CN115162779A - Wind-light storage type 5G mobile teller warehouse - Google Patents

Abstract

The invention discloses a wind-solar storage type 5G mobile teller warehouse, comprising a casing, a partition plate extending vertically is fixedly connected in the casing, and the partition plate divides the space in the casing into a first chamber and a second chamber, The first chamber is provided with a door opening, the casing is provided with a processor and a battery, the partition is provided with an embedding slot for embedding the processor, the processor includes a touch screen, a camera, a 5G module, a microphone and a speaker, and the second chamber is provided with and The battery connected to the processor has a heat dissipation hole above the battery, a photovoltaic panel connected to the battery is disposed on the upper side of the heat dissipation hole, a baffle extending vertically is disposed on one side of the photovoltaic plate, and a baffle plate extending vertically is disposed on the lower side of the photovoltaic plate. The motor connected to the battery has blades connected to the motor. The invention is very convenient to handle online business, can accept the guidance of customer service online to handle business, and can use wind energy and light energy to charge the battery, and the heat dissipation performance of the casing is better.

Description

Wind-light storage type 5G mobile teller warehouse

Technical Field

The invention relates to the technical field of teller cabins, in particular to a wind-light storage type 5G mobile teller cabin.

Background

In life, people often need to go to a business hall to handle power business such as payment and account opening, but the distribution of the current business hall network is limited, users are very inconvenient to go to the business hall, the operation cost of the business hall is high, one business hall often needs to serve numerous users, the efficiency is also low, and therefore, a teller cabin which is convenient to arrange in a living area of people for handling the on-line power business is urgently needed to be provided. In addition, because the operation ability of the old is low, how to facilitate the old to handle the business is also a problem to be considered. The teller warehouse is used as an electric device, and how to supply power to the teller warehouse is also a problem to be considered.

Disclosure of Invention

The invention provides a wind-light storage type 5G mobile teller warehouse to overcome the defects of high operation cost and low business handling efficiency of personnel in the prior art, so that the personnel can conveniently handle online businesses, in addition, online customer service can remotely guide the personnel, and solar energy and wind energy can be used for generating electricity.

In order to achieve the purpose, the invention adopts the following technical scheme:

the utility model provides a portable automatic teller storehouse of scene storage formula 5G, which comprises a housin, fixedly connected with is along the baffle of vertical extension in the casing, the baffle falls into first cavity and second cavity with the space in the casing, first cavity is provided with the door opening, be provided with processor and battery in the casing, the baffle is provided with the embedded groove that is used for embedding the processor, the processor includes the touch-sensitive screen, the camera, the 5G module, microphone and speaker, the touch-sensitive screen, the camera, microphone and speaker are all towards first cavity, be provided with the battery of being connected with the processor in the second cavity, the top of battery is provided with the louvre, the louvre sets up the upside at the casing, the upside of louvre is provided with the photovoltaic board of being connected with the battery, one side of photovoltaic board is provided with along vertical extension's baffle, the lower extreme and the casing fixed connection of baffle, the one end and the casing butt of photovoltaic board, the other end slope of photovoltaic board upwards and the baffle butt, the downside of photovoltaic board is provided with the motor that is connected with the battery, the motor is connected with the blade, form the wind channel between photovoltaic board and the baffle, the blade sets up in the wind channel, the motor includes drive state and the electricity generation state.

