CN220208334U - Storage structure of barreled water vending machine - Google Patents

Abstract

The utility model relates to the technical field of barreled water vending devices, in particular to a storage structure of a barreled water vending machine, which comprises a storage channel arranged in a cabinet body, wherein the storage channel comprises a left straight line section, an inclined section, a right straight line section and an inclined section which are sequentially communicated; the left straight line section and the right straight line section are vertically arranged, and an inclined part exists in the inclined section; the width of the left straight line segment and the width of the right straight line segment are equal to the diameter of the barreled water, and the thickness of the inclined segment is greater than or equal to the diameter of the barreled water and less than twice the diameter of the barreled water. The utility model can prevent the lowest barreled water from being damaged by the gravity of all the barreled water in the storage goods channel.

Description

Storage structure of barreled water vending machine

Technical Field

The utility model relates to the technical field of barreled water vending devices, in particular to a storage structure of a barreled water vending machine.

Background

The storage structure of the traditional barreled water vending device has a vertical storage channel, so that the lowest barreled water in the storage channel bears the whole gravity of the vertical barreled water above the storage channel, and the lowest barreled water is possibly crushed.

The turnover structure of the traditional barreled water vending device generally needs to realize turnover actions through power devices such as a motor, and corresponding wiring and the like are also needed, so that the structure is complex and the reliability is lower.

The traditional barreled water vending machine's play goods door is the door leaf and connects the structure, goes out the goods door for rotatory mechanism that opens, and its security still has the space that further promotes promptly.

Disclosure of Invention

An object of the present utility model is to solve or alleviate the above-mentioned technical problems.

The storage structure of the barreled water vending machine comprises a storage goods channel arranged in a cabinet body, wherein the storage goods channel comprises a left straight line section, an inclined section, a right straight line section and an inclined section which are sequentially communicated; the left straight line section and the right straight line section are vertically arranged, and an inclined part exists in the inclined section; the width of the left straight line segment and the width of the right straight line segment are equal to the diameter of the barreled water, and the thickness of the inclined segment is greater than or equal to the diameter of the barreled water and less than twice the diameter of the barreled water.

The lowest barreled water can be prevented from being damaged by the gravity of all the barreled water in the storage goods channel.

According to a further technical scheme, a storage goods forming body with a trapezoid cross section is fixedly arranged in the cabinet body in a staggered mode, so that a left straight line section, an inclined section and a right straight line section are formed.

Further, the width of the storage cargo shape is half to one fourth of the width of the left straight line segment.

On the premise of ensuring that the barreled water can smoothly move downwards, the space occupied by the storage goods forming body is small, so that the space utilization rate can be ensured.

According to a further technical scheme, the turnover structure comprises a turnover carrier, a turnover movable piece and a locking structure, wherein the turnover movable piece comprises a supporting end, a hinge shaft and a locking end in sequence; the hinge shaft is hinged with the turnover carrier; the propping end is provided with a propping body protruding from the turnover carrier; the locking structure comprises a locking device and a locking lug; one of the locking device and the locking lug is fixed on the turnover carrier, the other is fixed on the locking end, and the locking lug is inserted into the locking device to lock the locking end.

The turnover structure does not need to be provided with a motor and other rotary power devices, and the reliability is high.

Further technical scheme, the storage goods way still includes turnover section, turnover section and the slope section intercommunication of bottommost, and turnover section's turnover section height equals the bottled water diameter.

The lowest barreled water can be ensured to fall on a lifting table which is described below, and the reliability is improved.

According to a further technical scheme, the cabinet body is provided with a plurality of groups of storage channels, and each group of storage channels comprises a left column channel and a right column channel; the inclined sections at the bottommost end of the left row of goods channels and the bottommost end of the right row of goods channels are far away from each other.

The width of the lifting platform corresponding to each group of storage channels can be smaller, which is beneficial to reducing the cost.

