CN211632839U

CN211632839U - Full-automatic direct-cooling type beverage vending machine

Info

Publication number: CN211632839U
Application number: CN201922322321.4U
Authority: CN
Inventors: 张文丞
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-12-23
Filing date: 2019-12-23
Publication date: 2020-10-09
Anticipated expiration: 2029-12-23

Abstract

The utility model relates to a machine is selld to full-automatic direct-cooling type beverage, including shell and control screen, shell the place ahead installation control screen, shell the place ahead is equipped with the finished product export, shell internally mounted gets the cupule, handling device, condiment adds the device, cold liquid manufacturing installation, the bottle capper, get and be equipped with a plurality of beverage container in the cupule, handling device takes out beverage container from getting the cupule and carries condiment interpolation device, cold liquid manufacturing installation, the bottle capper, the condiment adds the condiment prescription that the device confirms and adds the condiment to the beverage container, cold liquid manufacturing installation carries the beverage container with the cold liquid that produces, last handling device carries the beverage container to the bottle capper beverage container and carries out the closing cap, the beverage container that the finished product beverage was adorned finally reachs the finished product exit, make the original taste, the ice-cold beverage that accords with individual taste, bring for user experience better, the individual customization requirements of consumers are met, and the DIY is realized to prepare the beverage.

Description

Full-automatic direct-cooling type beverage vending machine

Technical Field

The utility model relates to a machine field is selld to the beverage, and machine is selld to concretely relates to full-automatic direct-cooling type beverage.

Background

The beverage vending machine is a machine placed outdoors or indoors for automatically vending beverages, and brings convenience to life requirements of people, the existing beverage vending machine is mainly used for vending various brands of bottled beverages (such as everything, unification, master kang and the like), the tastes of the beverages are the beverages which are prepared by manufacturers in advance and cannot be changed, meanwhile, in order to be stored for a long time, more or less preservatives can be added, and the beverages can not be made into original taste and flavor. In addition, the existing beverage vending machines and beverage shop beverage machines rapidly make ice liquid beverages by adding ice cubes into hot beverages, and the cooling method has the defects that the mouthfeel of the beverages is directly influenced by the amount of added ice, if the ice is added too much, the beverages are diluted, the temperature of the beverages is not reduced and the beverages are possibly too thick, and the mouthfeel of the beverages is influenced by the melting speed of the ice cubes, so that consumers cannot drink the beverages with good mouthfeel.

SUMMERY OF THE UTILITY MODEL

Technical problem to prior art exists, the utility model aims to provide a can add condiment, the good full-automatic direct-cooling type beverage of cool taste according to user's oneself selection sells machine, concrete technical scheme as follows:

the full-automatic direct-cooling type beverage vending machine comprises a shell and a control screen, wherein the control screen is installed in front of the shell, a finished product outlet is formed in front of the shell, a cup taking device, a conveying device, a seasoning adding device, a cold liquid manufacturing device and a capping machine are installed inside the shell, a plurality of beverage containers are installed in the cup taking device, the conveying device takes out the beverage containers from the cup taking device and conveys the beverage containers to the seasoning adding device, the cold liquid manufacturing device and the capping machine, the seasoning adding device adds seasonings into the beverage containers according to a determined seasoning formula, the cold liquid manufacturing device manufactures cold liquid and conveys the cold liquid to the beverage containers, the capping machine caps the beverage containers filled with the seasonings and the cold liquid, and the conveying device conveys the capped beverage containers to the finished product outlet.

As a preferred scheme of the utility model, the cold liquid manufacturing device comprises a raw material box, a material channel, a brewing container, a heating cylinder, a first-stage cooling sleeve, a second-stage cooling sleeve, a cooling liquid container, a cooling liquid temporary storage and a plurality of connecting pipes, raw materials or material packages are arranged in the raw material box, the raw materials or the material packages are conveyed to the brewing container through the material channel, the heating cylinder is arranged above the brewing container and used for heating drinking water, the heating cylinder is communicated with the brewing container through the connecting pipes, the material packages or the raw materials are arranged in the brewing container, the first-stage cooling sleeve and the second-stage cooling sleeve are of double-layer structures, the cooling liquid container is pre-filled with low-temperature cooling liquid, the brewing container is communicated with an inner pipe of the first-stage cooling sleeve through the connecting pipes, an outer pipe of the first-stage cooling sleeve is communicated with a room temperature water source, the hot beverage output from the brewing container reaches the first-stage cooling sleeve, the hot beverage is subjected to heat exchange with room-temperature water in the first-stage cooling sleeve to realize first cooling, the beverage subjected to the first cooling reaches the second-stage cooling sleeve to be subjected to heat exchange with low-temperature cooling liquid to realize second cooling and form ice beverage, the cooling liquid subjected to the heat exchange is changed into high-temperature cooling liquid, the high-temperature cooling liquid in the cooling liquid temporary storage enters the cooling liquid temporary storage, and the high-temperature cooling liquid in the cooling liquid temporary storage flows back to the cooling liquid container after the low-temperature cooling liquid in the cooling liquid container is discharged, so that the low-temperature cooling liquid is prevented.