The system can be placed in living areas such as communities, and people can handle various online services through the system, so that the system is very convenient. The housing serves to protect and contain the disposer and the battery. And the personnel enter the first chamber from the door opening to operate the processor and transact online business, wherein the 5G module is used for data interaction. The processing machine enters at least partially into the embedded groove, thereby increasing the compactness. When the personnel have a question, the personnel can contact the remote customer service through the touch screen, and the customer service guides the personnel in a voice or video call mode, wherein the microphone is used for transmitting the sound of the personnel to the customer service, the camera is used for transmitting the image of the personnel to the customer service, and the loudspeaker is used for transmitting the sound of the customer service to the personnel. This application adopts the form of online customer service, and a plurality of automatic teller storehouses can be served to single customer service to use manpower sparingly greatly. The battery is used for the power supply of processor, and the battery produces more heat at the charge-discharge in-process, and the louvre can reduce the temperature in the second cavity, and the photovoltaic board utilizes solar energy to charge for the battery, and simultaneously, photovoltaic board and baffle can prevent that the rainwater from getting into the second cavity from the louvre, protect the battery in the second cavity. The downside of photovoltaic board is provided with the blade, and the heat in the second cavity passes through the louvre and gets into the wind channel, and the blade rotates the back can be with the heat transport to the atmosphere in the wind channel. The motor has a driving state and a power generation state. Specifically, when being in the daytime, the frequency of use of the processor is great, the calorific capacity of the battery is great, the photovoltaic panel utilizes solar power generation and charges for the battery, the motor is in a driving state, namely the battery provides electric energy for the motor, the driving motor runs, the blades rotate, and the heat in the air duct is conveyed to the atmosphere, so that the heat dissipation of the second chamber is accelerated. At night, the use frequency of the processor is low or the processor is shut down, the battery generates less heat, and at the moment, sunlight does not exist, the photovoltaic panel does not generate electricity, at the moment, the motor is in a power generation state, and when wind at night passes through the blades, the motor is driven to rotate, and the battery is powered by the motor.

Furthermore, the edge of the heat dissipation hole extends upwards to form a flanging, the shell is provided with a first driving device and a second driving device, the first driving device is connected with the photovoltaic panel and used for driving the photovoltaic panel up and down, and the second driving device is connected with the photovoltaic panel and used for rotating the photovoltaic panel.

The flanges further prevent rain water on the upper side of the housing from entering the second chamber. In daytime, the photovoltaic panel is inclined and the power generation section is upward. When being close to night, first driving machine drives photovoltaic board upward movement for the lower extreme and the casing of photovoltaic board are throw off, then the second driving machine drives the photovoltaic board and rotates, and until the power generation part of photovoltaic board down, at this moment, the blade is located the upside of photovoltaic board. Then first driver drive photovoltaic board downstream, until photovoltaic board and turn-ups laminating, photovoltaic board seals the louvre promptly. On the one hand, the photovoltaic board can prevent that the dust from getting into the second cavity, also can reduce the accumulation of dust on photovoltaic board power generation part, and on the other hand, the blade is located the upside of photovoltaic board, the wind drive blade electricity generation of the nature of being convenient for more.

Further, first drive arrangement is including setting up the support in the relative both sides of louvre, support and casing fixed connection, the support is provided with the guide way along vertical extension, one side sliding connection that photovoltaic board was kept away from to the support has the sliding seat, sliding seat threaded connection has the screw rod along vertical extension, the casing is provided with the first driving machine of being connected with the screw rod, the downside fixedly connected with connecting plate of photovoltaic board, connecting plate fixedly connected with pivot, the pivot is passed the guide way and is rotated with the sliding seat and be connected, second drive arrangement includes the second driving machine, second driving machine and pivot are connected.

The support is used for supporting the sliding seat, and the sliding seat is used for supporting the photovoltaic board, and the sliding seat can follow the guide way up-and-down motion. When the photovoltaic panel needs to be lifted, the first driving machine drives the screw rod to rotate, and the sliding seat and the rotating shaft move along the guide groove, so that the photovoltaic panel is driven to lift. When the photovoltaic panel needs to be rotated, the second driving machine rotates to drive the rotating shaft to rotate, so that the photovoltaic panel is driven to rotate.

Furthermore, a plurality of supporting legs are fixedly connected to the lower side of the shell.

The supporting legs lift the shell away from the ground, and rainwater can be reduced to enter the first chamber from the door opening.

Furthermore, one side of the photovoltaic panel close to the baffle is provided with a first sealant, and one side of the photovoltaic panel close to the shell is provided with a second sealant.

The first sealant can improve the sealing performance between the photovoltaic panel and the baffle plate, and prevent rainwater from passing between the photovoltaic panel and the baffle plate and flowing to the second chamber. The second sealant can increase the seal between the housing and the photovoltaic panel.

