CN211529257U - Automatic coffee vending machine - Google Patents

Abstract

The utility model relates to an automatic coffee vending machine, which comprises a vending system, a coffee making system and a cup loading system; the cup loading system comprises a base, a rotary material platform, a cup body guide mechanism, a cup falling cover mechanism, a gland mechanism and a control system, wherein the cup body guide mechanism, the cup falling cover mechanism and the gland mechanism are arranged around the rotary material platform; the rotary material table is an autonomous controllable full-circle motion platform and comprises a rotary table, a bottom support and a rotary material table driving motor; a plurality of bottom supports are uniformly distributed on the rotary table; the turntable is divided into 5 stations according to the bottom support; according to the mechanism arranged at the position of the bottom support, the rotary material platform is divided into a cup falling station, a filling station, a cover falling station, a cover pressing station and a material taking station. The utility model discloses a reliable and stable automatic coffee machine host computer of selling is as dress cup system, and mechanical structure is ripe reliable, and the complete machine operation links up steadily, can be fine satisfy the market demand.

Description

Automatic coffee vending machine

Technical Field

The utility model relates to an automatic coffee machine of selling belongs to mechatronic equipment field.

Background

With the change of science and technology and consumption habits, unmanned vending machines are more and more popular at present; among them, beverage vending machines represent a large market share; for beverage vending machines, consumers are no longer just buying traditional bottled beverages, but are pursuing freshly squeezed cups or brewed beverages, so that the automatic coffee vending machines are rapidly developed along with popularization of coffee brands.

Vending coffee machines, generally including vending systems, coffee (beverage) making systems, and cup filling systems; the vending system belongs to the field of electronic equipment, and realizes a vending program through a human-computer interface; then the coffee (beverage) making system takes materials and makes according to the selling information; then through annotating the material aircraft nose, annotate the material, the dress cup system then needs according to the instruction, prepares the cup, annotates the material, the lid, then transmits the beverage of dress cup to getting the goods window, makes things convenient for the consumer to get the beverage.

The cup loading system is used as an internal core component of the automatic coffee vending machine, and a plurality of mechanical transmission components are used, so that the operational reliability of the automatic coffee vending machine is seriously influenced. For example, a full-automatic freshly ground coffee machine with chinese patent publication No. CN109222657A, a capping mechanism of an intelligent beverage extraction machine with chinese patent publication No. CN110844147A, a cup and cap dropping device with chinese patent publication No. CN208589101U, and related patents of vending machine parts such as juice makers are all structural designs around an automatic cup loading system therein.

However, the existing automatic coffee vending machine has several design defects, which cause some problems in use; if the cup stand is high, the cup is clamped deeply after entering the cup stand, and then the cup is pressed by the cup cover, so that the clamping of the cup is too tight, the taking out of the cup by a consumer is influenced, and even the force application is too large when the cup is taken out again, so that the beverage is spilled; meanwhile, the design of a transmission mechanism in part of equipment is complex, so that the failure rate is quite high, once the automatic coffee vending machine sends a local failure, the automatic coffee vending machine needs to be stopped to wait for maintenance personnel to remove the failure, and the sales volume and the experience of consumers are influenced.

Therefore, for automatic coffee vending machines, further improvement of the structure is needed, the overall stability and reliability of the machine are improved, and the final coffee taking experience of consumers is improved.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an automatic sell coffee machine to improve current automatic sell coffee machine's inside dress cup system architecture, improve equipment's stability, reliability promote consumer's the experience of taking simultaneously.

In order to achieve the purpose, the utility model provides an automatic coffee vending machine, which comprises a vending system and a coffee making system, and is characterized by also comprising a cup loading system;

the cup loading system comprises a base, a rotary material platform, a cup body guide mechanism, a cup falling cover mechanism, a gland mechanism and a control system, wherein the cup body guide mechanism, the cup falling cover mechanism and the gland mechanism are arranged around the rotary material platform;

the control system is electrically connected with the electric control components in the rotary material table, the cup body guide mechanism, the cup falling cover mechanism and the gland mechanism, and is also electrically connected with the filling port of the coffee making system;

the rotary material table is an autonomous controllable full-circle motion platform and comprises a rotary table, a bottom support and a rotary material table driving motor;

the turntable is positioned above the base; the rotary material table driving motor is fixed below the base;

a plurality of bottom supports are uniformly distributed on the rotary table, and the bottom supports are fixed on the outer edge of the upper surface of the rotary table through fasteners; the turntable is divided into 5 stations according to the bottom support; according to the mechanism arranged at the position of the bottom support, the rotary material platform is divided into a cup falling station, a filling station, a cover falling station, a cover pressing station and a material taking station;

the cup body guide mechanism and the cup falling mechanism are arranged above the cup falling station; a beverage filling opening is arranged above the filling station, and a beverage making system is connected behind the filling opening; the cup cover falling mechanism is arranged above the cover falling station; the gland mechanism is arranged above the gland station; the material taking station corresponds to a material taking port of the automatic coffee vending machine.

