid transmission assembly, and the liquid transmission assembly can transmit liquid to the steam generator to generate steam.

In the above embodiment, the drink tub 2 includes: the feeding port 22 is arranged at the upper end of the drink barrel 2 and used for feeding drink raw materials; the liquid outlet is arranged at the lower end of the drink barrel and used for discharging the cooled drink; the air inlet 24 is arranged at the upper end of the drink barrel, is connected with an air source of fermentation gas and is used for inputting the fermentation gas into the drink barrel.

The embodiment of the third aspect of the utility model provides a control method of drink machine for drink machine, drink machine include like this application first aspect any one technical scheme's accuse temperature base with can place and carry out refrigerated drink bucket on accuse temperature base, drink machine's control method includes following step:

step 1, when a cooling instruction is detected, judging that a beverage barrel is arranged on any one placing position; if yes, executing the step 2, and if not, ending;

step 2, judging whether the temperature of the beverage barrel is greater than a preset temperature or not; if yes, executing the step 3, and if not, ending;

and 3, starting a refrigeration step.

According to the utility model provides a control method of drink machine, at first, drink machine includes this application first aspect arbitrary technical scheme's accuse temperature base and can place and carry out refrigerated drink bucket on accuse temperature base, and control method includes: after the refrigeration instruction is received, if the beverage barrel is placed on any one of the placing positions and the temperature of the beverage barrel is higher than the preset temperature, the refrigeration step is started. Because the control method of the beverage machine provided by the application is applied to the beverage machine, and the beverage machine comprises the temperature control base provided by any technical scheme in the first aspect of the application, the control method of the beverage machine provided by the application has all the beneficial effects of the temperature control base provided by the application, and is not repeated herein.

In the above embodiment, when not placing the drink bucket on placing the position, make the refrigeration circuit outage that places the position and correspond, can avoid causing the waste of the energy like this in timely outage after taking off the drink bucket.

In the above embodiment, when the temperature of the drink barrel is greater than the preset temperature, the refrigeration circuit corresponding to the drink barrel is opened, so that the refrigeration component can refrigerate the drink barrel, when the temperature of the drink barrel is less than or equal to the preset value, the refrigeration is finished, and the refrigeration circuit corresponding to the drink barrel is closed at the moment so as to stop refrigerating the drink barrel.

An embodiment of the utility model provides a controlling means of drink machine, include: the detection unit is used for detecting whether the beverage barrel is placed on the placing station; the temperature judging unit is used for judging whether the temperature of the drink barrel is greater than a preset temperature or not; and the refrigeration control unit is used for placing the beverage barrel on the placing station, and controlling the refrigeration assembly to refrigerate the beverage barrel when the temperature of the beverage barrel is greater than the preset temperature.

According to the utility model provides a controlling means of drink machine, include: the device comprises a detection unit, a temperature judgment unit and a refrigeration control unit, wherein the detection unit is used for detecting whether a beverage barrel is placed on a placing station; the temperature judging unit is used for judging whether the temperature of the drink barrel is greater than a preset temperature or not; the refrigeration control unit is used for placing the beverage barrel on the placing station, and when the temperature of the beverage barrel is greater than the preset temperature, the refrigeration assembly is controlled to refrigerate the beverage barrel. Because the control device of the beverage machine provided by the embodiment of the present application is a control device corresponding to the control method of the beverage machine provided by the embodiment of the second aspect of the present application, the control device of the beverage machine provided by the present application has all the beneficial effects of the control method of the beverage machine provided by the present application, and is not described herein again.

An embodiment of the utility model provides a readable storage medium, including memory and treater, the memory is stored with procedure or instruction, and procedure or instruction are carried out by the treater, realize the step of the drink preparation method of this application second aspect embodiment any one.

As shown in fig. 3, an embodiment of a fifth aspect of the present invention provides a beverage machine, including: a temperature-controlled base 1 according to any one of the embodiments of the first aspect of the present application; a beverage barrel 2 capable of being placed on any one of the placement positions 116; the control device of the beverage machine according to the above-mentioned embodiment of the present application, or the readable storage medium provided according to the above-mentioned embodiment of the present application.

In the description of the present specification, the terms "connect", "mount", "fixed", and the like are to be understood broadly, for example, "connect" may be a fixed connection, a detachable connection, or an integral connection; may be directly connected or indirectly connected through an intermediate. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In the description of the present specification, the description of the terms "one embodiment," "some embodiments," "specific embodiments," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes will occur to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (13)

1. The utility model provides a accuse temperature base, its characterized in that for refrigerate the drink barrel, accuse temperature base includes:

a base body;

the at least two placing positions are arranged on the seat body and used for placing the beverage barrel;

the refrigeration assembly corresponds at least two place the position setting, can place arbitrary place on the position the drink bucket refrigerates.

