阅读说明：本技术 冷热一体饮品设备 (Cold and hot integrated beverage equipment ) 是由 钱蔚 匡明晗 于 2020-12-10 设计创作，主要内容包括：本发明公开了一种冷热一体饮品设备,包括：外壳、多个龙头、储存舱多个液桶、气体瓶、电磁阀、加热模块、冷饮按钮以及热饮按钮。多个龙头设置于外壳上。储存舱设置于外壳内,且储存舱内集成有风直冷混合的制冷模块。多个液桶设置于储存舱中,每个液桶上都设置有分配器,且多个分配器与多个龙头相对应设置。气体瓶通过气管分别与多个分配器连接。电磁阀的一端通过第一液管分别与多个分配器连接,且电磁阀的另一端通过第二液管和第三液管分别与多个龙头连接。加热模块设置于第三液管上,用以对第三液管中的液体进行加热。借此,本发明的冷热一体饮品设备,结构简单合理,可以实现饮品的标准化、稳定化输出,提高了饮品出品的自动化程度。(The invention discloses cold and hot integrated drink equipment, which comprises: the hot drink machine comprises a shell, a plurality of faucets, a storage cabin, a plurality of liquid barrels, a gas bottle, a solenoid valve, a heating module, a cold drink button and a hot drink button. A plurality of faucets are disposed on the housing. The storage cabin is arranged in the shell, and a refrigeration module with wind direct-cooling mixing is integrated in the storage cabin. A plurality of liquid barrels are arranged in the storage cabin, each liquid barrel is provided with a distributor, and the distributors correspond to the faucets. The gas bottle is respectively connected with a plurality of distributors through gas pipes. One end of the electromagnetic valve is connected with the plurality of distributors through the first liquid pipe respectively, and the other end of the electromagnetic valve is connected with the plurality of faucets through the second liquid pipe and the third liquid pipe respectively. The heating module is arranged on the third liquid pipe and used for heating the liquid in the third liquid pipe. Therefore, the cold and hot integrated beverage equipment is simple and reasonable in structure, can realize standardized and stable output of the beverage, and improves the automation degree of the beverage.)

1. A cold and hot integrative drink equipment which characterized in that includes:

a housing;

a plurality of faucets disposed on the housing;

the storage cabin is arranged in the shell, and a refrigerating module with wind direct-cooling mixing is integrated in the storage cabin;

the liquid barrels are arranged in the storage cabin, each liquid barrel is provided with a distributor, and the distributors correspond to the faucets;

the gas bottle is respectively connected with the plurality of distributors through gas pipes;

one end of the electromagnetic valve is respectively connected with the plurality of distributors through a first liquid pipe, and the other end of the electromagnetic valve is respectively connected with the plurality of faucets through a second liquid pipe and a third liquid pipe;

the heating module is arranged on the third liquid pipe and used for heating the liquid in the third liquid pipe;

the cold drink button is arranged on the shell and is electrically connected with the electromagnetic valve; and

the hot drink button is arranged on the shell and is electrically connected with the electromagnetic valve;

when a cold drink button is pressed and one faucet is pulled down, the gas bottle applies pressure to the liquid barrel of the distributor corresponding to the pulled faucet, so that the liquid in the liquid barrel flows out of the faucet through the distributor, the first liquid pipe, the electromagnetic valve and the second liquid pipe;

wherein, when a hot drink button is pressed and one of the taps is pulled down, the gas bottle applies pressure to the barrel of the dispenser corresponding to the pulled-down tap, so that the liquid in the barrel flows out of the tap through the dispenser, the first liquid pipe, the solenoid valve and the third liquid pipe.

2. The cold and hot integrated beverage device according to claim 1, wherein an insulating layer is disposed between the housing and the storage compartment, and the insulating layer is made of PASCAL polyurethane.

3. The cold-hot integrated drink unit according to claim 1, wherein the storage compartment has a structural post thereon for supporting the storage compartment.

