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CN-122024372-A - Self-service station

CN122024372ACN 122024372 ACN122024372 ACN 122024372ACN-122024372-A

Abstract

The invention discloses a self-service station which comprises a cabinet body, wherein a control screen and a card swiping sensor are arranged on the upper portion of the front face of the cabinet body, a card outlet opening is further formed in the position, below the control screen, of the front face of the cabinet body, a card outlet device is further arranged in the position, corresponding to the card outlet opening, of the cabinet body, a charging bin is further arranged in the position, below the card outlet opening, of the front face of the cabinet body, and a charging bank is further arranged in the charging bin. The invention integrates leasing and charging treasures and selling various types of cards, is convenient to use, supports a delivery mode of directly brushing the medallion, greatly improves the user experience, and adopts a rotary disc type card discharging structure, so that compared with the traditional linear or laminated structure, the invention can greatly save space, greatly improve the space utilization rate and is convenient for deployment in a limited space.

Inventors

  • SHEN YI
  • Liang Daifa

Assignees

  • 深圳盈合麦田传媒有限公司

Dates

Publication Date
20260512
Application Date
20260205

Claims (10)

  1. 1. A self-service station is characterized by comprising a cabinet body, wherein a control screen and a card swiping sensor are arranged on the upper portion of the front face of the cabinet body, a card outlet opening is further formed in the position, below the control screen, of the front face of the cabinet body, a card outlet device is further arranged in the position, corresponding to the card outlet opening, of the cabinet body, a charging bin is further arranged in the position, below the card outlet opening, of the front face of the cabinet body, a charging bank is further arranged in the charging bin, a power module electrically connected with the charging bin, the control screen, the card swiping sensor and the card outlet device is further arranged in the cabinet body, a main control module which is connected with the power module and used for controlling the service station to work is further arranged in the cabinet body, an android main board is further connected between the power module and the control screen, and the android main board is connected with the card swiping sensor.
  2. 2. The self-service station of claim 1, wherein the android motherboard is connected to the swipe sensor via an RS232 communication line.
  3. 3. The self-service station of claim 1, wherein the card discharging device comprises a rotary driving mechanism, a rotary chassis connected with the rotary driving mechanism and a rotary seat connected to the top of the rotary chassis, a first mounting groove is formed in the top of the rotary seat, a plurality of card storage slots penetrating to the bottom of the rotary seat are formed in the inner wall of the first mounting groove at intervals in the circumferential direction, a plurality of card discharging grooves are formed in the periphery of the top edge of the rotary chassis at intervals, each card discharging groove is correspondingly arranged below one card storage slot, one end of each card discharging groove extends outwards from the top of the rotary chassis to form a first extension portion, two sides of the bottom of each card storage slot extend downwards to form a supporting portion, each supporting portion is correspondingly inserted into one side of each card discharging groove, a card discharging gap is reserved between the top of each first extension portion and one end of the bottom of each card storage slot, a first through hole is formed in the middle of each card discharging groove, the card discharging gap is flush with each card discharging slot, and the card pushing mechanism is further arranged below the periphery of the rotary chassis to push cards out of the card storage slot from the card storage slot.
  4. 4. The self-service station according to claim 3, wherein the card pushing mechanism comprises a pushing driving assembly and two fixed vertical plates which are arranged in parallel at intervals, a first rotating shaft is rotatably connected between one ends of the two fixed vertical plates, a first roller is further arranged on the first rotating shaft, the first roller is arranged below the bottom edge of the rotating chassis, a protruding block extends outwards from part of the outer wall of the first roller, a card outlet seat is further connected between the other ends of the two fixed vertical plates, a card outlet hole penetrating through the card outlet seat to the other side of the card outlet seat is formed in a position corresponding to the card outlet gap, the pushing driving assembly is connected with one end of the first rotating shaft, and the pushing driving assembly is used for driving the first rotating shaft to drive the protruding block to rotate, so that cards in the card storage slot are sequentially driven to move to the outside through the card outlet gap, the card outlet hole and the card outlet opening through the protruding block.
  5. 5. The self-service station of claim 4, wherein the bottom of the boss is provided with anti-slip stripes.
  6. 6. The self-service station according to claim 5, wherein two second rotating shafts are further rotatably connected between the two fixed risers, one of the second rotating shafts is located below the other second rotating shaft, the two second rotating shafts are arranged on one side of the card outlet seat close to the first roller, each second rotating shaft is further provided with a second roller, a first gap is reserved between the two second rollers, and the first gap is at the same height as the card outlet gap, the card outlet hole and the card outlet opening.
  7. 7. The self-service station of claim 6, wherein a clearance gap in an arc-shaped structure is formed on one side of the card outlet seat away from the first roller, a card outlet hole is formed in the clearance gap, a first detection hole is formed on one side of the card outlet seat close to the first roller, and a first position sensor is further arranged on the top of the card outlet seat above the first detection hole.
  8. 8. The self-service station of claim 7, wherein the push drive assembly comprises a first rotating motor mounted on the fixed riser, a first driving wheel disposed on one side of the fixed riser and connected with an output shaft of the first rotating motor, and a first driven wheel mounted on one end of the first rotating shaft, a second driven wheel is further mounted on one end of the second rotating shaft located below, and a first synchronous belt is further wound among the second driven wheel, the first driven wheel and the first driving wheel.
  9. 9. The self-service station according to claim 3, wherein a plurality of card storage seats are arranged on the inner wall of the first mounting groove at intervals in the circumferential direction, the card storage groove holes are formed in the card storage seats, a guide notch penetrating into the card storage groove holes is further formed in one end of each card storage seat, a material pressing plate is further arranged in each card storage groove hole, one end of each material pressing plate extends outwards to form a second extension portion, the second extension portions movably penetrate through the guide notch, a guide strip is further arranged at one end of the bottom of the rotating seat, located in each card storage groove hole, of each rotary seat, and a guide inclined surface is further arranged on one side, close to each card storage groove hole, of each guide strip.
  10. 10. The self-service station according to claim 3, wherein the rotary driving mechanism comprises a second rotary motor, a second driving wheel installed on an output shaft of the second rotary motor, a bearing seat arranged at one side of the second rotary motor, a first bearing installed in the bearing seat, a rotary column arranged in the vertical direction and the lower part of the rotary column is connected with the first bearing, and a rotary connecting plate connected to the top of the rotary column, a third driven wheel is further installed on the rotary column, a second synchronous belt is further wound between the third driven wheel and the second driving wheel, the rotary chassis is installed on the rotary connecting plate, a first PCB plate in an annular structure is further arranged below the rotary chassis, a plurality of second position sensors are arranged at intervals on the top circumference of the first PCB plate, a second through hole is further formed in one end in the card outlet groove, a first bracket is further arranged below the second through hole of the card outlet groove correspondingly, and a U-shaped photoelectric sensor is further installed at one side of the first bracket.