2. The temperature-controlled base of claim 1, wherein the placement locations comprise:

the limiting groove, the drink bucket can be installed by the spacing limiting groove.

3. The temperature-controlled base of claim 1, wherein the refrigeration component is located to one side of the placement station, the placement station further comprising:

the inclined plane, the inclined plane is by keeping away from one side of refrigeration subassembly is close to one side slope downwardly sloping gradually of refrigeration subassembly extends, the drink bucket is placed place back on the position, can follow the inclined plane to refrigeration subassembly slope and with the refrigeration subassembly laminating.

4. The temperature-controlled base of claim 1, further comprising:

and the at least two temperature sensing devices are arranged in one-to-one correspondence with the at least two placing positions and are used for detecting the temperature of the drink barrel placed on the placing positions.

5. The temperature-controlled base of claim 1, further comprising:

at least two induction system, one-to-one sets up at least two place on the position for whether the detection place on the position drink barrel.

6. The temperature-controlled base of claim 5,

the refrigeration assembly comprises at least two refrigeration pieces and at least two control loops for controlling the at least two refrigeration pieces in a one-to-one correspondence manner;

the induction device comprises a microswitch which is connected to the control circuit, when the drink barrel is placed on the placing position, the microswitch can be closed to close the control circuit, and after the drink barrel is moved away from the placing position, the microswitch is disconnected to open the control circuit; or

The sensing means includes pressure detection means capable of opening and closing the control circuit based on the detected pressure.

7. The temperature-controlled base of claim 1, wherein the refrigeration assembly comprises:

at least two semiconductor refrigeration plant, with at least two place the position one-to-one setting, semiconductor refrigeration plant includes semiconductor refrigeration component and heat abstractor, semiconductor refrigeration component can with place the drink bucket contact on the position is placed to the placing is in order to be placed drink bucket on the position refrigerates.

8. The temperature-controlled base of claim 1, wherein the refrigeration assembly comprises:

the compressor refrigeration equipment comprises at least one condenser and at least two evaporators, the number of the evaporators is at least two, the evaporators are arranged in one-to-one correspondence with the placing positions, and the evaporators can exchange heat with the beverage barrels placed on the placing positions;

the refrigeration circuit comprises a first circuit and/or a second circuit, wherein the first circuit is formed by connecting at least one condenser and at least two evaporators in a one-to-one correspondence mode, and the second circuit is formed by correspondingly connecting at least two evaporators and the condenser.

9. The temperature-controlled base of any one of claims 1 to 8, further comprising:

the operation display panel is arranged on the temperature control base and/or the drink barrel and used for receiving operation information so as to control the work of the temperature control base and displaying the information; and/or

The number of the placing positions and the refrigerating assemblies is 2-6.

10. The temperature-controlled base of any one of claims 1 to 9, wherein the base comprises:

a chassis;

the upright columns are arranged on the chassis and form at least two placing positions with the chassis in a surrounding manner;

the refrigeration subassembly includes with at least two place a plurality of refrigeration portions that the position one-to-one set up, the drink bucket is placed place the position after, can with refrigeration portion contact.

11. The temperature-controlled base of any one of claims 1 to 9, further comprising:

the controller is used for adjusting the refrigeration conditions of at least two placing positions according to the temperature of the drink barrel placed on the placing positions and the placing conditions of the drink barrel placed on the placing positions:

the controller is also used for reducing the refrigerating capacity of the placing position with the temperature less than or equal to a set temperature value and increasing the refrigerating capacity of the placing position with the temperature greater than the set temperature value; and/or

The controller is also used for increasing the refrigerating capacity of the placing positions with the temperature higher than the set temperature value in other placing positions when the placing positions are detected to be empty;

the controller is also used for reducing the refrigerating capacity of other placing positions when detecting that the beverage barrel is newly placed on the placing position.

12. A beverage machine, comprising:

the temperature-controlled base of any one of claims 1 to 11;

one or more beverage barrels, each of which can be placed on any of the placement positions.

13. The beverage dispenser of claim 12 wherein the beverage tank comprises:

the feeding port is arranged at the upper end of the drink barrel and used for feeding drink raw materials; and/or

The liquid outlet is arranged at the lower end of the drink barrel and used for discharging drinks;

and the air inlet is arranged at the upper end of the drink barrel, is connected with an air source of fermentation gas and is used for inputting the fermentation gas into the drink barrel.

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