The control system coordinately controls all the parts to work in a matching way, and finishes the work of cup falling, filling, cup cover falling, cup cover pressing and discharging in sequence.

As a further improvement of the utility model, the bottom of the turntable is provided with a riding wheel; the riding wheel is fixed on the back of the turntable through a rolling wheel seat, and a rolling wheel in the riding wheel is pressed on the upper surface of the base; more than 2 riding wheels are arranged and uniformly distributed on the outer edge of the bottom surface of the rotary table.

Further preferably, the number of the riding wheels is equal to that of the bottom supports, the number of the riding wheels is 5, and 1 riding wheel is fixed below each bottom support.

As a further improvement of the invention, the cup body guiding mechanism comprises a guiding driving system and a cup guiding mechanism;

the guide driving system is vertically arranged on the base, and a guide sliding table capable of lifting is arranged on the guide driving system; the guide cup mechanism is fixed on the guide sliding table;

the cup guide mechanism comprises a cup guide frame, a transverse guide rail, a guide clamping block, a guide roller and a guide V-shaped frame;

the guide cup frame is fixed on the guide sliding table through a fastener and can move up and down along with the guide sliding table;

a horizontal guide rail which is horizontally arranged is fixed on the cup guide frame, 1 pair of guide clamping blocks are arranged on the horizontal guide rail, the guide clamping blocks are installed on the horizontal guide rail through sliding blocks, and 1 pair of guide clamping blocks can move oppositely or oppositely along the horizontal guide rail;

the guide V frame is fixed on the base, a guide groove is formed in the inner side of the guide V frame, and the guide grooves in the two sides are in a V shape; the guide clamping block on each side is matched with the guide groove on each side; the guide clamping block is accommodated in a V-shaped space formed by the guide grooves on the two sides;

when the guide driving system drives the guide sliding table to move downwards or upwards, the transverse guide rail is synchronously driven to move downwards or upwards, the guide clamping block also moves downwards or upwards synchronously, and the guide clamping block is limited by a V-shaped guide groove on the inner side of the guide V frame and also moves oppositely or back to back;

the guide clamping block is also provided with a guide arc plate extending out, when the guide clamping block is driven to the bottom by the guide driving system, the guide arc plate is embraced and is positioned right above the bottom support, and the guide arc plate on the side 2 forms a guide funnel body; when the guide clamping block is driven to the top by the guide driving system, the bottom of the guide arc plate is higher than the upper edge of the cup body, and a rotating space of the cup body is made.

Furthermore, a guide roller is fixed on the outer side of the guide clamping block; the guide roller is clamped in the guide groove.

Furthermore, a spring is arranged between the 2 guide clamping blocks and provides an outward supporting force, so that the guide clamping blocks always press towards the guide groove.

As a further improvement of the utility model, the cup falling mechanism and the cup cover falling mechanism adopt a spiral groove cup separating roller mechanism, so that the whole stack of cups or cup covers are separated from the bottommost part one by one, and the bottommost part 1 is fallen down;

the spiral groove cup separating roller mechanism is fixed on the base through a cup dropping mechanism mounting seat, a cup dropping bottom plate is fixed above the cup dropping mechanism mounting seat, and a cup dropping channel is arranged in the middle of the cup dropping bottom plate; a cup falling driving mechanism and a plurality of cup separating roller mechanisms are arranged around the cup falling channel; the cup separating roller mechanisms are provided with more than 3 groups, and a plurality of cup separating roller mechanisms are uniformly distributed at the outer edge of the cup falling channel;

the cup falling driving mechanism comprises a cup falling driving motor and a driving head; the driving head is fixed on an output shaft of the cup falling driving motor and connects the cup separating roller mechanisms together through a driving belt so as to realize synchronous rotary motion of the cup separating roller mechanisms;

the cup separating roller mechanism comprises a cup separating roller mounting seat, a driven driving head capable of rotating is mounted on the cup separating roller mounting seat, and one end of the driven driving head is connected with a first gear; the cup separating roller mounting seat is also provided with a cup separating roller capable of rotating, one end of the cup separating roller is provided with a second gear, and the first gear is meshed with the second gear;

the cup separating roller is positioned below the cup separating roller mounting seat, the second gear is positioned above the cup separating roller mounting seat, and the cup separating roller and the second gear are arranged on two sides of the cup separating roller mounting seat through bearings;

the driving belt is matched with the driven driving heads, and the driven driving heads on a plurality of cup separating roller mechanisms in the spiral groove cup separating roller mechanism can be driven to synchronously rotate through 1 cup falling driving motor, so that the corresponding cup separating rollers are driven to synchronously rotate;

