CN220222217U - Automatic front-mounted bin for drinking water - Google Patents

Abstract

The utility model provides an automatic front-mounted bin for drinking water, which comprises a bin body, wherein a water supply conveyer belt is arranged in the bin body, water commodities which are arranged continuously are borne on the water supply conveyer belt, a goods taking port is arranged at a position, close to the tail end of the water supply conveyer belt, of the bin body, and a goods taking door is arranged at a position, close to the goods taking port, of the bin body. A vertical flexible slideway is arranged below the tail end of the water supply conveyer belt, and the top opening of the flexible slideway just receives water commodity falling on the water supply conveyer belt. Through adopting above structure, can store enough supply's water commodity at the water station of district to the user purchases, adopts the structure that water supply conveyer belt combines flexible slide, can conveniently realize the accurate supply of water commodity, including different brands, the water commodity of different packing, can both realize accurate supply. The utility model has the advantages of simple structure, low energy consumption, high reliability, convenient realization and large storage capacity, and mainly adopts standard components. And accurate water commodity supply can be realized.

Description

Automatic front-mounted bin for drinking water

Technical Field

The utility model relates to the field of drinking water supply, in particular to an automatic front-mounted bin for drinking water.

Background

Mineral water has a greater advantage in water quality than purified water and tap water, but mineral water cannot be supplied by means of a pipe. Therefore, water can be supplied only in a barreled or integrated package mode. Current water supply is where the user issues a bill from the internet or telephone and then the water commodity is sent to the user's home by the supplier. This approach has the problem that the labor intensity of the suppliers is very high and the cost of the entire water supply is very high. And the user needs to wait at home for a long time, so that the user time occupation is long and the user experience is not high. Chinese patent document CN 111369197A describes an intelligent detection and distribution device for barreled water, which uses a database to manage logistics distribution, but the solution is still a concept of distributing barreled water to the home of the user. The problem of great labor intensity for suppliers is not solved yet. Patent document CN 206877420U describes an intelligent three-dimensional bottled water vending machine, which adopts a manipulator with lifting to grab a bucket for water supply. The problem that this structure exists is that the cask of bottom is difficult to snatch, and the cost of paying is too high, and the control degree of difficulty is than great moreover, and the durability is difficult to guarantee. CN218273533U describes a conveyor vending machine in which a car module is described for assisting in picking. However, the car module is complex in structure and high in control difficulty, and the control difficulty is further increased due to the fact that the buckets are different in specification.

Disclosure of Invention

The utility model aims to solve the technical problem of providing the automatic front-mounted bin for the drinking water, which can conveniently realize water supply in a community, greatly reduce the labor intensity of a supplier, and enable a user to take the drinking water at any time without waiting at home all times.

In order to solve the technical problems, the utility model adopts the following technical scheme: the utility model provides an automatic leading storehouse of drinking water, includes the storehouse body, is equipped with the water supply conveyer belt including, is used for bearing the water commodity of continuous arrangement on the water supply conveyer belt, is equipped with the goods mouth of getting in the position that the storehouse body is close to water supply conveyer belt tail end, and the position of getting the goods mouth is equipped with gets the goods door.

In the preferred scheme, a vertical flexible slideway is arranged below the tail end of the water supply conveyer belt, and the top opening of the flexible slideway just receives water commodity falling on the water supply conveyer belt.

In a preferred embodiment, the horizontal cross-sectional profile of the flexible skid is slightly greater than the horizontal cross-section of the water commodity.

In a preferred embodiment, the inner wall of the flexible slideway is provided with a friction layer.

In the preferred scheme, the outer layer of the flexible slideway is a plastic woven layer, warp threads of the plastic woven layer are spiral threads along the axial direction of the flexible slideway, and the inner layer is rubber or a silica gel layer.

In the preferred scheme, the water supply conveyer belt be the multilayer, flexible slide passes through the slide support and is close to the leg joint of water supply conveyer belt tail end, the position that is located the bottom of the flexible slide of upper strata is equipped with the opening to supply the flexible slide of current layer of water commodity entering current layer, one side and the slide leg joint of current layer of water supply conveyer belt are kept away from to the bottom of the flexible slide of upper strata.

In the preferred scheme, be equipped with a plurality of dogs on the water supply conveyer belt, water commodity is located between the dog, and one side of water supply conveyer belt is equipped with conveyer belt position sensor for detect the position of dog on the water supply conveyer belt.