As the utility model discloses a preferred scheme still includes and carries out circulative cooling's cooling system to the coolant liquid, and cooling system includes heat exchanger, refrigerant, compressor, and the heat exchanger passes through connecting pipe intercommunication coolant liquid container, and the coolant liquid in the coolant liquid container reachs the heat exchanger, and the refrigerant carries out the heat exchange with the coolant liquid, and the coolant liquid after the cooling gets back to the coolant liquid container again.

As a preferable scheme of the present invention, the cooling liquid is propylene glycol or ethylene glycol.

As an optimal scheme of the utility model, the pre-heating board is installed to coolant liquid container top, preheats the board and carries the heating jar after preheating liquid.

As a preferred scheme of the utility model, steep container rear is equipped with the fixed axle, the first gear of fixed axle tip installation, the first motor of shell internally mounted, first motor output shaft installation second gear, first gear and second gear intermeshing, the waste material is poured in the slope of first motor drive steep container.

As a preferred aspect of the present invention, the cold liquid producing apparatus further comprises a lid closing mechanism for closing the opening above the brewing container, the lid closing mechanism comprises a second motor, a third gear, a rack, and a container lid, the third gear is mounted on an output shaft of the second motor, the third gear is meshed with the rack, the container lid is connected to the lower end of the rack, and the container lid is located above the brewing container.

As a preferred scheme of the utility model, the material way is slide plate or conveyer belt or feeding pusher.

As an optimized scheme of the utility model, installation polylith baffle in the shell, polylith baffle is around keeping apart condiment interpolation device alone, and air condition compressor makes condiment be in the fresh-keeping state of low temperature.

As an optimized proposal of the utility model, the heat exchanger is a coil heat exchanger or a plate heat exchanger.

Has the advantages that: when the full-automatic direct-cooling beverage vending machine of the utility model is used, the carrying device takes out the beverage container from the cup taking device, the seasoning adding device determines the seasoning formula to add the seasoning into the beverage container, the cold liquid manufacturing device conveys the manufactured cold liquid to the beverage container, finally the carrying device carries the beverage container to the cap sealing machine for sealing, the beverage container filled with the finished beverage finally reaches the finished product outlet, the cool beverage which is original in taste and flavor and meets the personal taste is made, the user experience is better brought, the individual customization demand of the consumer is met, the DIY preparation of the beverage is realized, and cold liquid manufacturing installation can accomplish incessant circulation cooling liquid, need not to wait for, and is efficient, does not rely on personnel's skill proficiency, can not excessively dilute beverage or beverage too thick and influence the taste, can make the ice liquid beverage that the taste is delicious, original taste.

Drawings

Fig. 1 is a perspective view of the present invention;

fig. 2 is an exploded view of the present invention;

FIG. 3 is an overall flow diagram of the present invention;

fig. 4 is a perspective view of the cold liquid producing apparatus of the present invention;

FIG. 5 is a perspective view of the device for producing cold liquid according to the present invention with the material box and the material passage hidden;

FIG. 6 is a schematic structural view of the beverage of the present invention during heat exchange in the primary cooling jacket and the secondary cooling jacket;

FIG. 7 is a block diagram of a first motor controlling the tilt of the brewing container of the present invention;

fig. 8 is a perspective view of the closing mechanism of the present invention;

fig. 9 is a flowchart of the apparatus for producing cold liquid according to the present invention.

Detailed Description

The following description of the embodiments of the present invention will be made with reference to the accompanying drawings:

in the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the indicated position or element must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood as appropriate by those of ordinary skill in the art.