Further technical scheme, the cabinet body is fixedly provided with turnover section shape, and the top face of turnover carrier is provided with the inclined plane, and the inclined plane surrounds with the turnover section shape and forms the turnover section.

Further technical scheme, support the section of holding the body and wholly be triangle-shaped, and when locking end was locked, support the contained angle of holding between the top face of body and the inclined plane and be less than or equal to one hundred eighty degrees.

The lowest barreled water can be ensured to be propped by the propping body, and the buffer can be realized when the barreled water rolls onto the propping end from the inclined surface.

Further technical scheme, locking device is the electromagnetic lock, and the locking lug is U-shaped hasp.

Drawings

Fig. 1 is a schematic perspective view of a barreled water vending apparatus according to an embodiment of the utility model.

Fig. 2 is a schematic perspective view of a barreled water vending apparatus according to an embodiment of the utility model.

FIG. 3 is a schematic front view of a barreled water vending apparatus according to an embodiment of the utility model; the front panel of the storage structure door 99, the delivery door structure 4, etc. are not shown; the dashed line represents the outline of the barreled water 8.

Fig. 4 is an exploded isometric view of a barreled water vending apparatus of an embodiment of the utility model.

Fig. 5 is an exploded perspective view of an epicyclic structure 2 of an embodiment of the utility model.

Fig. 6 is a schematic exploded perspective view of an epicyclic structure 2 of an embodiment of the utility model.

Fig. 7 is a schematic perspective view of a buffer device 3 according to an embodiment of the present utility model.

Fig. 8 is a schematic perspective view of a buffer device 3 according to an embodiment of the present utility model.

Fig. 9 is a schematic top view of the damper device 3 according to the embodiment of the present utility model.

Fig. 10 is a schematic diagram of a section-SEC 1.

Fig. 11 is a schematic top view of a barreled water vending apparatus of an embodiment of the utility model.

Fig. 12 is a schematic diagram of a section two SEC 2.

Fig. 13 is a perspective view of the delivery door structure 4 of an embodiment of the present utility model; part of the door lock 43 is not shown.

Fig. 14 is a schematic perspective view of an exit door 42 according to an embodiment of the present utility model.

Fig. 15 is a schematic diagram of detail DTL 1.

Section one SEC1; section two SEC2; detail one DTL1; a storage structure 1; storing the cargo lane 11; left straight line segment 111; an inclined section 112; a right straight line segment 113; a turnaround 114; the turnaround height 115 stores the cargo shape 12; a buffer chamber 13; an epicyclic segment 14; an intermediate carrier 17; left lane 18; right lane 19; an epicyclic structure 2; an epicyclic carrier 21; an inclined surface 211; a hinge ear 212; an epicyclic movable member 22; a holding end 221; a hinge shaft 222; a locking end 223; a reset spring 224; a yielding port 225; a reinforcing rib 226; a holding body 227; a curved section 228; a locking structure 23; a locking device 231; a locking tab 232; a buffer device 3; a buffer carrier 31; a lifting table 32; a positioning inclined surface 321; an expansion body 322; a base 323; a lifting power structure 33; a power screw 331; a linear guide 332; a lifting base 333; a motor 339; a bottled water detector 34; a trigger 341; trigger sensor 342; a rotation limiter 343; a sensing member shaft 349; a delivery door structure 4; a delivery gate carrier 41; a mounting rack 412; a linear chute 419; a delivery door 42; a locking groove 421; a handle slot 428; a linear slider 429; a door lock 43; a dead bolt end 431; hinge hole 432; unlocking end 433; unlocking the contact 434; a reset member 44; a delivery door detection device 45; a reed switch 451; a magnet 452; barreled water 8; a cabinet 9; and a storage structure cabinet door 99.

Detailed Description

Specific embodiments of the present utility model will be described below with reference to the drawings.

As a specific example, the barreled water vending apparatus of the embodiment of the present utility model includes a storage structure 1, an turnaround structure 2, a buffer device 3, and a cabinet 9.