one part of the cup separating rollers is positioned in the cup falling channel, and a plurality of cup separating rollers are uniformly distributed around the cup falling channel; a spiral cup falling groove is formed in the cup separating roller;

the piled cup bodies or cup covers are erected on the upper surfaces of the falling cups of the cup separating rollers; the cup separating rollers rotate synchronously, the edge of the lowermost cup body or cup cover is gradually clamped into the cup falling groove, the lowermost cup body or cup cover is gradually and spirally conveyed downwards by the cup separating rollers, and finally the lowermost cup body or cup cover is transferred to the bottom of the cup separating rollers, so that the cup falling or cup cover falling is realized.

Furthermore, the width of the cup falling groove is larger than the thickness of 1 cup edge and smaller than the thickness of 2 cup edges.

Further, the driving head is a driving synchronous pulley, the driving belt is a synchronous belt, and the driven driving head is a driven synchronous pulley; the driving heads and the driven driving heads are positioned on the same horizontal plane and are driven by the driving belt in a horizontal connection mode.

As a further improvement of the present invention, the capping mechanism comprises a capping drive system and a capping component;

the gland driving system is fixed on the base through a bracket; the gland driving system is provided with a gland sliding block, and the gland sliding block is fixed with the gland component through a fastener;

the gland part comprises a gland bracket and a gland ring bracket; the gland bracket is fixed on the gland sliding block through a fastener, and the gland ring frame is horizontally fixed on the gland bracket; the gland support is located right above the bottom support of the gland station where the gland support is located.

When the automatic coffee vending machine works, a consumer operates and pays on the vending system, then the coffee making system starts making according to needs, and the cup filling system starts to prepare simultaneously; each moving part of the cup loading system sequentially works under the control of the control system, and the cup body guide mechanism firstly works to drop the guide clamping block to be in a state that the cup body is dropped; at the moment, the cup dropping mechanism works to separate 1 cup body and drop the cup body into the bottom support; after the cup is dropped, the cup body guide mechanism works reversely to lift the guide clamping block, so that a cup body rotating space is reserved; then, rotating the material platform to work, rotating the empty cup body from the cup falling station to the filling station, and beginning to inject coffee or beverage which is finished to be made into the cup body from the filling opening; after the cup body is filled, the rotary material platform continues to work, the cup body is rotated to a cover falling station, and the cup cover falls on the cup body through the cup cover falling mechanism; then the rotary material platform rotates to a capping station, the capping mechanism works, the capping ring frame presses downwards, and the cup cover is pressed into the upper opening of the cup body to realize capping; and finally, the cup covered by the cup cover is rotated to a material taking station by the rotary material table, so that the cup is convenient for a consumer to take.

The utility model realizes sequential work by setting the workbench of the whole cup loading system, namely the rotary material platform, as the workbench which can rotate in the whole circle and arranging a plurality of working stations around the workbench, thereby greatly improving the working efficiency; meanwhile, the moving parts such as the cup body guide mechanism, the cup falling cover mechanism and the gland mechanism are all designed in an integrated and modularized way, the mechanical moving mechanism is more stable and reliable, the degree of generalization is high, and the maintenance is convenient; meanwhile, each part is convenient to assemble and adjust, and can be quickly replaced and adjusted according to the shape and the size of the cup body and the cup cover, so that different market application requirements are met.

The automatic coffee vending machine of the utility model can better meet the requirements of the seller on the stability, reliability and convenience of the whole machine; and to the consumer, the utility model discloses an automatic coffee machine of selling moves high-efficiently, and the product is bought to the acquisition that can be faster, simultaneously the collet is lighter, makes things convenient for the goblet to take out.

The utility model discloses automatic sell coffee machine has adopted reliable and stable dress cup system, and mechanical structure is ripe reliable, and the complete machine operation links up steadily, can be fine satisfy market demand.

Drawings

FIG. 1 is a schematic view of the whole structure of the cup loading system of the present invention 1;

FIG. 2 is a schematic view of the whole structure of the cup loading system of the present invention 2;

fig. 3 is a top view of the rotary material table of the present invention;

FIG. 4 is a partially enlarged schematic view of the rotary material table of the present invention;

fig. 5 is a vertical sectional view of the rotary material table of the present invention;

fig. 6 is a schematic view of the overall structure of the cup body correcting mechanism of the present invention;

fig. 7 is a schematic view of the overall structure of the cup dropping mechanism of the present invention;

fig. 8 is a partially enlarged schematic view of the cup dropping mechanism of the present invention;

FIG. 9 is a schematic view of the spiral groove cup-dividing mechanism of the present invention;

fig. 10 is a schematic view of the overall structure of the capping mechanism of the present invention.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and specific embodiments.