In the preferred scheme, the top of the goods taking door is connected with the bin body through a hinged pin shaft, the goods taking door is positioned at the inner side of the goods taking port, and a limiting mechanism is further arranged at the inner side of the goods taking port and used for limiting the opening angle of the goods taking door so that the direction of the water supply conveying belt is shielded by the goods taking door in an opening state;

the goods taking door is provided with an electrically-controlled unlocking door lock;

the lower part of the inner side of the goods taking port is also provided with a buffer slope, the buffer slope is provided with a weighing plate, and a weighing sensor is arranged below the weighing plate.

In the preferred scheme, a main control device is further arranged, the weighing sensor and the conveyor belt position sensor are electrically connected with the main control device, and the main control device is electrically connected with the water supply conveyor belt and the door lock.

A water supply method adopting a drinking water automatic front-end bin comprises the following steps:

s1, loading water commodities onto each water supply conveyer belt of a water station;

s2, binding the shipment data with the current water station;

s3, associating the user purchase data with the current water station;

s4, the associated water commodity enters a pre-selling state;

s5, user verification for water taking;

s6, according to the related water commodity, the main control device drives the corresponding water supply conveyer belt to move, the conveyer belt position sensor feeds back the running position of the water supply conveyer belt, and after the position is in place, a signal is sent to the main control device, and the main control device drives the corresponding water supply conveyer belt to stop moving;

s7, enabling the water commodity to fall onto a weighing plate of the buffer slope from the flexible slideway, sending a signal to a main control device by a weighing sensor, and controlling a goods taking door to be opened by the main control device;

s8, when the user takes off the water commodity, the commodity taking door is closed;

the water supply operation of the drinking water supply station is realized through the steps.

The automatic front-mounted bin for the drinking water and the water supply method can store enough supplied water commodities at the water station of the district by adopting the structure so as to be convenient for users to purchase, and can conveniently realize accurate supply of the water commodities, including different brands and different packaged water commodities by adopting the structure that the water supply conveyer belt is combined with the flexible slideway. The utility model has the advantages of simple structure, low energy consumption, high reliability, convenient realization and large storage capacity, and mainly adopts standard components. And accurate water commodity supply can be realized.

Drawings

The utility model is further illustrated by the following examples in conjunction with the accompanying drawings:

fig. 1 is a front view of the overall structure of the present utility model.

Fig. 2 is a side view of the overall structure of the present utility model.

Fig. 3 is a block diagram of a multi-layered flexible slideway of the present utility model.

Fig. 4 is a control flow chart of the present utility model.

Fig. 5 is a control block diagram of the present utility model.

In the figure: the automatic weighing device comprises a bin body 1, a goods taking port 2, a goods taking door 3, a goods loading door 4, a water supply conveyer belt 5, a stop block 51, a water commodity 6, a conveyer belt position sensor 7, a slide support 8, a flexible slide 9, an opening 91, a connecting part 92, a bottom flexible slide 93, a stay cable 10, a hinge pin 11, a door lock 12, a weighing sensor 13, a hinge seat 14, a weighing plate 15 and a buffer slope 16.

Detailed Description

Example 1:

in fig. 1-3, an automatic front-mounted bin for drinking water comprises a bin body 1, a water supply conveying belt 5 is arranged in the bin body, water commodities 6 which are arranged continuously are used for bearing on the water supply conveying belt 5, a goods taking port 2 is arranged at a position, close to the tail end of the water supply conveying belt 5, of the bin body 1, and a goods taking door 3 is arranged at the position of the goods taking port 2. With this structure, the water commodity 6 on the water supply conveyer belt 5 is sequentially conveyed to the position of the goods taking door 3, and the user can conveniently take the goods after buying the goods, so that the use is very convenient. By adopting a multi-row structure, each row of water supply conveyor belts 5 corresponds to one water commodity, and the supply of various water commodities can be realized.

In the preferred schemes 2 and 3, a vertical flexible slideway 9 is arranged below the tail end of the water supply conveyer belt 5, and the top opening of the flexible slideway 9 just receives the water commodity 6 falling on the water supply conveyer belt 5. The flexible slideway 9 is preferably a rubber cylinder. When the water commodity 6 falls, negative pressure can be generated in the flexible slideway 9, the flexible slideway 9 is coated on the surface of the water commodity 6, and the generated friction force slows down the falling speed of the water commodity 6, so that the water commodity 6 is prevented from being damaged in the falling process.

In a preferred embodiment, the horizontal cross-sectional profile of the flexible ramp 9 is slightly larger than the horizontal cross-section of the water commodity 6. With this structure, negative pressure is easily generated, and excessive obstruction to the falling of the water commodity 6 is not caused. When the horizontal cross-sectional profile of the flexible chute 9 is too large, the water commodity 6 is liable to topple over and otherwise be hindered from falling.

In a preferred embodiment, the inner wall of the flexible slideway 9 is provided with a friction layer.

