阅读说明：本技术 一种以介质共享为核心的终端系统 (Terminal system with medium sharing as core ) 是由 高强 唐四 王金鹏 于 2020-05-25 设计创作，主要内容包括：本发明公开了一种以介质共享为核心的终端系统,包括主柜、副柜和柜门；所述主柜、副柜固定安装在一起；所述柜门通过铰链或合页安装在主柜和副柜上；所述主柜内安装有传送机构、介质模块、传输机构控制模块和整机主控模块；所述副柜内安装有介质模块；本发明通过机械传输机构实现介质模块的共享功能,能自由搭配各种副柜,提高产品通用性；按需配置副柜,降低设备成本,提高业务办理效率,提升用户满意度；各业务功能口统一起来,提高整体外观效果；提高模块复用率,减少运营人员的工作强度和工作量,降低运营成本。(The invention discloses a terminal system taking medium sharing as a core, which comprises a main cabinet, an auxiliary cabinet and a cabinet door, wherein the main cabinet is connected with the auxiliary cabinet through a network; the main cabinet and the auxiliary cabinet are fixedly installed together; the cabinet doors are arranged on the main cabinet and the auxiliary cabinet through hinges or hinges; a transmission mechanism, a medium module, a transmission mechanism control module and a whole machine main control module are arranged in the main cabinet; a medium module is installed in the auxiliary cabinet; the invention realizes the sharing function of the medium module through the mechanical transmission mechanism, can freely match various auxiliary cabinets, and improves the universality of products; the auxiliary cabinet is configured as required, so that the equipment cost is reduced, the service handling efficiency is improved, and the user satisfaction is improved; all service function ports are unified, and the overall appearance effect is improved; the module reuse rate is improved, the working intensity and the working load of operators are reduced, and the operation cost is reduced.)

1. A terminal system with medium sharing as core is characterized in that: comprises a main cabinet, an auxiliary cabinet and a cabinet door; the main cabinet and the auxiliary cabinet are fixedly installed together; the cabinet doors are arranged on the main cabinet and the auxiliary cabinet through hinges or hinges; a transmission mechanism, a medium module, a transmission mechanism control module and a whole machine main control module are arranged in the main cabinet; and a medium module is installed in the auxiliary cabinet.

2. The media sharing centric end system according to claim 1, wherein: the cabinet door consists of a cabinet door body, an electric gate, a fetching electric tipping bucket, an electric push rod, an electric gate motor, a synchronous belt and a sensor; the transmission mechanism control module controls the motor of the electric gate to rotate, and the electric gate is pulled to open and close through the synchronous belt; the transmission mechanism control module controls the electric push rod to control the overturning of the object taking electric tipping bucket, and the state monitoring is carried out through the sensor.

3. The media sharing centric end system according to claim 1, wherein: the conveying mechanism is a three-axis conveying mechanism; the three-axis conveying mechanism consists of a straight X-direction slide rail, a base, a Y-direction slide rail, a Z-direction motor, a Y-direction motor and a Z-direction conveying platform; the Y-direction sliding rail is fixed on the base; the Z-direction motor is fixed on the Z-direction conveying platform; the Z-direction conveying platform can move up and down in the Y direction on the Y-direction slide rail through the Y-direction motor.

4. The media sharing centric end system according to claim 1, wherein: the transmission mechanism is a two-axis transmission mechanism; the two-shaft transmission mechanism consists of a motor, a sensor group, a linear slide rail, a conveying trolley, a synchronous belt and a turnover motor; the overturning motor is fixed on the conveying trolley; the conveying trolley is fixed on a sliding block of the linear sliding rail; the transmission mechanism control module controls the motor to rotate, the conveying trolley is pulled to move in the X direction through the synchronous belt, the sensor group judges that the conveying trolley reaches a proper position, the overturning motor overturns, and a medium is put into the fetching electric tipping bucket.

5. The media sharing centric end system according to claim 1, wherein: the connection mode of the main cabinet and the auxiliary cabinet comprises but is not limited to splicing.

6. A media sharing centric terminal system according to claim 2, characterized in that: the electric gate includes but is not limited to the above one-way opening mode, and can be opened by rotation or by combination.

7. A media sharing centric terminal system according to claim 2, characterized in that: the opening mode of the electric fetching tipping bucket comprises but is not limited to the driving by an electric push rod, can be driven by a motor in a control mode, and can also be driven by other combination modes.

Technical Field

The invention relates to a terminal system taking medium sharing as a core, and belongs to the technical field of self-service equipment.

Background

The self-service terminal is mainly used for relieving the problem of large people flow in business halls, improving the business handling speed and is distributed in the industries of banks, telecommunications, electric power, medical treatment, aviation, retail and the like; the multifunctional bus has the advantages of saving personnel expenses, reducing business cost, continuously working for 24 hours, running without errors and the like, and can be placed in public places such as business halls, stations, airports, superstores and the like. Along with the continuous development of science and technology, people are more and more high to quality of service's requirement, satisfy customer's demand, promote customer's experience and feel, reduce operator's cost, become self-service terminal's development trend.