Compared with the prior art, the invention has the following beneficial effects: 1. personnel can handle online business when entering a teller warehouse arranged in a living area, and the convenience of handling the business is improved 2. The teller warehouse can generate electricity by adopting light energy and wind energy without laying a special line for the teller warehouse, so that the installation of the teller warehouse is more convenient; 3. when a person transacts business, the person can be in online contact with the online service to obtain guidance, and finally the business can be successfully transacted, and the service can serve a plurality of teller bins simultaneously in an online mode, so that the labor cost is saved; 4. the arrangement of the heat dissipation holes increases the heat dissipation performance of the teller bin; 5. the arrangement of the baffle and the photovoltaic panel can prevent rainwater from entering the teller bin, namely, a battery in the second chamber is protected; 6. the blades are driven by the motor, so that the heat dissipation of the teller bin can be accelerated; 7. the photovoltaic panel may prevent dust from entering the second chamber at night.

Drawings

Fig. 1 is a schematic diagram of an embodiment of the present application.

Fig. 2 isbase:Sub>A cross-sectional viewbase:Sub>A-base:Sub>A of fig. 1 of an embodiment of the present application.

Fig. 3 is an enlarged view at B of fig. 2 of an embodiment of the present application.

Fig. 4 is a top view of an embodiment of the present application.

Fig. 5 is a partial side view of an embodiment of the present application.

Fig. 6 is a schematic view of the upward movement of a photovoltaic panel of an embodiment of the present application.

Fig. 7 is a schematic view of a photovoltaic panel of an embodiment of the present application after rotation.

Fig. 8 is a schematic view of a photovoltaic panel and a flange according to an embodiment of the present disclosure.

Detailed Description

The technical scheme of the invention is further specifically described by the following embodiments and the accompanying drawings.

Referring to fig. 1 to 8, a wind and light storage type 5G mobile teller warehouse comprises a housing 11, a partition plate 111 extending vertically is fixedly connected in the housing 11, the partition plate 111 divides the space in the housing 11 into a first chamber 112 and a second chamber 113, the first chamber 112 is provided with a door hole 1121, a processor 12 is arranged in the housing 11, the partition plate 111 is provided with an embedded slot 1111 for embedding the processor 12, the processor 12 comprises a touch screen 121, a camera 122, a 5G module 123, a microphone 124 and a speaker 125, the touch screen 121, the camera 122, the microphone 124 and the speaker 125 all face the first chamber 112, the second chamber 113 is provided with a battery 13 connected with the processor 12, the top of battery 13 is provided with louvre 114, louvre 114 sets up the upside at casing 11, louvre 114's upside is provided with the photovoltaic board 14 of being connected with battery 13, one side of photovoltaic board 14 is provided with along vertical extension's baffle 115, the lower extreme and the casing 11 fixed connection of baffle 115, the one end and the casing 11 butt of photovoltaic board 14, the other end slope of photovoltaic board 14 makes progress and with baffle 115 butt, the downside of photovoltaic board 14 is provided with the motor 15 of being connected with battery 13, motor 15 is connected with blade 151, form wind channel 141 between photovoltaic board 14 and the baffle 115, blade 151 sets up in wind channel 141, motor 15 includes drive state and generating state.