In the preferred scheme, the outer layer of the flexible slideway 9 is a plastic woven layer, warp threads of the plastic woven layer are spiral threads along the axial direction of the flexible slideway 9, and the inner layer is rubber or a silica gel layer. With this configuration, the durability of the flexible slideway 9 can be further improved.

In the preferred scheme, as shown in fig. 2, the water supply conveyer belt 5 is multi-layered, the flexible slideway 9 is connected with a support near the tail end of the water supply conveyer belt 5 through a slideway support 8, an opening 91 is arranged at the bottom end of the flexible slideway 9 on the upper layer, the opening 91 is positioned near the tail end of the water supply conveyer belt 5, so that the water commodity 6 on the current layer enters the flexible slideway 9 on the current layer, and one side, far away from the water supply conveyer belt 5, of the bottom end of the flexible slideway 9 on the upper layer is connected with the slideway support 8 on the current layer. With this structure, the water commodity 6 located at the upper layer can fall down through the plurality of flexible slides 9, thereby avoiding damage. The current layer of water commodity 6 can enter the current layer of flexible slideway 9 from the opening.

In a preferred embodiment, as shown in fig. 2, a plurality of stoppers 51 are provided on the water supply conveyor 5, water commodity 6 is located between the stoppers 51, and a conveyor position sensor 7 is provided on one side of the water supply conveyor 5 for detecting the position of the stoppers 51 on the water supply conveyor 5. The stopper 51 is provided to prevent the water commodity 6 from slipping on the water supply conveyor 5. Further, the control difficulty can be greatly reduced by performing the position control by detecting the stopper 51.

In the preferred scheme, as shown in fig. 2, the top of the goods taking door 3 is connected with the bin body 1 through a hinged pin shaft 11, the goods taking door 3 is positioned at the inner side of the goods taking port 2, and a limiting mechanism is further arranged at the inner side of the goods taking port 2 and used for limiting the opening angle of the goods taking door 3 so that the direction of the water supply conveyer belt 5 is shielded by the goods taking door 3 in an opening state;

the goods taking door 3 is provided with an electrically-controlled unlocking door lock 12; for example, a door lock 12 with a retractable locking bolt, the retraction of which is pushed by an electromagnet or an electric push rod.

A buffer slope 16 is further arranged below the inner side of the goods taking port 2, a weighing plate 15 is arranged on the buffer slope 16, and a weighing sensor 13 is arranged below the weighing plate 15. With this configuration, it is possible to detect whether or not the commodity 6 falls, and the load cell 13 feeds back a weight signal after each falling. It is further possible to detect whether the water commodity 6 is taken away by the user. So that the next operation can be performed.

In the preferred scheme, as shown in fig. 5, a main control device is further arranged, the main control device adopts a singlechip or a PLC, the weighing sensor 13 and the conveyor belt position sensor 7 are electrically connected with the main control device, and the main control device is electrically connected with the water supply conveyor belt 5 and the door lock 12.

Example 2:

as shown in fig. 4, a water supply method using a drinking water automatic front-end bin includes the following steps:

s1, loading water commodities 6 onto each water supply conveyer belt 5 of a water station; preferably, a gate is arranged on one side of the bin body 1 away from the goods taking port 2, so that the head ends of all the water supply conveying belts 5 are opened after being opened on site or remotely, and the goods loading operation is facilitated.

S2, binding the shipment data with the current water station; the shipment data includes data of the variety, number, specification, and the like of the water commodity 6.

S3, associating the user purchase data with the current water station; preferably, in a nearby principle manner, the user is pre-associated with the nearest water station, waits for the customer to confirm and pay, and after confirmation, requests the customer to get the commodity 6 from the water station. The water commodity 6 comprises a barreled water or a container.

S4, the associated water commodity enters a pre-selling state; i.e., the water commodity is assigned a value such that the water commodity cannot be sold again.

S5, user verification for water taking; the user is authenticated in the water station site in a verification code, fingerprint or face brushing mode.

S6, according to the related water commodities, namely according to brands, types and the like of the related water commodities, the main control device drives the corresponding motors of the water supply conveyer belts 5 to move, so that the water commodities 6 on the main control device move towards the tail parts of the water supply conveyer belts 5, the conveyer belt position sensor 7 feeds back the running position of the water supply conveyer belts 5, only one water commodity 6 falls into the flexible slide ways 9 from the water supply conveyer belts 5, after the water commodity falls into place, the conveyer belt position sensor 7 sends signals to the main control device, and the main control device drives the corresponding motors of the water supply conveyer belts 5 to stop moving; the conveyor belt position sensor 7 preferably employs a non-contact travel switch. For example, the conveyor position sensor 7 is a photosensor, which, when the stop 51 passes, blocks light to produce a position signal for the correlation photosensor, or reflects a light beam to produce a position signal for the reflection photosensor. Or an iron block is arranged on the stop block 51, and the conveyor belt position sensor 7 is a Hall sensor, so that an eddy current signal is generated when the stop block 51 passes through the Hall sensor.