4. The cold-hot integrated beverage appliance according to claim 1, wherein the direct air-cooled hybrid refrigeration module comprises a refrigeration system component and an air-cooled system component.

5. The cold-hot integrated beverage device according to claim 4, wherein the direct cooling system component comprises a compressor, a copper pipe, a coil, a motor, a fan and a heat dissipation grid, and the refrigeration system component is used for physically cooling and refreshing the liquid in the liquid barrel.

6. The cold and hot integrated beverage device according to claim 5, wherein the air cooling system component comprises a compressor, a copper pipe, a coil, a motor, a fan and a heat dissipation grid, and the air cooling system component is used for assisting the refrigeration system component in physically cooling and refreshing the liquid in the liquid barrel.

7. The cold-hot integrated beverage apparatus according to claim 1, further comprising a multi-fresh-keeping module, and the multi-fresh-keeping module comprises: the device comprises a gas fresh-keeping component, a pressure double-circulation component and a multiple temperature control component.

Technical Field

The invention relates to the technical field of mechanical equipment, in particular to cold and hot integrated beverage equipment.

Background

At present, in all the existing beverage preparation business scenes, a beverage base needs to be prepared in advance, and strict beverage storage conditions need to be followed, however, the preparation process has certain disadvantages:

1. the beverage can be stored for 4-8 hours generally, and operators are difficult to distinguish whether the beverage is overdue or not, so that the food safety problem is easily caused;

2. when the beverage is made, the output quality is unstable due to manual product discharge, and the links of sanitation, measurement standards and the like are particularly difficult to control;

3. when the staff makes the cold and hot drinks, different equipment is needed, the working process is complicated, long and difficult to standardize, and the requirement on the operation area of a store is higher;

4. the efficiency of beverage production is not enough to deal with huge order quantity, and causes the reduction of store operation efficiency and the loss of turnover.

The information disclosed in this background section is only for enhancement of understanding of the general background of the invention and should not be taken as an acknowledgement or any form of suggestion that this information forms the prior art already known to a person skilled in the art.

Disclosure of Invention

The invention aims to provide cold and hot integrated beverage equipment which is simple and reasonable in structure, can realize standardized and stable output of beverages, and improves the automation degree of beverage production.

In order to achieve the above object, the present invention provides a cold and hot integrated drink device, comprising: the hot drink machine comprises a shell, a plurality of faucets, a storage cabin, a plurality of liquid barrels, a gas bottle, a solenoid valve, a heating module, a cold drink button and a hot drink button. A plurality of faucets are disposed on the housing. The storage cabin is arranged in the shell, and a refrigeration module with wind direct-cooling mixing is integrated in the storage cabin. A plurality of liquid barrels are arranged in the storage cabin, each liquid barrel is provided with a distributor, and the distributors correspond to the faucets. The gas bottle is respectively connected with a plurality of distributors through gas pipes. One end of the electromagnetic valve is connected with the plurality of distributors through the first liquid pipe respectively, and the other end of the electromagnetic valve is connected with the plurality of faucets through the second liquid pipe and the third liquid pipe respectively. The heating module is arranged on the third liquid pipe and used for heating the liquid in the third liquid pipe. The cold drink button is arranged on the shell and is electrically connected with the electromagnetic valve. The hot drink button is arranged on the shell and is electrically connected with the electromagnetic valve. When the cold drink button is pressed and one faucet is pulled down, the gas bottle applies pressure to the liquid barrel of the distributor corresponding to the pulled-down faucet, so that the liquid in the liquid barrel flows out of the faucet through the distributor, the first liquid pipe, the electromagnetic valve and the second liquid pipe. When the hot drink button is pressed and one faucet is pulled down, the gas bottle applies pressure to the liquid barrel of the distributor corresponding to the pulled-down faucet, so that the liquid in the liquid barrel flows out of the faucet through the distributor, the first liquid pipe, the electromagnetic valve and the third liquid pipe.