As shown in fig. 1 and 2, the full automatic direct cooling type beverage vending machine comprises a housing 1 and a control panel 2, the control panel 2 is installed in front of the housing 1, a finished product outlet 3 is arranged in front of the housing 1, a cup taking device 4, a carrying device 5, a flavoring adding device 6, a cold liquid manufacturing device 7 and a capping machine 8 are installed in the housing 1, a plurality of beverage containers 9 are installed in the cup taking device 4, the beverage containers 9 can be cups, cans, bottles and the like, the carrying device 5 takes out the beverage containers 9 from the cup taking device and carries the beverage containers 9 to the flavoring adding device 6, the cold liquid manufacturing device 7 and the capping machine 8, in the embodiment, the carrying device 5 is a mechanical arm, the flavoring adding device 6 adds flavoring to the beverage containers 9 according to a determined flavoring formula, a consumer can determine a flavoring composition on the control panel 2, the cold liquid manufacturing device 7 manufactures cold liquid and carries the cold liquid to the beverage containers 9, the capper 8 caps the beverage container 9 filled with the seasoning and the cold liquid, and the carrier 5 carries the capped beverage container 9 to the finished product outlet.

Specifically, the flavoring added into the beverage container by the flavoring adding device 6 is one or a mixture of syrup, fresh fruit paste, fresh milk, honey, fruit juice concentrated solution and nitrogen, the syrup, the fresh fruit paste, the fresh milk, the honey and the fruit juice concentrated solution are liquid, the nitrogen is filled in a nitrogen bottle, the output quantity of the flavoring at each time can be controlled by adopting a sensor, the cold liquid produced by the cold liquid producing device 7 is any one of cold tea soup, cold coffee and plain boiled water, when the cold tea soup is prepared into syrup, the fresh fruit paste, the fresh milk, the honey and the fruit juice concentrated solution, the cold tea beverage can be prepared, the cold coffee is prepared into syrup and the fresh milk, the cold coffee is prepared into coffee with different tastes, the beverage container is prepared into the flavoring firstly and then into the liquid, and the nitrogen is matched with the plain boiled water and then is filled into a filter to prepare bubble water, and then the beverage container is prepared into the liquid and then the flavoring.

As shown in fig. 3, after the user determines the formula on the control panel 2 or the mobile phone and pays, the carrying device 5, the flavoring adding device 6 and the cold liquid manufacturing device 7 receive the instruction, the carrying device 5 takes out the beverage container 9 from the cup taking device 4 and carries the beverage container to the flavoring adding device 6, the flavoring adding device 6 adds various flavorings into the beverage container 9 according to the flavoring formula, then the transporting device 5 transports the beverage container 9 to the cold liquid manufacturing device 7, the cold liquid manufacturing device 7 transports the manufactured cold liquid to the beverage container 9, the transporting device 5 transports the beverage container to the capping machine for capping, the transporting device 5 shakes the beverage container to fully mix the flavoring and the cold liquid, finally, the carrying device 5 carries the beverage container filled with the finished beverage to the finished product outlet, wherein the seasoning and payment system on the control screen or the mobile phone is not described in the prior art.

As shown in fig. 4 and 5, the cold liquid producing apparatus 7 includes a material case 71, a material passage 72, a brewing container 73, a heating cylinder 74, a primary cooling jacket 75, a secondary cooling jacket 76, a cooling liquid container 77, a coolant buffer 78, and a plurality of connecting pipes (not shown), wherein the material case 71 contains a raw material, which may be various kinds of tea granules or coffee, the raw material is conveyed to the brewing container 73 through the material passage 72, the heating cylinder 74 is installed above the brewing container 73, preferably two heating cylinders 74 are provided, the heating cylinder 74 heats drinking water, filtered water, fruit juice, etc., the heating cylinder 74 is communicated with the brewing container 73 through the connecting pipes, the brewing container 73 contains a material pack or raw material, the primary cooling jacket 75 and the secondary cooling jacket 76 have a double-layer pipe structure, the cooling liquid container 77 is pre-filled with a low temperature cooling liquid, the cooling liquid is propylene glycol or ethylene glycol, the brewing container 73 is communicated with the inner pipe of, the outer pipe of the primary cooling sleeve 75 is communicated with a room temperature water source through a connecting pipe, the inner pipe of the primary cooling sleeve 75 is communicated with the inner pipe of the secondary cooling sleeve 76, the liquid inlet of the outer pipe of the secondary cooling sleeve 76 is communicated with a cooling liquid container 77 through a connecting pipe, hot beverages output from a brewing container reach the primary cooling sleeve 75, the hot beverages are subjected to heat exchange with room temperature water in the primary cooling sleeve 75 to realize primary cooling, the beverages subjected to primary cooling reach the secondary cooling sleeve 76 and are subjected to heat exchange with low-temperature cooling liquid to realize secondary cooling and ice beverages, the cooling liquid subjected to heat exchange is changed into high-temperature cooling liquid, the high-temperature cooling liquid enters a cooling liquid temporary storage 78, the high-temperature cooling liquid in the cooling liquid temporary storage 78 is returned to the cooling liquid container 77 after the low-temperature cooling liquid in the cooling liquid container 77 is discharged, the low-temperature cooling, The secondary cooling jacket 76 and the coolant reservoir 77 may be integrated or separated, for example, the primary cooling jacket 75 and the coolant reservoir 77 may be fixed together, or the primary cooling jacket 75 and the secondary cooling jacket 76 may be fixed together, or the primary cooling jacket 75, the secondary cooling jacket 76 and the coolant reservoir 77 may be separated from each other.