The utility model provides an automatic coffee vending machine, which comprises a vending system, a coffee making system and a cup loading system; the cup filling system is shown in the figures 1 and 2 in the whole structure; the cup loading system of the utility model comprises a base 11, a rotary material platform 12, a cup body guide mechanism 2, a cup falling mechanism 3, a cup falling cover mechanism 4, a gland mechanism 5 and a control system, wherein the cup body guide mechanism 2, the cup falling mechanism 3, the cup falling cover mechanism 4 and the gland mechanism 5 are arranged around the rotary material platform 12; the control system is electrically connected with the electric control components in the rotary material table 12, the cup body guide mechanism 2, the cup falling mechanism 3, the cup falling cover mechanism 4 and the gland mechanism 5; and meanwhile, the control system is also electrically connected with a filling port of the coffee making system.

Rotary material table

As shown in fig. 3-5, the material platform of the cup loading system of the present invention adopts a material platform 12 capable of rotating in a whole circle, which includes a turntable 1201, a bottom support 1202 and a rotating material platform driving motor 1203.

The turntable 1201 is positioned above the base 11; the rotary material table driving motor 1203 is fixed below the base 11, so that a large driving motor can be hidden under the workbench, and the upper space is saved; the rotating material table driving motor 1203 is a servo speed reduction motor, and can rotate for a specific angle every time according to requirements.

The utility model discloses in, 5 stations are equallyd divide to the carousel 1201, after the work of last step, need rotatory material platform driving motor 1203 drives the rotatory 72 of carousel 1201, reach the station and continue work once, until the end.

A plurality of bottom brackets 1202 are uniformly distributed on the rotating disc 1201, and the bottom brackets 1202 are fixed on the outer edge of the upper surface of the rotating disc 1201 through fasteners; the bottom support 1202 can be customized according to the shape of the bottom of the cup body of the automatic coffee vending machine, and is fixed by a fastener, so that the coffee vending machine can be conveniently disassembled, assembled and replaced, and the replacement efficiency is improved.

In the present invention, there are 5 stations, so there are 5 said bottom supports 1202; according to the mechanism installed at the position of the bottom support 1202, the rotary material table 12 is divided into a cup dropping station 13, a filling station 14, a cap dropping station 15, a cap pressing station 16 and a material taking station 17.

The cup body guide mechanism 2 and the cup falling mechanism 3 are arranged above the cup falling station 13; a coffee or beverage filling opening (not shown in the attached drawings) is arranged above the filling station 14, and a coffee or beverage making system is connected behind the filling opening; the cup cover falling mechanism 4 is arranged above the cup cover falling station 15; the gland mechanism 5 is arranged above the gland station 16; the material taking station 17 directly corresponds to a material taking port of the automatic coffee vending machine, and coffee filled with cups is taken away from the station by a consumer.

According to the control of the beverage making process, when the rotary material table 12 works, only 1 station normally participates in the work at a time, so that the rotary table 1201 is in a non-uniform stress state; in order to eliminate the damage of a reduction gearbox caused by the fact that the turntable 1201 exerts an offset load acting force on the output shaft of the rotating material table driving motor 1203 for a long time, a riding wheel 1204 is further arranged at the bottom of the turntable 1201; the riding wheel 1204 is fixed on the back of the turntable 1201 through a roller seat, and the roller therein is pressed on the upper surface of the base 11; preferably, more than 2 riding wheels 1204 are arranged and uniformly distributed on the outer edge of the bottom surface of the rotating disc 1201.

Further preferably, the number of the riding wheels 1204 is the same as that of the underwires 1202, in the embodiment of the present invention, the number is 5, and 1 riding wheel 1204 is fixed below each underwire 1202; therefore, when the cup body on the bottom support 1202 is operated by the corresponding station, the supporting wheel 1204 below the cup body transfers the acting force in the vertical direction to the base 11, so that the eccentric load acting force borne by the rotating disc 1201 and the output shaft of the rotating material table driving motor 1203 is avoided.

A plurality of sensing pieces 1205 can be uniformly distributed at the bottom of the rotating disc 1201, and the sensing pieces 1205 are matched with sensors arranged on stations, so that whether the bottom support 1202 rotates to a specified position can be better determined.

Cup body guiding mechanism

To facilitate the final cup removal, the height of the inner cavity of the shoe 1202 is set shallower to facilitate the removal of the cup therefrom; however, in this case, the cup guide mechanism 2 is required to be provided so that the cup can smoothly fall into the shoe 1202; before the cup is dropped, the cup guiding mechanism 2 needs to be clamped above the bottom support 1202 to guide the cup dropping process; after the cup is completely dropped, the cup guiding mechanism of the cup body guiding mechanism 2 needs to be lifted, so that a cup body rotating space is made, and the cup body can conveniently rotate to the next station.