The storage structure 1 comprises a storage cargo way 11 arranged in the cabinet body 9, and the storage cargo way 11 comprises a left straight line section 111, an inclined section 112, a right straight line section 113 and an inclined section 112 which are communicated in sequence. It will be readily appreciated that the left straight section 111, the inclined section 112, the right straight section 113, and the inclined section 112 may also be provided in groups connected end to end.

The left straight line segment 111 and the right straight line segment 113 are vertically arranged, and the inclined segment 112 has an inclined part. It is easy to understand that the left straight line segment 111 and the right straight line segment 113 are located on the left and right sides of the inclined segment 112 in the horizontal direction, respectively. It should be understood that the terms "left" and "right" in the left and right straight segments 111 and 113 are merely used for distinction, and are not a substantial limitation on the orientation. Accordingly, the left and right straight line segments 111, 113 may be positioned on the right and left sides of the inclined segment 112, respectively, in the horizontal direction.

The width of the left straight line section 111 and the width (and the dimension in the horizontal direction) of the right straight line section 113 are equal to the diameter of the barreled water 8, and the barreled water 8 is attached to both side walls of the left straight line section 111 when in the left straight line section 111, and vice versa for the right straight line section 113.

The thickness of the inclined section 112 is greater than or equal to the diameter of the bottled water 8 and less than twice the diameter of the bottled water 8.

As one specific embodiment, the storage cargo shape 12 having a trapezoidal cross section is fixedly provided in the cabinet 9 in a staggered manner, thereby forming a left straight line section 111, an inclined section 112, and a right straight line section 113. Misalignment means that the left-side formed article 12 and the right-side formed article 12 are connected end to end in the horizontal height direction or have only a slight gap.

As one specific embodiment, the width of the storage cargo shape 12 is one half to one quarter of the width of the left straight section 111. The space occupied by the storage cargo formed body 12 is small and the space utilization can be ensured on the premise of ensuring that the barreled water 8 can smoothly move downwards.

As one of the specific embodiments, the storage aisle 11 further comprises a turnaround 114, the turnaround 114 being in communication with the lowermost inclined section 112, and the turnaround height 115 (shown in fig. 3) of the turnaround 114 being equal to the diameter of the barreled water 8. The turnaround 114 is formed by a turnaround form 14 having a height that is smaller than the height of the storage cargo form 12. When the lowermost bottled water 8 is held by the holding end 221 to be described later and stops moving, only one bottled water 8 can be stored in the turnover section 114, and the second lowermost bottled water 8 directly holds the lowermost bottled water 8, and only a small part of the second lowermost bottled water 8 contacts with the side wall of the turnover section 114, so that most of the gravity of the second lowermost bottled water 8 directly acts on the lowermost bottled water 8, thereby ensuring that the lowermost bottled water 8 can fall on the lifting table 32 to be described later and improving the reliability.

The epicyclic structure 2 comprises an epicyclic carrier 21, an epicyclic movable member 22 and a locking structure 23, the epicyclic movable member 22 comprising, in order, a holding end 221, a hinge shaft 222 and a locking end 223.

The hinge shaft 222 is hinged to the turnaround carrier 21. It is easy to understand that the abutting end 221 and the locking end 223 are located at both sides of the hinge shaft 222, respectively.

The abutment end 221 is provided with an abutment 227 protruding from the epicyclic carrier 21.

The locking structure 23 comprises a locking means 231 and a locking lug 232; one of the locking device 231 and the locking lug 232 is fixed on the turnover carrier 21, the other is fixed on the locking end 223, and the locking lug 232 is inserted into the locking device 231 to lock the locking end 223. For example, the locking device 231 is an electromagnetic lock, and the locking lug 232 is a U-shaped lock catch.

The buffer device 3 includes a buffer carrier 31, a lifting table 32, and a lifting power structure 33 provided on the buffer carrier 31, the lifting power structure 33 driving the lifting table 32 to lift.

The lifting platform 32 can directly or indirectly abut against the locking end 223 during lifting.