The system can be placed in living areas such as communities, and people can handle various online services through the system, so that the system is very convenient. The housing 11 serves to protect and house the disposer 12 and the battery 13. Personnel enter the first chamber 112 through the door opening 1121 to operate the handler 12 to handle online services, wherein the 5G module 123 is used for data interaction. The disposer 12 enters at least partially the insertion slot 1111, thereby increasing compactness. When a person is in doubt, the remote service can be contacted through the touch screen 121, and the service guides the handling person in a voice or video call mode, wherein the microphone 124 is used for transmitting the voice of the person to the service, the camera 122 is used for transmitting the image of the person to the service, and the loudspeaker 125 is used for transmitting the voice of the service to the person. This application adopts the form of online customer service, and a plurality of automatic teller storehouses can be served to single customer service to use manpower sparingly greatly. The battery 13 is used for supplying power to the processor 12, the battery 13 generates more heat in the charging and discharging process, the heat dissipation holes 114 can reduce the temperature in the second chamber 113, the photovoltaic panel 14 charges the battery 13 by using solar energy, and meanwhile, the photovoltaic panel 14 and the baffle 115 can prevent rainwater from entering the second chamber 113 from the heat dissipation holes 114 to protect the battery 13 in the second chamber 113. The blades 151 are arranged on the lower side of the photovoltaic panel 14, heat in the second chamber 113 enters the air duct 141 through the heat dissipation holes 114, and the heat in the air duct 141 can be conveyed to the atmosphere after the blades 151 rotate. The motor 15 has a driving state and a power generation state. Specifically, in daytime, the processor 12 has a high use frequency, the battery 13 has a high heat value, the photovoltaic panel 14 generates electricity by using solar energy and charges the battery 13, the motor 15 is in a driving state, that is, the battery 13 provides electric energy for the motor 15, the motor 15 is driven to operate, the blades 151 rotate to convey heat in the air duct 141 to the atmosphere, and thus the heat dissipation of the second chamber 113 is accelerated. At night, the processor 12 is used less frequently or is shut down, the battery 13 generates less heat, and no sunlight exists at the moment, the photovoltaic panel 14 does not generate electricity, at the moment, the motor 15 is in an electricity generation state, when wind at night passes through the blades 151, the motor 15 is driven to rotate, and the motor 15 generates electricity for the battery 13.

The edge of the heat dissipation hole 114 extends upwards to form a flange 1141, the housing 11 is provided with a first driving device 116 and a second driving device 117, the first driving device 116 is connected with the photovoltaic panel 14 and used for driving the photovoltaic panel 14 up and down, and the second driving device 117 is connected with the photovoltaic panel 14 and used for rotating the photovoltaic panel 14.

The flange 1141 further prevents rain water on the upper side of the housing 11 from entering the second chamber 113. In the daytime, referring to fig. 5, the photovoltaic panel 14 is inclined with the power generation section upward. When it is near night, the first driver 1165 moves the photovoltaic panel 14 upward so that the lower end of the photovoltaic panel 14 and the housing 11 are separated, see fig. 6, and then the second driver 1171 rotates the photovoltaic panel 14 until the power generation portion of the photovoltaic panel 14 faces downward, at which time the blades 151 are located on the upper side of the photovoltaic panel 14, see fig. 7. Then, the first driving machine 1165 drives the photovoltaic panel 14 to move downward until the photovoltaic panel 14 is attached to the flange 1141, that is, the photovoltaic panel 14 seals the heat dissipation hole 114. On the one hand, the photovoltaic panel 14 can prevent dust from entering the second chamber 113 and also can reduce the accumulation of dust on the power generation part of the photovoltaic panel 14, and on the other hand, the blades 151 are positioned on the upper side of the photovoltaic panel 14, which is more convenient for the wind in the nature to drive the blades 151 to generate power. See fig. 8.

First drive arrangement 116 is including setting up the support 1161 in the relative both sides of louvre 114, support 1161 and casing 11 fixed connection, support 1161 is provided with along vertically extending's guide way 1162, one side sliding connection that photovoltaic board 14 was kept away from to support 1161 has sliding seat 1163, sliding seat 1163 threaded connection has along vertically extending's screw 1164, casing 11 is provided with the first drive machine 1165 who is connected with screw 1164, the downside fixed connection of photovoltaic board 14 has connecting plate 142, connecting plate 142 fixedly connected with pivot 143, pivot 143 passes guide way 1162 and rotates with sliding seat 1163 and is connected, second drive arrangement 117 includes second drive machine 1171, second drive machine 1171 and pivot 143 are connected.