As shown in fig. 6, the hot beverage outputted from the brewing container 77 reaches the primary cooling sleeve 75, the hot beverage exchanges heat with room temperature water in the primary cooling sleeve 75 to realize primary cooling, the cold beverage after primary cooling reaches the secondary cooling sleeve 76 to realize secondary cooling and become ice beverage, the cooling liquid after heat exchange becomes high temperature cooling liquid and enters the cooling liquid temporary storage 77, when the high temperature cooling liquid in the cooling liquid temporary storage is stored to a certain amount, the low temperature cooling liquid in the cooling liquid container is discharged, and then the cooling liquid is delayed to flow back to the cooling liquid container to avoid mixing the low temperature cooling liquid and the high temperature cooling liquid, which is beneficial to large-capacity cooling to avoid difficult temperature drop of the low temperature cooling liquid again and larger energy consumption, the room temperature water is tap water which is easy to obtain, the cooling liquid is propylene glycol or ethylene glycol, and the propylene glycol and the ethylene glycol can rapidly cool the beverage, the business requirement can be met without waiting too long.

The first implementation of the cooling liquid temporary storage device: the coolant buffer 78 is a single layer coil with a long spiral winding path that helps to temporarily store coolant without the need for other fittings, and when the high temperature coolant has gone through the coil path, the low temperature coolant is just completely output. Second implementation of the coolant buffer: the coolant buffer 78 is a container, and needs to be implemented by an electromagnetic valve, a water pump, etc. The addition of the coolant buffer 78 delays the time for the secondary coolant to re-enter the coolant container, increasing cooling efficiency and reducing the power requirements on the compressor. The coolant reservoir 78 may be a container of other different shapes.

The cooling system comprises a heat exchanger 711, a refrigerant and a compressor 712, wherein the heat exchanger 711 is a coil heat exchanger or a plate heat exchanger, the heat exchanger 711 is a plate heat exchanger in the figure, two heat exchangers are communicated with each other, one heat exchanger 711 is used for heat exchange between the compressor and the refrigerant, the other heat exchanger is used for heat exchange between cooling liquid and the refrigerant, the heat exchanger is communicated with a cooling liquid container through a 711 connecting pipe, the heat exchanger 711 is also connected with the compressor 712, an evaporator, a condenser and the like, the heat exchanger 711 is a common refrigeration heat exchange device and is used for cooling the cooling liquid, the cooling liquid in the cooling liquid container reaches the heat exchanger, the cooling liquid exchanges heat with the cooling liquid to change the cooling liquid into low temperature, the high-temperature cooling liquid enters a cooling liquid temporary storage device and then returns to the cooling liquid container when reaching a specified amount, and the, the burden on the compressor is reduced.

Specifically, the pre-heating plate 79 is installed above the cooling liquid container 77, the pre-heating plate 79 pre-heats the liquid and then conveys the liquid to the heating cylinder, and the pre-heating plate 79 pre-heats the liquid to reduce the heating time of the heating cylinder and ensure that the hot water is sufficient to brew the hot beverage.