The working principle is as follows: before use, a plurality of barreled waters 8 are placed in the storage lane 11, and it is easy to understand that the axis of the plurality of barreled waters 8 is horizontal. The lowermost bottled water 8 is held by the holding end 221 so that the plurality of bottled water 8 are held within the storage aisle 11. Due to the arrangement of the left straight line section 111, the inclined section 112, the right straight line section 113 and the inclined section 112, part of the gravity of the barreled water 8 in the left straight line section 111 and the right straight line section 113 is borne by the inclined section 112, and the lowest barreled water 8 can be prevented from being damaged by the gravity of all the barreled water 8 in the storage goods channel 11.

When a purchaser of the bottled water 8 sends a purchase instruction to the bottled water vending apparatus through a mobile phone or the like, the locking structure 23 is unlocked, so that the locking device 231 and the locking lug 232 can be separated, and at this time, the lowest bottled water 8 abuts against the abutting end 221 to rotate the turnover movable member 22. The lowermost bottled water 8 falls onto the lifting platform 32 after passing the abutment end 221. Then, the lifting platform 32 drives the bottled water 8 to descend until reaching the lower limit position, and at this time, the bottled water 8 approximately faces a delivery door 42, which will be described later, and the delivery door 42 can be opened to take out the bottled water 8.

During the descending of the lifting platform 32, the lifting platform 32 directly or indirectly abuts against the locking end 223, so that the turnover movable piece 22 reversely rotates to reset, and the abutting end 221 on the reset turnover movable piece 22 abuts against the second lower barreled water 8 to limit the second lower barreled water 8 to continue to fall. The above process is repeated to output single barreled water 8 as required.

It should be noted that, in the embodiment where there are multiple storage lanes 11, for example, in the embodiment where there are four storage lanes 11 as shown in fig. 3, the locking structure 23 may be controlled to implement alternate output of the bottled water 8 in the left and right columns of lanes 18 and 19, and may also implement simultaneous output of the bottled water 8 in the left and right columns of lanes 18 and 19.

From the above, the turnover movable member 22 realizes the slow rotation by the gravity of the barreled water 8 and the power reset by the lifting power structure 33, so that the turnover structure 2 does not need to be provided with a rotating power device such as a motor, and the reliability is higher.

As one of the specific embodiments, the lifting power structure 33 includes a motor 339 and a power screw 331 fixedly connected to a rotation output end of the motor 339, the buffer carrier 31 is fixedly provided with a linear guide rail 332, the power screw 331 is directly or indirectly screwed with the lifting platform 32, and the linear guide rail 332 is directly or indirectly connected with the lifting platform 32, so that the lifting platform 32 can slide linearly along the linear guide rail 332.

As one specific embodiment, the power screw 331 further includes a base 323, the base 323 is fixed on the bottom end surface of the lifting platform 32, the base 323 is completely located in the lifting platform 32 in a top view, and a portion extending into the base 323 exists in the power screw 331. The overall height of the cushioning device 3 can be reduced.

As one of the specific embodiments, the lifting seat 333 is integrally U-shaped, the power screw 331 is screwed with the lifting seat 333, the linear guide rail 332 is connected with a side surface of the lifting seat 333, and the width of the lifting seat 333 is larger than the width of the lifting table 32 in a plan view. The lifting posture of the lifting platform 32 can be ensured without deflection.

As one of the specific embodiments, the device further comprises a barreled water detecting member 34 hinged on the lifting platform 32, such as through a detecting member shaft 349; the barreled water detecting member 34 includes a trigger body 341 and a trigger sensor 342 electrically connected to the motor 339, for example, the trigger sensor 342 is electrically connected to the motor 339 through a PLC, one of the trigger body 341 and the trigger sensor 342 is disposed on the lifting platform 32, and the other is disposed on the barreled water detecting member 34. After the bottled water 8 falls on the lifting table 32, the lifting table 32 is rotated, and the trigger body 341 triggers the trigger sensor 342, so that the motor 339 can drive the lifting table 32 to lift, and the reliability can be improved. The bottled water detection member 34 is reset by a torsion spring or the like provided on the detection member shaft 349.