In the existing self-service terminal, all functions are integrated into several self-service terminals, and in order to reduce the types of equipment, the types of self-service terminal equipment are reduced by increasing the integration level of the equipment; meanwhile, the queuing problem when the client transacts the business is solved by increasing the number of the self-service terminals, and the transaction efficiency is improved.

In the existing self-service terminal, a client transacts certain hot services, particularly transacts a medium receiving service, and needs to queue up for transaction, so that the time of the client is delayed, and the satisfaction degree of the client is reduced; or when the same person handles a plurality of different medium services, the services can be completed on different devices, and the experience of the client is seriously influenced; an operator also needs to purchase a plurality of multi-type devices to meet the requirements of customers, and the total cost of the devices is high; different background systems are required to be equipped for the different types of equipment, each equipment needs to maintain different medium modules, the operation efficiency is low, and the operation cost is high.

Disclosure of Invention

In view of the above technical problems, the present invention aims to: a terminal system with medium sharing as a core is provided.

The technical solution of the invention is realized as follows: a terminal system taking medium sharing as a core comprises a main cabinet, an auxiliary cabinet and a cabinet door; the main cabinet and the auxiliary cabinet are fixedly installed together; the cabinet doors are arranged on the main cabinet and the auxiliary cabinet through hinges or hinges; a transmission mechanism, a medium module, a transmission mechanism control module and a whole machine main control module are arranged in the main cabinet; and a medium module is installed in the auxiliary cabinet.

Preferably, the cabinet door consists of a cabinet door body, an electric gate, a fetching electric tipping bucket, an electric push rod, an electric gate motor, a synchronous belt and a sensor; the transmission mechanism control module controls the motor of the electric gate to rotate, and the electric gate is pulled to open and close through the synchronous belt; the transmission mechanism control module controls the electric push rod to control the overturning of the object taking electric tipping bucket, and the state monitoring is carried out through the sensor.

Preferably, the conveying mechanism is a three-axis conveying mechanism; the three-axis conveying mechanism consists of a straight X-direction slide rail, a base, a Y-direction slide rail, a Z-direction motor, a Y-direction motor and a Z-direction conveying platform; the Y-direction sliding rail is fixed on the base; the Z-direction motor is fixed on the Z-direction conveying platform; the Z-direction conveying platform can move up and down in the Y direction on the Y-direction slide rail through the Y-direction motor.

Preferably, the transmission mechanism is a biaxial transmission mechanism; the two-shaft transmission mechanism consists of a motor, a sensor group, a linear slide rail, a conveying trolley, a synchronous belt and a turnover motor; the overturning motor is fixed on the conveying trolley; the conveying trolley is fixed on a sliding block of the linear sliding rail; the transmission mechanism control module controls the motor to rotate, the conveying trolley is pulled to move in the X direction through the synchronous belt, the sensor group judges that the conveying trolley reaches a proper position, the overturning motor overturns, and a medium is put into the fetching electric tipping bucket.

Preferably, the connection mode of the main cabinet and the auxiliary cabinet includes, but is not limited to, splicing.

Preferably, the electric gate includes, but is not limited to, the above one-way opening manner, and may be opened by rotation or by combination.

Preferably, the opening mode of the electric fetching tipping bucket comprises but is not limited to the mode of being driven by an electric push rod, and the opening mode can be driven by a motor control mode or other combination modes.

Due to the application of the technical scheme, compared with the prior art, the invention has the following advantages:

according to the terminal system with the medium sharing as the core, the sharing function of the medium module is realized through the mechanical transmission mechanism, various auxiliary cabinets can be freely matched, and the product universality is improved; the auxiliary cabinet is configured as required, so that the equipment cost is reduced, the service handling efficiency is improved, and the user satisfaction is improved; all service function ports are unified, and the overall appearance effect is improved; the module reuse rate is improved, the working intensity and the working load of operators are reduced, and the operation cost is reduced.

Drawings

The technical scheme of the invention is further explained by combining the accompanying drawings as follows:

fig. 1 is an overall schematic diagram of a terminal system with media sharing as a core according to the present invention;

FIG. 2 is a schematic diagram of a cabinet door of a terminal system with media sharing as a core according to the present invention;

FIG. 3 is a schematic diagram of a three-axis transport mechanism of a terminal system with media sharing as a core according to the present invention;

FIG. 4 is a schematic diagram of a two-axis transport mechanism of a terminal system with media sharing as a core according to the present invention;

wherein: 101. a main cabinet; 102. a sub-cabinet; 200. a cabinet door; 300. a three-axis transmission mechanism; 400. a two-axis transmission mechanism; 5. a media module A; 6. a transmission mechanism control module; 7. the whole machine main control module; 8. a media module B; 9. a media module C; 10. a media module N; 201. a cabinet door body; 202. an electric gate; 203. fetching electric tipping bucket; 204. an electric push rod; 205. an electric gate motor; 206. a synchronous belt; 207. a sensor; 301. a straight X-direction slide rail; 302. a base; 303. a Y-direction slide rail; 304. a Z-direction motor; 305. a Y-direction motor; 306. a Z-direction conveying platform; 401. a motor; 402. a sensor group; 403. a linear slide rail; 404. a transfer trolley; 405. a synchronous belt; 406. and (5) overturning the motor.