As shown in fig. 6, it is a schematic view of the overall structure of the cup body straightening mechanism 2 of the present invention; comprises a guide driving system 201 and a guide cup mechanism; the guide driving system 201 is a screw driving system, one end of the guide driving system is provided with a servo driving motor, the other end of the guide driving system is provided with a screw driving mechanism, the guide driving system 201 is vertically installed on the base 11, and the guide driving system 201 is provided with a guide sliding table 202 capable of moving up and down; the guide cup mechanism is fixed on the guide sliding table 202; the cup guiding mechanism comprises a cup guiding frame 203, a transverse guide rail 204, a guide clamping block 205, a guide roller 206 and a guide V-shaped frame 207; the guide cup holder 203 is fixed on the guide sliding table 202 through a fastener and can move up and down along with the guide sliding table 202; a horizontal guide rail 204 is fixed on the cup guide frame 203, a pair (2) of guide clamping blocks 205 is arranged on the horizontal guide rail 204, and the guide clamping blocks 205 are installed on the horizontal guide rail 204 through sliding blocks and can move horizontally along the horizontal guide rail 204; a guide roller 206 is fixed on the outer side of the guide clamping block 205; the guide V frame 207 is fixed on the base 11, a guide groove 208 is formed in the inner side of the guide V frame 207, the guide grooves 208 on the two sides are V-shaped, and the guide rollers 206 are clamped in the guide grooves 208; each side of the positive clamping block 205 corresponds to 1 guide groove 208; the guide clamping block 205 is accommodated in the V-shaped space formed by the guide grooves 208 on both sides.

When the guide driving system 201 works to drive the guide sliding table 202 to move downwards, the transverse guide rail 204 is driven to synchronously move downwards, at this time, the guide clamping block 205 also moves downwards synchronously, but the guide roller 206 is limited by the V-shaped guide groove 208 on the inner side of the guide V-shaped frame 207, and the relative inward movement is realized.

A spring 209 is arranged between 2 guide clamping blocks 205, and an outward supporting force can be provided through the spring 209, so that the guide roller 206 is always pressed in the guide groove 208; meanwhile, when the pilot driving system 201 drives the pilot sliding table 202 to move upwards, the spring 209 can transversely reset the pilot clamping block 205.

The guide clamp block 205 is further provided with a guide arc plate 210 extending out, the guide arc plate 210 is provided with an inner arc surface according to the arc shape of the cup body, when the guide clamp block 205 falls to the bottom, the guide arc plate 210 is held together and is positioned at a position close to the upper part of the bottom support 1202, and the guide arc plate 210 on the 2 side forms a guide funnel body, so that the cup body can conveniently and directly fall into the bottom support 1202 along the guide arc plate.

After the cup is dropped, the guide clamping block 205 is lifted, and the bottom of the guide arc plate 210 is higher than the upper edge of the cup body, so that the rotating space of the cup body is made, and the cup body can be conveniently rotated to the next station.

The cup falling mechanism 3 is close to the cup body guide mechanism 2 and fixed on the base 11, and a cup outlet channel of the cup falling mechanism 3 is positioned right above the cup body guide mechanism 2.

Cup falling mechanism and cup falling cover mechanism

The cup falling mechanism 3 and the cup cover falling mechanism 4 both adopt spiral groove cup separating rollers to separate the whole stack of cups or cup covers from the bottommost part one by one, and fall the bottommost part 1 to realize cup falling or cup cover falling. Because the height of the cup body is different from that of the cup cover, the installation height of the cup falling mechanism 3 of the cup body is relatively high, and the installation height of the cup cover falling mechanism 4 is relatively low.

As shown in fig. 7 and 8, the cup dropping mechanism 3 is a schematic structural diagram; the cup dropping mechanism 3 is fixed on the base 11 through a cup dropping mechanism mounting seat 301, a cup dropping bottom plate 302 is fixed above the cup dropping mechanism mounting seat 301, and a cup dropping channel 303 is arranged in the middle of the cup dropping bottom plate 302; a cup dropping driving mechanism and a plurality of cup separating roller mechanisms 306 are arranged around the cup dropping channel 303.

The cup falling driving mechanism comprises a cup falling driving motor 304 and a driving head 305; the cup dropping driving motor 304 is a servo speed reducing motor, and an output shaft of the cup dropping driving motor can controllably rotate for a plurality of angles; the driving head 305 is fixed on an output shaft of the cup dropping driving motor 304, and the driving head 305 connects the plurality of cup separating roller mechanisms 306 together through a driving belt 307, so that the synchronous rotating motion of the plurality of cup separating roller mechanisms 306 is realized.