As one specific embodiment, the barreled water detecting member 34 is provided with a rotation limiter 343.

As one specific embodiment, the cabinet 9 is provided with a plurality of groups of storage lanes 11, and each group of storage lanes 11 comprises a left column of lanes 18 and a right column of lanes 19; the bottommost inclined sections 112 of the left side lane 18 and the bottommost section of the right side lane 19 are spaced apart from each other. The turnover sections 114 of the left and right racks 18 and 19 are close to each other, and the width of the lifting platform 32 corresponding to each group of storage racks 11 can be smaller, which is beneficial to cost reduction.

As one specific embodiment, positioning inclined planes 321 and positioning inclined planes 321 are respectively arranged on two sides of the middle part of the lifting platform 32 and correspond to the left goods-listing channel 18 and the right goods-listing channel 19. The position of the bottled water 8 on the lifting platform 32 can be limited, and the bottled water 8 corresponds to the shipment door 42 when shipment is performed in turn.

As one of the specific embodiments, the cabinet 9 is fixedly provided with a turnover section body 14, the top end surface of the turnover carrier 21 is provided with an inclined surface 211, and the inclined surface 211 and the turnover section body 14 are surrounded to form a turnover section 114.

As one specific embodiment, the entire cross section of the abutting body 227 is triangular, and when the locking end 223 is locked, the included angle between the top end surface of the abutting body 227 and the inclined surface 211 is less than or equal to one hundred eighty degrees. The abutting body 227 is easily inserted between the lowest and second lowest bottled water 8, so that the lowest bottled water 8 is abutted by the abutting body 227, and buffering can be realized when the bottled water 8 rolls onto the abutting end 221 from the inclined surface 211.

As one specific embodiment, the locking end 223 is fixedly provided with a reset spring 224, and the reset spring 224 abuts against the lifting platform 32, so that the locking end 223 has a trend of approaching to and turning around the carrier 21. The elastic force generated by the reset elastic piece 224 abutting against the lifting platform 32 makes the abutting end 221 have a trend of being far away from the turnover carrier 21; therefore, after the lowest bottled water 8 falls onto the lifting platform 32, in the process that the lifting platform 32 descends and abuts against the reset elastic sheet 224, the abutting body 227 on the abutting end 221 is far away from the turnover carrier 21 and is inserted between the lowest and second lowest bottled water 8, and the elastic force of the reset elastic sheet 224 allows the turnover movable piece 22 to rotate forward and backward to realize buffering of the abutting of the bottled water 8 while the abutting of the second lowest bottled water 8 is limited, in other words, even if the abutting body 227 on the abutting end 221 abuts against the side wall of the bottled water 8, the abutting body 227 on the abutting end 221 automatically rotates to prevent the damage of the bottled water 8 caused by the application of excessive abutting force to the side wall of the bottled water 8. As can be seen from the above, the damage of the bottled water 8 caused by the excessive holding force applied to the sidewall of the bottled water 8 can be prevented on the premise of ensuring the automatic and accurate reset of the holding body 227 on the turnover movable member 22.

As one specific embodiment, the reset spring 224 is provided with a yielding port 225. The yielding port 225 can avoid the base 323, so that the resetting spring plate 224 is prevented from being deformed by the base 323 to fail.

As one specific embodiment, the relief port 225 is provided with a stiffener 226.

As one specific embodiment, the reset spring 224 includes a bent segment 228 that is bent downward. The range of action of the return spring 224 can be extended.

The barreled water vending apparatus of the embodiment of the utility model further comprises a delivery door structure 4.