Detailed Description

The invention is described below with reference to the accompanying drawings.

Fig. 1-4 show a terminal system with media sharing as a core according to the present invention, which includes a main cabinet 101, an auxiliary cabinet 102, and a cabinet door 200; the main cabinet 101 and the auxiliary cabinet 102 are fixedly installed together; the cabinet door 200 is mounted on the main cabinet 101 and the auxiliary cabinet 102 through hinges or hinges; a transmission mechanism, a medium module, a transmission mechanism control module 6 and a whole machine main control module 7 are arranged in the main cabinet 101; the sub-cabinet 102 is provided with a medium module therein.

The cabinet door 200 is composed of a cabinet door body 201, an electric gate 202, a fetching electric skip 203, an electric push rod 204, an electric gate motor 205, a synchronous belt 206 and a sensor 207; the transmission mechanism control module 6 controls the electric gate motor 205 to rotate, and pulls the electric gate 202 to open and close through the synchronous belt 206; the transmission mechanism control module 6 controls the electric push rod 204 to control the overturning of the fetching electric skip bucket 203, and the state monitoring is carried out through the sensor 207.

The conveying mechanism is a three-axis conveying mechanism 300; the three-axis conveying mechanism 300 is composed of a straight X-direction slide rail 301, a base 302, a Y-direction slide rail 303, a Z-direction motor 304, a Y-direction motor 305 and a Z-direction conveying platform 306; the Y-direction slide rail 303 is fixed on the base 302; the Z-direction motor 304 is fixed on a Z-direction conveying platform 306; the Z-direction transfer stage 306 can move up and down in the Y direction on the Y-direction slide rail 303 by the Y-direction motor 305.

The transmission mechanism is a two-axis transmission mechanism 400; the two-axis transmission mechanism 400 consists of a motor 401, a sensor group 402, a linear slide rail 403, a transmission trolley 404, a synchronous belt 405 and a turnover motor 406; the overturning motor 406 is fixed on the conveying trolley 404; the conveying trolley 404 is fixed on a slide block of the linear slide rail 403; the transmission mechanism control module 6 controls the motor 401 to rotate, the synchronous belt 405 pulls the conveying trolley 404 to move in the X direction, the sensor group 402 judges that the conveying trolley reaches a proper position, the overturning motor 406 overturns, and the medium is thrown into the fetching electric tipping bucket 203.

The connection mode of the main cabinet 101 and the auxiliary cabinet 102 includes, but is not limited to, splicing.

The electric gate 202 includes, but is not limited to, the above one-way opening manner, and may be opened by rotation or by combination.

The opening mode of the electric fetching skip bucket 203 comprises but is not limited to the mode driven by the electric push rod 204, and the opening mode can be driven by motor control or other combination modes.

When a user operates the self-service terminal and needs to transmit media released by a media module A5, a media module B8 or a media module C9 to the main cabinet 101 and the auxiliary cabinet 102, the transmission mechanism control module 6 controls the corresponding motor to move the Z-direction transmission platform 306 or the transmission trolley in the X, Y, Z direction, and puts the media into the electric fetching tipping bucket 203; the transmission mechanism control module 6 controls the electric gate motor 205 to drive the synchronous belt 206 to rotate, pulls the electric gate 202 to open, and the user takes the medium out, and then the electric gate motor 205 acts in the reverse direction to drive the synchronous belt 206 to pull the electric gate 202 to close, thereby completing the transaction; if the sensor 207 group detects that the user does not take the medium after overtime, the transmission mechanism control module 6 controls the electric gate motor 205 to move reversely to drive the synchronous belt 206 to pull the electric gate 202 to close, the transmission mechanism control module 6 continues to control the electric push rod 204 to contract to pull the electric article taking skip bucket 203 to rotate to open, the medium is returned into the recovery device, after the sensor 207 group detects that the medium is returned into the recovery device, the electric push rod 204 extends to push the electric article taking skip bucket to rotate to close, and the transaction is completed.

According to the terminal system taking medium sharing as the core, the sharing function of the medium module is realized through the mechanical transmission mechanism, various auxiliary cabinets 102 can be freely matched, and the product universality is improved; the auxiliary cabinet 102 is configured as required, so that the equipment cost is reduced, the service handling efficiency is improved, and the user satisfaction is improved; all service function ports are unified, and the overall appearance effect is improved; the module reuse rate is improved, the working intensity and the working load of operators are reduced, and the operation cost is reduced.

The above-mentioned embodiments are merely illustrative of the technical idea and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the scope of the present invention, and all equivalent changes or modifications made according to the spirit of the present invention should be covered in the scope of the present invention.