S7, the water commodity falls onto the weighing plate 15 of the buffer slope 16 from the flexible slideway 9, and preferably one end of the weighing plate 15 is hinged with the lower end of the buffer slope 16, so that the water commodity can better generate a weighing signal. The weighing sensor 13 sends a signal to the main control device, and the main control device controls the goods taking door 3 to be opened;

s8, when a user takes away the water commodity 6, the goods taking door 3 is closed under the action of gravity, and the door lock 12 is reset to lock the goods taking door 3;

the water supply operation of the drinking water supply station is realized through the steps.

The above embodiments are only preferred embodiments of the present utility model, and should not be construed as limiting the present utility model, and the connection mentioned in the present utility model includes direct connection and indirect connection. The embodiments and features in the embodiments in this application may be arbitrarily combined with each other without collision. The protection scope of the present utility model is defined by the claims, and the protection scope includes equivalent alternatives to the technical features of the claims. I.e., equivalent replacement modifications within the scope of this utility model are also within the scope of the utility model.

Claims (10)

1. An automatic front-mounted bin for drinking water is characterized in that: the automatic feeding device comprises a bin body (1), wherein a water supply conveyer belt (5) is arranged inside, water commodities (6) which are arranged continuously are borne on the water supply conveyer belt (5), a goods taking port (2) is arranged at a position, close to the tail end of the water supply conveyer belt (5), of the bin body (1), and a goods taking door (3) is arranged at a position, close to the goods taking port (2);

a vertical flexible slideway (9) is arranged below the tail end of the water supply conveyer belt (5), and the top opening of the flexible slideway (9) just receives the water commodity (6) falling on the water supply conveyer belt (5).

2. The automated pre-bin for potable water of claim 1, further comprising: the horizontal cross-sectional profile of the flexible slideway (9) is slightly larger than the horizontal cross-section of the water commodity (6).

3. The automated pre-bin for potable water of claim 1, further comprising: the inner wall of the flexible slideway (9) is provided with a friction layer.

4. The automated pre-bin for potable water of claim 1, further comprising: the outer layer of the flexible slideway (9) is a plastic braiding layer, warp threads of the plastic braiding layer are spiral threads along the axial direction of the flexible slideway (9), and the inner layer is rubber or a silica gel layer.

5. The automated pre-bin for potable water of claim 1, further comprising: the water supply conveyer belt (5) be the multilayer, flexible slide (9) pass through slide support (8) and be close to the leg joint of water supply conveyer belt (5) tail end, the position that is located the bottom of flexible slide (9) on upper strata is equipped with opening (91) to supply current layer's water commodity (6) to get into flexible slide (9) on layer, one side that water supply conveyer belt (5) was kept away from to the bottom of flexible slide (9) on upper strata is connected with slide support (8) on current layer.

6. The automated pre-bin for potable water of claim 1, further comprising: be equipped with a plurality of dog (51) on water supply conveyer belt (5), water commodity (6) are located between dog (51), and one side of water supply conveyer belt (5) is equipped with conveyer belt position sensor (7) for detect the position of dog (51) on water supply conveyer belt (5).

7. The automated pre-bin for potable water of claim 6, further comprising: the top of getting goods door (3) is connected with storehouse body (1) through articulated round pin axle (11), gets goods door (3) and is located the inboard of getting goods mouth (2), still is equipped with stop gear in the inboard of getting goods mouth (2) for the opening angle of getting goods door (3) is used for the restriction, so that get goods door (3) and shelter from the direction of water supply conveyer belt (5) under the open state.

8. The automated pre-bin for potable water of claim 7, further comprising: the position of the goods taking door (3) is provided with an electrically-controlled unlocking door lock (12).

9. The automated pre-bin for potable water of claim 7, further comprising: the lower part of the inner side of the goods taking port (2) is also provided with a buffer slope (16), the buffer slope (16) is provided with a weighing plate (15), and a weighing sensor (13) is arranged below the weighing plate (15).

10. The automated pre-bin for potable water of claim 9, further comprising: the automatic water supply device is also provided with a main control device, a weighing sensor (13) and a conveyor belt position sensor (7) are electrically connected with the main control device, and the main control device is electrically connected with the water supply conveyor belt (5) and the door lock (12).