The delivery gate structure 4 comprises a delivery gate carrier 41, a gate lock 43 and a delivery gate 42 in a linear sliding connection with the delivery gate carrier 41. The delivery door carrier 41 is fixed to the cabinet 9 to be a part of the front panel of the cabinet 9. The delivery door carrier 41 is provided with a linear chute 419, and both sides of the delivery door 42 protrude to form a linear sliding body 429 embedded in the linear chute 419, so that the delivery door 42 is in linear sliding connection with the delivery door carrier 41, and the delivery door 42 can be ensured to be lifted smoothly on the premise of realizing the linear sliding connection. The delivery door 42 is provided with a handle groove 428, and when the door lock 43 to be described later is unlocked, the delivery door 42 can be opened by moving the delivery door 42 linearly sliding by putting a hand into the handle groove 428, and the bottled water 8 on the lifting platform 32 can be taken out.

The delivery door 42 is provided with a locking groove 421.

The door lock 43 includes a latch end 431, a hinge hole 432, and an unlock end 433 in this order; the hinge hole 432 is hinged to the gate carrier 41. It is easy to understand that the locking end 431 and the unlocking end 433 are located at both sides of the hinge hole 432, respectively.

The locking tongue (not shown) of the locking tongue end 431 has a tendency to be inserted into the locking groove 421. For example, the shipment door structure 4 further includes a restoring member 44 that is a torsion spring, and the restoring member 44 is sleeved on the hinge hole 432 and abuts against the shipment door carrier 41 and the door locking member 43, such as an unlocking contact portion 434 that will be described later, so that the latch of the latch end 431 has a tendency to be inserted into the locking slot 421.

When the lock tongue of the lock tongue end 431 is inserted into the locking groove 421, the unlocking end 433 is far away from the cargo outlet door 42 relative to the lock tongue end 431.

The unlocking end 433 is located on the moving path of the elevating table 32.

When the barreled water 8 falls onto the lifting platform 32, the lifting platform 32 descends to the lower limit position and stops moving, the side surface of the lifting platform 32 abuts against the unlocking end 433, so that the locking tongue end 431 rotates until the locking tongue moves out of the locking groove 421, and unlocking is achieved. At this time, the hand is put into the handle groove 428, and the delivery door 42 can be moved to slide linearly, so that the delivery door 42 is opened, and the bottled water 8 on the lifting table 32 can be taken out.

When the bottled water 8 on the lifting platform 32 is taken out, the lifting platform 32 is lifted until the unlocking end 433 is not supported, and the locking tongue end 431 is reset, so that the locking tongue of the locking tongue end 431 is inserted into the locking groove 421 to lock the shipment door 42.

As can be seen from the above, in the delivery door structure 4 according to the embodiment of the present utility model, the delivery door 42 can be opened only when the lift table 32 is lowered to the lower limit position and stops moving, and the pinching of the manual lift table 32 can be prevented, so that the safety can be improved.

As one of the specific embodiments, the system further comprises a delivery door detection device 45; the shipment door detection device 45 includes a reed switch 451 and a magnet 452; one of the reed switch 451 and the magnet 452 is provided on the delivery door 42, the other is provided on the delivery door carrier 41, the magnet 452 of the tongue end 431 triggers the reed switch 451 when the tongue is pulled out from the locking groove 421, it is easy to understand that the reed switch 451 is electrically connected with the motor 339, for example, connected in series on the power supply line of the motor 339, and when the lifting table 32 is lowered to the lower limit position and stops moving, the magnet 452 triggers the reed switch 451, so that the motor 339 is electrified and the lifting table 32 is lifted. Therefore, only when the delivery door 42 is closed, the lift table 32 can be lifted, and safety can be improved.

As one specific embodiment, the unlocking end 433 is sheet-shaped and provided with a sheet-shaped unlocking contact portion 434. The door lock 43 can be made of a sheet-like material such as a steel plate, and can improve efficiency and reduce cost.

As one of the specific embodiments, the elevating platform 32 is provided with an expansion body 322; so as to ensure that the lifting platform 32 is propped against the unlocking end 433, thereby improving the reliability.