In an embodiment of the present invention, an insulating layer is disposed between the housing and the storage compartment, and the insulating layer is made of PASCAL polyurethane.

In one embodiment of the present invention, the storage compartment has a structural post thereon, and the structural post is used to support the storage compartment.

In one embodiment of the invention, a direct air-cooled hybrid refrigeration module includes a refrigeration system assembly and an air-cooled system assembly.

In an embodiment of the present invention, the direct cooling system component includes a compressor, a copper pipe, a coil, a motor, a fan, and a heat dissipation grid, and the refrigeration system component is used for physically cooling and refreshing the liquid in the liquid barrel.

In an embodiment of the present invention, the air cooling system component includes a compressor, a copper pipe, a coil, a motor, a fan, and a heat dissipation grid, and the air cooling system component is used to assist the refrigeration system component in physically cooling and refreshing the liquid in the liquid barrel.

In an embodiment of the present invention, the cold and hot integrated beverage device further includes a multiple fresh-keeping module, and the multiple fresh-keeping module includes: the device comprises a gas fresh-keeping component, a pressure double-circulation component and a multiple temperature control component.

Compared with the prior art, the cold and hot integrated beverage equipment is simple and reasonable in structure, can realize standardized and stable output of the beverage prepared in a central factory, and improves the automation degree of the beverage; meanwhile, the drinking requirements of consumers on freshness, health and no addition are met through a multiple preservation system; and the device is easy to install, maintain and clean and can be directly used in the conventional environment.

Drawings

Fig. 1 is a schematic logic block diagram of a cold and hot integrated drink appliance according to an embodiment of the present invention;

fig. 2 is a schematic top view of a cold and hot integrated drink device according to an embodiment of the present invention.

Description of the main reference numerals:

1-shell, 2-insulating layer, 3-liquid barrel, 4-distributor, 5-faucet, 6-structural column and 7-heating module.

Detailed Description

The following detailed description of the present invention is provided in conjunction with the accompanying drawings, but it should be understood that the scope of the present invention is not limited to the specific embodiments.

Throughout the specification and claims, unless explicitly stated otherwise, the word "comprise", or variations such as "comprises" or "comprising", will be understood to imply the inclusion of a stated element or component but not the exclusion of any other element or component.

Fig. 1 is a logic block diagram of a hot and cold integrated drink appliance according to an embodiment of the present invention. Fig. 2 is a schematic top view of a cold and hot integrated drink device according to an embodiment of the present invention.

As shown in fig. 1 to 2, a cold and hot integrated drink appliance according to a preferred embodiment of the present invention includes: the device comprises a shell 1, a plurality of faucets 5, a plurality of liquid barrels 3 of a storage cabin, a gas bottle, an electromagnetic valve, a heating module 7, a cold drink button and a hot drink button. A plurality of taps 5 are provided on the housing 1. The storage cabin is arranged in the shell 1, and a refrigeration module with wind direct-cooling mixing is integrated in the storage cabin. A plurality of liquid barrels 3 are arranged in the storage cabin, each liquid barrel 3 is provided with a distributor 4, and the distributors 4 are arranged corresponding to the faucets 5. The gas bottles are connected to a plurality of distributors 4 through gas pipes, respectively. One end of the solenoid valve is connected with the plurality of distributors 4 through a first liquid pipe, respectively, and the other end of the solenoid valve is connected with the plurality of taps 5 through a second liquid pipe and a third liquid pipe, respectively. The heating module 7 is disposed on the third liquid pipe for heating the liquid in the third liquid pipe. The cold drink button is arranged on the shell 1 and is electrically connected with the electromagnetic valve. The hot drink button is arranged on the shell 1 and is electrically connected with the electromagnetic valve. Wherein, when the cold drink button is pressed and one of the taps 5 is pulled down, the gas bottle applies pressure to the liquid barrel 3 of the dispenser 4 corresponding to the pulled-down tap 5, so that the liquid in the liquid barrel 3 flows out of the tap 5 through the dispenser 4, the first liquid pipe, the solenoid valve and the second liquid pipe. Wherein, when the hot drink button is pressed and one of the taps 5 is pulled down, the gas bottle applies pressure to the tub 3 of the dispenser 4 corresponding to the pulled-down tap 5, so that the liquid in the tub 3 flows out of the tap 5 through the dispenser 4, the first liquid pipe, the solenoid valve, and the third liquid pipe.