As shown in fig. 7, a fixed shaft 713 is arranged behind the brewing container 73, a first gear 714 is arranged at the end of the fixed shaft 713, a first motor 715 is arranged in the housing 1, a second gear 710 is arranged on an output shaft of the first motor, the first gear 714 and the second gear 710 are meshed with each other, the first gear 715 drives the second gear 710 to rotate, the second gear 710 drives the first gear 714 to rotate, the first gear 714 drives the brewing container to rotate through the fixed shaft 713, the brewing container obliquely pours out odorless waste materials after brewing is finished, a collecting tank can be arranged in the housing 1 and is positioned below the brewing container 73 for collecting the waste materials, in addition, the cold liquid manufacturing device further comprises a plurality of water pumps and electromagnetic valves, the water pumps provide power for conveying liquid in pipelines, and the electromagnetic valves control the pipelines to be communicated.

As shown in fig. 8, the cold liquid making apparatus 7 further comprises a closing mechanism for closing an opening above the brewing container 73, the closing mechanism comprises a second motor 716, a third gear 717, a rack 718 and a container cover 719, the output shaft of the second motor is provided with the third gear 717, the third gear 717 is meshed with the rack 718, the lower end of the rack 718 is connected with the container cover 719, the container cover 719 is positioned above the brewing container 73, when hot liquid is brewed, the second motor 716 drives the container cover 719 to descend through the third gear 717 and the rack 718 to close the brewing container 73, and when waste materials need to be poured out after the hot liquid is brewed, the second motor 716 drives the container cover 719 to ascend through the third gear 717 and the rack 718.

As shown in fig. 9, the cold liquid producing apparatus 7 operates on the principle of: raw materials in the raw material box 71 are conveyed to a brewing container 73 through a material channel 72, a heating cylinder 74 heats liquid, the heated liquid reaches the brewing container 73 to be soaked to prepare hot beverage, the hot beverage enters a primary cooling sleeve, the hot beverage exchanges heat with room temperature water in the primary cooling sleeve to realize primary cooling, the beverage after primary cooling reaches a secondary cooling sleeve to realize secondary cooling and cooling with cooling liquid to obtain ice beverage, the room temperature water is tap water which is easy to obtain, the cooling liquid is propylene glycol or ethylene glycol which is fast to cool, the hot beverage obtains ice beverage quickly after secondary cooling, the cooling liquid after heat exchange is changed into high-temperature cooling liquid which enters a cooling liquid temporary storage, the high-temperature cooling liquid in the cooling liquid temporary storage stores a certain amount of low-temperature cooling liquid in the cooling liquid container, and then the low-temperature cooling liquid is completely discharged and then flows back to the cooling liquid container, so that the high-temperature cooling liquid can be prevented from flowing, avoid the mixed offset of cryogenic cooling liquid and high temperature coolant liquid to cause the temperature rise in the twinkling of an eye, can not produce bigger energy consumption because of the temperature rise of mixing when making the coolant liquid cool down again, improve cooling efficiency energy saving, can accomplish incessant circulation low temperature cooling beverage, need not to produce bigger energy consumption, high efficiency, satisfy the commercialization demand, need not to add the ice-cube in addition, can not dilute the beverage and influence the taste, can produce the ice liquid beverage that the taste is delicious, the original taste, make liquid beverage low temperature seal lock the fragrance.

Install polylith baffle in the shell 1, polylith baffle separates condiment interpolation device 6 alone with remaining cup ware 4, handling device 5, cold liquid manufacturing installation 7, the capper 8 of getting apart, and air condition compressor makes condiment be in low temperature fresh-keeping state, and the baffle avoids the air conditioning to run off.

To sum up, the utility model discloses machine is selld to full-automatic direct-cooling type beverage can add condiment formulas such as customized syrup, bright fruit paste, fresh milk, honey, fruit juice concentrate in toward the beverage according to consumer's individual taste demand, makes the beverage that accords with different people's taste, brings very good taste for the consumer, satisfies consumer's individual customization demand, realizes DIY preparation beverage.

The above description is provided for the purpose of describing the present invention in more detail with reference to the preferred embodiments, and it should not be construed that the present invention is limited to these descriptions, and it will be apparent to those skilled in the art that the present invention can be implemented in many ways without departing from the spirit and scope of the present invention.