The term is used as in the present utility model: first, second, etc. do not denote any order, quantity, or importance, but rather are used to distinguish one element from another.

The term is used as in the present utility model: one, etc. do not represent a limitation of quantity, but rather represent the presence of at least one of the mentioned objects.

The term indicating azimuth or position is used as in the present utility model: top, bottom, side, longitudinal, lateral, middle, center, outer, inner, horizontal, vertical, left, right, above, below, etc., are meant to reflect relative positions, not absolute positions.

The term as used in the present utility model: rough, global, approximate, close, etc., are defined terms that indicate that a feature is present but that a certain deviation is allowed. The amount of tolerance to a certain deviation may vary depending on the particular context; for example, specific contexts that may depend upon for dimensional deviations include, but are not limited to, national standards for dimensional tolerances.

Claims (9)

1. The storage structure of the barreled water vending machine comprises a storage channel (11) arranged in a cabinet body (9),

the storage goods way (11) is characterized by comprising a left straight line section (111), an inclined section (112), a right straight line section (113) and an inclined section (112) which are communicated in sequence; the left straight line section (111) and the right straight line section (113) are vertically arranged, and an inclined part exists in the inclined section (112); the width of the left straight line section (111) and the width of the right straight line section (113) are equal to the diameter of the barreled water (8), and the thickness of the inclined section (112) is larger than or equal to the diameter of the barreled water (8) and smaller than twice the diameter of the barreled water (8).

2. The storage structure of the barreled water vending machine according to claim 1, wherein the storage goods forming body (12) with a trapezoid cross section is fixedly arranged in the cabinet body (9) in a staggered manner, so that a left straight line section (111), an inclined section (112) and a right straight line section (113) are formed.

3. A storage structure for a vending machine as claimed in claim 2, characterized in that the width of the storage article (12) is half to quarter of the width of the left straight section (111).

4. A storage structure of a vending machine as claimed in any one of claims 1 to 3, wherein the epicyclic structure (2) comprises an epicyclic carrier (21), an epicyclic movable member (22) and a locking structure (23), the epicyclic movable member (22) comprising, in succession, a abutment end (221), a hinge shaft (222) and a locking end (223); the hinge shaft (222) is hinged with the turnover carrier (21); the abutting end (221) is provided with an abutting body (227) protruding from the turnover carrier (21); the locking structure (23) comprises a locking device (231) and a locking lug (232); one of the locking device (231) and the locking lug (232) is fixed on the turnover carrier (21), the other is fixed on the locking end (223), and the locking lug (232) is inserted into the locking device (231) to lock the locking end (223).

5. The storage structure of a vending machine as claimed in claim 4, wherein the storage aisle (11) further comprises a turnaround section (114), the turnaround section (114) communicates with the lowermost inclined section (112), and the turnaround section height (115) of the turnaround section (114) is equal to the diameter of the bottled water (8).

6. The storage structure of a barreled water vending machine according to claim 5, characterized in that the cabinet (9) is provided with a plurality of groups of storage lanes (11), each group of storage lanes (11) comprising a left column lane (18) and a right column lane (19); the bottommost inclined sections (112) of the left column of goods channels (18) and the bottommost inclined sections of the right column of goods channels (19) are far away from each other.

7. The storage structure of the barreled water vending machine according to claim 6, wherein the cabinet body (9) is fixedly provided with a turnover section body (14), the top end surface of the turnover carrier (21) is provided with an inclined surface (211), and the inclined surface (211) and the turnover section body (14) are surrounded to form a turnover section (114).

8. The storage structure of the vending machine as claimed in claim 7, wherein the abutting body (227) has a triangular cross section as a whole, and the included angle between the top end surface of the abutting body (227) and the inclined surface (211) is one hundred eighty degrees or less when the locking end (223) is locked.

9. The storage structure of the vending machine of claim 4, wherein the locking device (231) is an electromagnetic lock and the locking lug (232) is a U-shaped lock catch.