In one embodiment of the invention, the heat-insulating layer 2 is arranged between the shell 1 and the storage cabin, and the heat-insulating layer 2 is made of PASCAL polyurethane, so that the heat-insulating property can reduce the energy consumption of a refrigerator and a freezer and save the electricity consumption while prolonging the food preservation period. The storage compartment has structural posts 6 thereon, and the structural posts 6 are used to support the storage compartment.

In one embodiment of the invention, a direct air-cooled hybrid refrigeration module includes a refrigeration system assembly and an air-cooled system assembly. The direct cooling system component comprises a compressor, a copper pipe, a coil pipe, a motor, a fan and a heat dissipation grating, and the refrigerating system component is used for physically cooling and preserving the liquid in the liquid barrel 3.

In an embodiment of the present invention, the air cooling system component includes a compressor, a copper pipe, a coil, a motor, a fan, and a heat dissipation grid, and the air cooling system component is used to assist the refrigeration system component in physically cooling and refreshing the liquid in the liquid barrel 3. Integrative drink equipment of cold and hot still includes multiple fresh-keeping module, and multiple fresh-keeping module includes: the device comprises a gas fresh-keeping component, a pressure double-circulation component and a multiple temperature control component.

In practical applications, when the cold drink button is pressed and one of the taps 5 is pulled down, the gas bottle applies pressure to the liquid barrel 3 of the dispenser 4 corresponding to the pulled-down tap 5, so that the liquid in the liquid barrel 3 flows out of the tap 5 through the dispenser 4, the first liquid pipe, the solenoid valve and the second liquid pipe. When the hot drink button is pressed and one of the taps 5 is pulled down, the gas bottle applies pressure to the liquid barrel 3 of the dispenser 4 corresponding to the pulled-down tap 5, so that the liquid in the liquid barrel 3 flows out of the tap 5 through the dispenser 4, the first liquid pipe, the solenoid valve, and the third liquid pipe. Specifically, the working principle of the distributor 4 is to control the opening and closing state of the liquid barrel through a mechanical switch, and simultaneously connect an air pipe and a liquid pipe externally, once the distributor is opened, the liquid can be output through the pressure input by the air pipe, and the distributor 4 is the most important and most direct part for communicating the liquid barrel and the outside, which is equivalent to a 'key' for opening a room. Meanwhile, a pressure relief valve arranged in the distributor 4 can automatically relieve pressure when pressure overload occurs, so that the safety of the liquid barrel is ensured.

The environment in the equipment is a refrigerating environment, and the requirement of cold drinks is met, so that the internal volume of the equipment can be regarded as a refrigerator, and the compressor provides refrigeration, and the cold drinks are directly taken out of the cup. If the customer needs cold drink, the working flow of the equipment is as follows: the pressure in the pipeline is reduced by pulling down the corresponding tap 5 of the beverage required by the customer. The pressure exerted by the gas bottle on the liquid barrel causes the liquid to be forced through the liquid spear, the dispenser 4, the tubing line into the corresponding tubing line in the liquid column, eventually completing the cup out action via the tap 5. Example (b): the customer needs the cold drink flow of the Pu 'er raw tea, pulls down the faucet 5 with the corresponding taste, and the Pu' er raw tea is discharged from the cup from the liquid barrel through the distributor 4, the pipeline and the faucet 5.