As shown in fig. 9, it is a schematic structural diagram of the cup separating roller mechanism 306; the cup separating roller comprises a cup separating roller mounting seat 3061, a cup separating roller top seat 3062 is further arranged above the cup separating roller mounting seat 3061, and the cup separating roller top seat 3062 and the cup separating roller top seat 3061 are connected through a vertical plate, so that a C-shaped accommodating space is formed; bearings are arranged in the cup separating roller mounting seat 3061 and the cup separating roller top seat 3062 to provide support and reduce friction force; a driven driving head 3063 which can rotate is arranged in an accommodating space formed by the cup separating roller mounting base 3061 and the cup separating roller top base 3062, and a first gear 3064 is connected with one end of the driven driving head 3063; a cup dividing roller 3066 is further mounted on the cup dividing roller mounting base 3061, a second gear 3065 is arranged at one end of the cup dividing roller 3066, and the first gear 3064 is meshed with the second gear 3065.

The driving belt 307 is matched with the driven driving heads 3063, and the driven driving heads 3063 on the cup separating roller mechanisms 306 in the cup falling mechanism 3 can be driven to synchronously rotate through 1 cup falling driving motor 304, so that the cup separating rollers 3066 are driven to synchronously rotate.

Of course, the driven driving head 3063 may be attached in a cantilever manner without providing the cup separation roller top 3062.

The cup dividing roller 3066 is positioned below the cup dividing roller mounting base 3061, the second gear 3065 is positioned above the cup dividing roller mounting base 3061, and the cup dividing roller 3066 and the second gear 3065 are mounted on both sides of the cup dividing roller mounting base 3061 through bearings.

A part of the cup dividing rollers 3066 are positioned in the cup falling channel 303, and a plurality of cup dividing rollers 3066 are uniformly distributed around the cup falling channel 303; a spiral cup falling groove 3067 is formed in the cup dividing roller 3066, and in the embodiment, 1 screw pitch is arranged around the cup dividing roller 3066 in the cup falling groove 3067 as required; the width of the cup dropping groove 3067 is more than 1 cup edge thickness and less than 2 cup edge thicknesses; when the cup dividing rollers 3066 rotate, the piled cup bodies are erected on the upper cup falling surfaces 3068 of the cup dividing rollers 3066, the cup dividing rollers 3066 rotate synchronously, the cup edge of the lowermost cup body is gradually clamped into the cup falling groove 3067, and the lowermost cup body is gradually descended by the cup dividing rollers 3066, so that cup dividing and cup falling are realized.

In this embodiment, the driving head 305 is a driving synchronous pulley, the driving belt 307 is a synchronous belt, the driven driving head 3063 is also a synchronous pulley, and the angle of each driven driving head 3063 can be independently adjusted due to the elasticity of the synchronous belt, so that the cup separating rollers 3066 in the same group are positioned in the same direction; meanwhile, the synchronous belt has good synchronous transmission performance, so that a plurality of cup separating rollers 3066 can synchronously rotate to work, and the cup separating rollers cooperate with each other to synchronously act on the cup edge of the same cup body, so that the cup bodies are separated and fall down.

The driving head 305 and the driven driving heads 3063 are located on the same horizontal plane and are horizontally connected and driven by the same driving belt 307.

In this embodiment, the cup separating roller mechanism 306 has 4 groups, and since the shapes of the general cup body and the cup cover are both circular, in order to stably and reliably separate cups, the cup separating roller mechanism 306 has at least more than 3 groups, which can be more reliable; however, if the number of the cup holders is too large, the cup holders cannot be adjusted to synchronously work for cup separation.

The cup cover falling mechanism 4 and the cup falling mechanism 3 adopt the same structural design, and only the size of a supporting position and a cup dividing blanking channel formed by the cup dividing roller 3066 are adjusted according to different outer diameters of a specific cup cover and a specific cup body.

By adopting the same structural design, the universality of parts can be improved, the number of parts is reduced, and the follow-up overhaul and maintenance are facilitated.

Capping mechanism

The capping mechanism 5, as shown in fig. 10, includes a capping driving system 501, and a capping component; the gland driving system 501 is also a screw driving system and is fixed on the base 11 through a bracket; the gland driving system 501 is provided with a gland sliding block 502, and the gland part is fixed on the gland sliding block 502 through a fastener.

The gland component comprises a gland bracket 503 and a gland ring bracket 504; the gland bracket 503 is fixed on the gland slider 502 through a fastener, the gland ring bracket 504 is horizontally fixed on the gland bracket 503, and the bottom surface of the gland ring bracket 504 is set into a matched size and shape according to the shape of the cup cover, so that the cup cover can be conveniently pressed; the capping bracket 503 is located directly above the shoe 1202 of the capping station 16 in which it is located.