Claims

1. Machine is selld to full-automatic direct-cooling formula beverage, including shell and control panel, shell the place ahead installation control panel, shell the place ahead is equipped with the finished product export, its characterized in that: the cup taking device is internally provided with a plurality of beverage containers, the carrying device takes the beverage containers out of the cup taking device and carries the beverage containers to the seasoning adding device, the cold liquid manufacturing device and the capping machine, the seasoning adding device adds seasonings into the beverage containers according to a determined seasoning formula, the cold liquid manufacturing device manufactures cold liquid and conveys the cold liquid to the beverage containers, the capping machine caps the beverage containers filled with the seasonings and the cold liquid, and the carrying device conveys the capped beverage containers to a finished product outlet.

2. The full automatic direct-cooling beverage vending machine according to claim 1, wherein: the cold liquid manufacturing device comprises a raw material box, a material channel, a brewing container, a heating cylinder, a first-stage cooling sleeve, a second-stage cooling sleeve, a cooling liquid container, a cooling liquid temporary storage device and a plurality of connecting pipes, raw materials or material bags are filled in the raw material box and are conveyed to the brewing container through the material channel, the heating cylinder is installed above the brewing container and is used for heating drinking water, the heating cylinder is communicated with the brewing container through the connecting pipes, the brewing container is filled with the material bags or the raw materials, the first-stage cooling sleeve and the second-stage cooling sleeve are of double-layer pipe structures, the cooling liquid container is pre-filled with low-temperature cooling liquid, the brewing container is communicated with an inner pipe of the first-stage cooling sleeve through the connecting pipes, an outer pipe of the first-stage cooling sleeve is communicated with a room-temperature water source through the, the hot beverage output from the brewing container reaches the first-stage cooling sleeve, the hot beverage is subjected to heat exchange with room-temperature water in the first-stage cooling sleeve to realize first cooling, the beverage subjected to the first cooling reaches the second-stage cooling sleeve to be subjected to heat exchange with low-temperature cooling liquid to realize second cooling and form ice beverage, the cooling liquid subjected to the heat exchange is changed into high-temperature cooling liquid, the high-temperature cooling liquid in the cooling liquid temporary storage enters the cooling liquid temporary storage, and the high-temperature cooling liquid in the cooling liquid temporary storage flows back to the cooling liquid container after the low-temperature cooling liquid in the cooling liquid container is discharged, so that the low-temperature cooling liquid is prevented.

3. The full automatic direct-cooling beverage vending machine according to claim 2, wherein: the cooling system comprises a heat exchanger, a refrigerant and a compressor, the heat exchanger is communicated with the cooling liquid container through a connecting pipe, the cooling liquid in the cooling liquid container reaches the heat exchanger, the refrigerant and the cooling liquid exchange heat, and the cooled cooling liquid returns to the cooling liquid container.

4. The full automatic direct-cooling beverage vending machine according to claim 2, wherein: the cooling liquid is propylene glycol or ethylene glycol.

5. The full automatic direct-cooling beverage vending machine according to claim 2, wherein: and a preheating plate is arranged above the cooling liquid container, and the preheating plate preheats the liquid and then conveys the liquid to a heating cylinder.

6. The full automatic direct-cooling beverage vending machine according to claim 2, wherein: a fixed shaft is arranged at the rear of the brewing container, a first gear is mounted at the end of the fixed shaft, a first motor is mounted inside the shell, a second gear is mounted at an output shaft of the first motor, the first gear and the second gear are meshed with each other, and the first motor drives the brewing container to pour out waste materials in an inclined mode.

7. The full automatic direct-cooling beverage vending machine according to claim 2, wherein: the cold liquid manufacturing device further comprises a covering mechanism for covering the opening above the brewing container, the covering mechanism comprises a second motor, a third gear, a rack and a container cover, the third gear is mounted on an output shaft of the second motor, the third gear is meshed with the rack, the lower end of the rack is connected with the container cover, and the container cover is located above the brewing container.

8. The full automatic direct-cooling beverage vending machine according to claim 2, wherein: the material channel is a sliding plate or a conveying belt or a feeding pusher.

9. The full automatic direct-cooling beverage vending machine according to claim 1, wherein: the seasoning adding device is characterized in that a plurality of partition plates are installed in the shell, the plurality of partition plates are used for isolating the seasoning adding device independently, and the air conditioning compressor enables seasonings to be in a low-temperature fresh-keeping state.

10. The full automatic direct-cooling beverage vending machine according to claim 3, wherein: the heat exchanger is a coil type heat exchanger or a plate type heat exchanger.