The support 1161 is used for supporting the sliding block 1163, the sliding block 1163 is used for supporting the photovoltaic panel 14, and the sliding block 1163 can move up and down along the guide groove 1162. When the photovoltaic panel 14 needs to be lifted, the first driving machine 1165 drives the screw 1164 to rotate, and the sliding seat 1163 and the rotating shaft 143 move along the guide groove 1162, so as to drive the photovoltaic panel 14 to be lifted. When the photovoltaic panel 14 needs to be rotated, the second driving machine 1171 rotates to drive the rotating shaft 143 to rotate, so as to drive the photovoltaic panel 14 to rotate.

A plurality of supporting feet 118 are fixedly connected to the lower side of the housing 11.

The support legs 118 lift the housing 11 off the ground to reduce the entrance of rain into the first chamber 112 from the door opening 1121.

The side of the photovoltaic panel 14 close to the baffle 115 is provided with a first sealant 144, and the side of the photovoltaic panel 14 close to the housing 11 is provided with a second sealant 145.

The first sealant 144 can increase the seal between the photovoltaic panel 14 and the baffle 115, preventing rain from passing between the photovoltaic panel 14 and the baffle 115 and flowing to the second chamber 113. The second sealant 145 may increase the sealability between the case 11 and the photovoltaic panel 14.

It will be understood that modifications and variations can be made by persons skilled in the art in light of the above teachings and all such modifications and variations are intended to be included within the scope of the invention as defined in the appended claims.

Claims (5)

1. A wind-solar storage type 5G mobile teller warehouse, characterized in that it comprises a casing in which a clapboard extending vertically is fixedly connected, and the clapboard divides the space in the casing into first. A chamber and a second chamber, the first chamber is provided with a door opening, the casing is provided with a processor and a battery, the separator is provided with an embedding groove for embedding the processor, and the processor includes A touch screen, a camera, a 5G module, a microphone and a speaker, the touch screen, the camera, the microphone and the speaker are all facing the first chamber, and a device connected to the processor is arranged in the second chamber. A battery, a heat dissipation hole is arranged above the battery, the heat dissipation hole is arranged on the upper side of the casing, a photovoltaic panel connected to the battery is arranged on the upper side of the heat dissipation hole, and one of the photovoltaic panels is The side is provided with a baffle extending vertically, the lower end of the baffle is fixedly connected with the casing, one end of the photovoltaic panel is in contact with the casing, and the other end of the photovoltaic panel is inclined upward and is connected to the casing. The baffle is abutted, the lower side of the photovoltaic panel is provided with a motor connected to the battery, the motor is connected with a blade, an air duct is formed between the photovoltaic panel and the baffle, and the blade is arranged on the In the air duct, the motor includes a drive state and a power generation state. 2 . The wind-solar storage 5G mobile teller warehouse according to claim 1 , wherein the edge of the heat dissipation hole extends upward to form a flange, and the casing is provided with a first driving device and a second driving device. 3 . The first driving device is connected to the photovoltaic panel and used to drive the photovoltaic panel up and down, and the second driving device is connected to the photovoltaic panel and used to rotate the photovoltaic panel. 3 . The wind-solar storage 5G mobile teller warehouse according to claim 2 , wherein the first driving device comprises brackets disposed on opposite sides of the heat dissipation hole, the brackets and the The housing is fixedly connected, the bracket is provided with a guide groove extending vertically, a side of the bracket away from the photovoltaic panel is slidably connected with a sliding seat, and the sliding seat is threadedly connected with a screw extending vertically, so The casing is provided with a first driver connected to the screw, a connecting plate is fixedly connected to the lower side of the photovoltaic panel, and a rotating shaft is fixedly connected to the connecting plate, and the rotating shaft passes through the guide groove and slides with the The seat is rotatably connected, and the second driving device includes a second driving machine, and the second driving machine is connected with the rotating shaft. 4 . The wind-solar storage 5G mobile teller warehouse according to claim 3 , wherein a plurality of supporting feet are fixedly connected to the lower side of the casing. 5 . 5. The wind-solar storage 5G mobile teller warehouse according to any one of claims 1 to 4, wherein a first sealant is provided on the side of the photovoltaic panel close to the baffle, so A second sealant is disposed on the side of the photovoltaic panel close to the casing.

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