After the beverage is injected into the cup body, the cup body rotates to a cover falling station 15, and the cup cover falls on the cup body through the cup cover falling mechanism 4; then, the cup is rotated to a capping station 16, the capping mechanism 5 works, the capping ring frame 504 is pressed downwards, and the cup cover is pressed into the upper opening of the cup body to realize capping; then the material taking station 17 is rotated, so that the consumer can take the material conveniently.

The utility model, through setting the workbench of the whole cup loading system, namely the rotary material platform 12, into a workbench which can rotate in the whole circle, and arranging a plurality of working stations around the workbench, the sequential work is realized in sequence, and the working efficiency is greatly improved; meanwhile, the moving parts of the cup body guide mechanism 2, the cup falling mechanism 3, the cup falling cover mechanism 4, the gland mechanism 5 and the like are all integrated and modularized, and the mechanical moving mechanism is more stable and reliable, has high generalization degree and is convenient to maintain; meanwhile, each part is convenient to assemble and adjust, and can be quickly replaced and adjusted according to the shape and the size of the cup body and the cup cover, so that different market application requirements are met.

The cup loading system of the utility model can better meet the requirements of the seller on the stability, reliability and convenience of the whole machine; and to the consumer, the utility model discloses an automatic coffee machine of selling moves high-efficiently, and the product is bought to the acquisition that can be faster, simultaneously the collet 1202 is lighter, makes things convenient for the goblet to take out.

In the description of the present specification, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential", etc., indicate orientations or positional relationships based on those shown in the drawings, and are used merely for convenience of describing the technical solutions of the present patent and for simplification of the description, but do not indicate or imply that the referred devices or elements must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be interpreted as limiting the present patent application.

In this specification, unless expressly stated or limited otherwise, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integral to one another; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meanings of the above terms in the present specification can be understood by those of ordinary skill in the art as appropriate.

Although embodiments of the present invention have been shown and described, it is understood that the above embodiments are exemplary and should not be construed as limiting the present invention, and that variations, modifications, substitutions and alterations can be made to the above embodiments by those of ordinary skill in the art without departing from the scope of the present invention.

Claims (9)

1. The automatic coffee vending machine comprises a vending system and a coffee making system, and is characterized by also comprising a cup loading system;

the cup loading system comprises a base, a rotary material platform, a cup body guide mechanism, a cup falling cover mechanism, a gland mechanism and a control system, wherein the cup body guide mechanism, the cup falling cover mechanism and the gland mechanism are arranged around the rotary material platform;

the control system is electrically connected with the electric control components in the rotary material table, the cup body guide mechanism, the cup falling cover mechanism and the gland mechanism, and is also electrically connected with the filling port of the coffee making system;

the rotary material table is an autonomous controllable full-circle motion platform and comprises a rotary table, a bottom support and a rotary material table driving motor;

the turntable is positioned above the base; the rotary material table driving motor is fixed below the base;

a plurality of bottom supports are uniformly distributed on the rotary table, and the bottom supports are fixed on the outer edge of the upper surface of the rotary table through fasteners; the turntable is divided into 5 stations according to the bottom support; according to the mechanism arranged at the position of the bottom support, the rotary material platform is divided into a cup falling station, a filling station, a cover falling station, a cover pressing station and a material taking station;

the cup body guide mechanism and the cup falling mechanism are arranged above the cup falling station; a beverage filling opening is arranged above the filling station, and a beverage making system is connected behind the filling opening; the cup cover falling mechanism is arranged above the cover falling station; the gland mechanism is arranged above the gland station; the material taking station corresponds to a material taking port of the automatic coffee vending machine.

2. The automatic coffee vending machine of claim 1, wherein a riding wheel is provided at a bottom of the turntable; the riding wheel is fixed on the back of the turntable through a rolling wheel seat, and a rolling wheel in the riding wheel is pressed on the upper surface of the base; more than 2 riding wheels are arranged and uniformly distributed on the outer edge of the bottom surface of the rotary table.

3. The machine according to claim 2, wherein the number of said jockey wheels corresponds to the number of said underwires, said jockey wheels being 5, 1 said jockey wheel being fixed under each underwire.

4. The automatic coffee vending machine of claim 1, wherein the cup guide mechanism comprises a guide drive system and a cup guide mechanism;

the guide driving system is vertically arranged on the base, and a guide sliding table capable of lifting is arranged on the guide driving system; the guide cup mechanism is fixed on the guide sliding table;

the cup guide mechanism comprises a cup guide frame, a transverse guide rail, a guide clamping block, a guide roller and a guide V-shaped frame;

the guide cup frame is fixed on the guide sliding table through a fastener and can move up and down along with the guide sliding table;

a horizontal guide rail which is horizontally arranged is fixed on the cup guide frame, 1 pair of guide clamping blocks are arranged on the horizontal guide rail, the guide clamping blocks are installed on the horizontal guide rail through sliding blocks, and 1 pair of guide clamping blocks can move oppositely or oppositely along the horizontal guide rail;