The equipment is internally provided with a heating module 7 which is connected through a built-in pipeline link. If the customer needs hot drink, firstly press the hot drink button to switch the hot and cold drink, and then pull the tap 5 corresponding to the drink needed by the customer, the pressure in the pipeline is reduced. The pressure that the gas bottle applyed to the liquid bucket results in liquid compelled to pass through liquid lance, distributor 4, pipeline and get into in the heating element and heat, flow into corresponding pipeline in the liquid post again, finally accomplish out the cup action via tap 5. Thus, consistent with a cold drink operation, only the internal piping is switched, and appears the same from the outside. Example (b): the customer needs a hot drink flow, presses the hot drink button, and the solenoid valve opens the heating component passage. The Pu-Er ripe tea is pulled down to correspond to the faucet 5, the Pu-Er ripe tea enters the heating component from the liquid barrel through the distributor 4 and the pipeline for heat exchange and flows out, and hot drink of the Pu-Er ripe tea is realized through the faucet 5. The passage of the cold and hot drinks is switched by a solenoid valve controlled by a hot drink button.

The air-direct cooling mixed hybrid refrigeration system is integrated in the storage cabin, and the working principle is that the refrigerant carries out cold and heat exchange in a pipeline in the direct cooling module and the air cooling module through the compressor. The air direct cooling system is connected with a compressor, a copper pipe, a coil pipe, a motor, a fan and a heat dissipation grid of the equipment. The device can be used for quickly refrigerating in a coil pipe refrigerating mode, and the inside of the device can be uniformly refrigerated in an air cooling mode. So as to be beneficial to the stability of the environment and the fresh-keeping of the drinks. The air inlet and outlet pipes are respectively arranged at the top and the bottom of the air cooling module and communicated with the air cooling module in the equipment, so that the effects of manufacturing air circulation in the storage cabin and enabling the refrigeration effect to be better, more uniform and more efficient are achieved.

The multiple fresh-keeping system of the invention is divided into: the air fresh-keeping system comprises a gas fresh-keeping system, a pressure double-circulation system, a multiple temperature control system, a refrigeration assembly and an air cooling assembly. The gas fresh-keeping system comprises a pressure gas cylinder, a pressure reducer, a gas pipeline and a distributor 4, and the principle is a gas isolation fresh-keeping system which prevents liquid from carrying out various oxidation reactions by nitrogen or other effective gases. The pressure double circulation system comprises a pressure sensor, a control assembly, a time delay device, an electromagnetic valve, a relay, a gas pipeline and a distributor 4. The principle is that a pressure system is triggered by a switch to perform pressure supplementing operation on a pipeline, so that all liquid is kept in a cold storage and fresh keeping state all the time. The multiple temperature control system comprises a temperature sensor and a precision temperature controller. The temperature is accurately controlled, and fresh-keeping measures are applied to the liquid from the physical angle. The direct cooling system component comprises a compressor, a copper pipe, a coil pipe, a motor, a fan, a heat dissipation grid and a main refrigerating system in the storage cabin, and the direct cooling system component performs physical cooling and fresh-keeping measures on liquid. The air cooling system component comprises a compressor, a copper pipe, a coil pipe, a motor, a fan and a heat dissipation grid, a main gas circulation manufacturing system in the storage cabin and an auxiliary direct cooling system for performing physical cooling and fresh-keeping measures on liquid.

In a word, the cold and hot integrated beverage equipment is simple and reasonable in structure, can realize standardized and stabilized output of the beverage prepared in a central factory, and improves the automation degree of the beverage output; meanwhile, the drinking requirements of consumers on freshness, health and no addition are met through a multiple preservation system; and the device is easy to install, maintain and clean and can be directly used in the conventional environment.

The foregoing descriptions of specific exemplary embodiments of the present invention have been presented for purposes of illustration and description. It is not intended to limit the invention to the precise form disclosed, and obviously many modifications and variations are possible in light of the above teaching. The exemplary embodiments were chosen and described in order to explain certain principles of the invention and its practical application to enable one skilled in the art to make and use various exemplary embodiments of the invention and various alternatives and modifications as are suited to the particular use contemplated. It is intended that the scope of the invention be defined by the claims and their equivalents.