the guide V frame is fixed on the base, a guide groove is formed in the inner side of the guide V frame, and the guide grooves in the two sides are in a V shape; the guide clamping block on each side is matched with the guide groove on each side; the guide clamping block is accommodated in a V-shaped space formed by the guide grooves on the two sides;

when the guide driving system drives the guide sliding table to move downwards or upwards, the transverse guide rail is synchronously driven to move downwards or upwards, the guide clamping block also moves downwards or upwards synchronously, and the guide clamping block is limited by a V-shaped guide groove on the inner side of the guide V frame and also moves oppositely or back to back;

the guide clamping block is also provided with a guide arc plate extending out, when the guide clamping block is driven to the bottom by the guide driving system, the guide arc plate is embraced and is positioned right above the bottom support, and the guide arc plate on the side 2 forms a guide funnel body; when the guide clamping block is driven to the top by the guide driving system, the bottom of the guide arc plate is higher than the upper edge of the cup body, and a rotating space of the cup body is made.

5. The automatic coffee vending machine of claim 4, wherein guide rollers are fixed to the outside of the guide clamping blocks; the guide roller is clamped in the guide groove.

6. The automatic coffee vending machine of claim 4, wherein a spring is disposed between 2 of the guide clamping blocks, the spring providing an outward supporting force to keep the guide clamping blocks pressed against the guide grooves.

7. The automatic coffee vending machine of claim 1, wherein the cup dropping mechanism and the cup lid dropping mechanism employ a spiral groove cup separating roller mechanism to separate the entire stack of cups or cup lids one by one from the bottommost part and drop the bottommost 1;

the spiral groove cup separating roller mechanism is fixed on the base through a cup dropping mechanism mounting seat, a cup dropping bottom plate is fixed above the cup dropping mechanism mounting seat, and a cup dropping channel is arranged in the middle of the cup dropping bottom plate; a cup falling driving mechanism and a plurality of cup separating roller mechanisms are arranged around the cup falling channel; the cup separating roller mechanisms are provided with more than 3 groups, and a plurality of cup separating roller mechanisms are uniformly distributed at the outer edge of the cup falling channel;

the cup falling driving mechanism comprises a cup falling driving motor and a driving head; the driving head is fixed on an output shaft of the cup falling driving motor and connects the cup separating roller mechanisms together through a driving belt so as to realize synchronous rotary motion of the cup separating roller mechanisms;

the cup separating roller mechanism comprises a cup separating roller mounting seat, a driven driving head capable of rotating is mounted on the cup separating roller mounting seat, and one end of the driven driving head is connected with a first gear; the cup separating roller mounting seat is also provided with a cup separating roller capable of rotating, one end of the cup separating roller is provided with a second gear, and the first gear is meshed with the second gear;

the cup separating roller is positioned below the cup separating roller mounting seat, the second gear is positioned above the cup separating roller mounting seat, and the cup separating roller and the second gear are arranged on two sides of the cup separating roller mounting seat through bearings;

the driving belt is matched with the driven driving heads, and the driven driving heads on a plurality of cup separating roller mechanisms in the spiral groove cup separating roller mechanism can be driven to synchronously rotate through 1 cup falling driving motor, so that the corresponding cup separating rollers are driven to synchronously rotate;

one part of the cup separating rollers is positioned in the cup falling channel, and a plurality of cup separating rollers are uniformly distributed around the cup falling channel; a spiral cup falling groove is formed in the cup separating roller;

the piled cup bodies or cup covers are erected on the upper surfaces of the falling cups of the cup separating rollers; the cup separating rollers rotate synchronously, the edge of the lowermost cup body or cup cover is gradually clamped into the cup falling groove, the lowermost cup body or cup cover is gradually and spirally conveyed downwards by the cup separating rollers, and finally the lowermost cup body or cup cover is transferred to the bottom of the cup separating rollers, so that the cup falling or cup cover falling is realized.

8. The automatic coffee vending machine of claim 7, wherein the drive head is a drive timing pulley, the drive belt is a timing belt, and the driven drive head is a driven timing pulley; the driving heads and the driven driving heads are positioned on the same horizontal plane and are driven by the driving belt in a horizontal connection mode.

9. The vending machine of claim 1, wherein the capping mechanism includes a capping drive system, and a capping mechanism;

the gland driving system is fixed on the base through a bracket; the gland driving system is provided with a gland sliding block, and the gland mechanism is fixed on the gland sliding block through a fastener;

the gland mechanism comprises a gland bracket and a gland ring bracket; the gland bracket is fixed on the gland sliding block through a fastener, and the gland ring frame is horizontally fixed on the gland bracket; the gland support is located right above the bottom support of the gland station where the gland support is located.

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