Description

Self-service station Technical Field The invention relates to the technical field of self-service stations, in particular to a self-service station. Background At present, service terminals (service stations) for automatically selling various cards such as telephone cards, flow cards and the like are widely installed at all corners of a city, such as vertical sales stations or sales cabinets and the like, meanwhile, charging treasures are integrated on the service stations, and after a user sweeps out a two-dimensional code on the sales cabinet, idle charging treasures can automatically pop up, and then the user takes away the charging treasures. Meanwhile, the card discharging device of the current service terminal mostly adopts a linear or laminated structure, in such a way, if different types of cards are to be sold, a plurality of mutually independent and separated conveying units (each unit corresponds to one type of card) are required to be arranged, so that the device is huge in size and is unfavorable for deployment in a limited space, and therefore, improvement is required. Disclosure of Invention The invention aims to provide a self-service station which integrates leasing of a charger and selling of various types of cards, is convenient to use, supports a delivery mode of directly brushing octadada, greatly improves user experience, and adopts a rotary disc type card discharging structure, so that compared with a traditional linear or laminated structure, the self-service station can greatly save space, greatly improve space utilization rate, is convenient to deploy in a limited space and has strong practicability. In order to achieve the above purpose, the following technical scheme is adopted: The self-service station comprises a cabinet body, wherein a control screen and a card swiping sensor are arranged on the upper portion of the front face of the cabinet body, a card outlet opening is further formed in the position, below the control screen, of the front face of the cabinet body, a card outlet device is further arranged in the position, corresponding to the card outlet opening, of the cabinet body, a charging bin is further arranged in the position, below the card outlet opening, of the front face of the cabinet body, a charging bank is further arranged in the charging bin, a power module which is electrically connected with the charging bin, the control screen, the card swiping sensor and the card outlet device is further arranged in the cabinet body, a main control module which is connected with the power module and used for controlling the service station to work is further arranged in the cabinet body, an android main board is further connected between the power module and the control screen, and the android main board is connected with the card swiping sensor. Furthermore, the android main board is connected with the card swiping sensor through an RS232 communication line. The card discharging device comprises a rotary driving mechanism, a rotary chassis connected with the rotary driving mechanism and a rotary seat connected to the top of the rotary chassis, wherein a first mounting groove is formed in the top of the rotary seat, a plurality of card storage slots penetrating to the bottom of the rotary seat are formed in the inner wall of the first mounting groove at intervals in the circumferential direction, a plurality of card discharging grooves are formed in the top edge of the rotary chassis at intervals in the circumferential direction, each card discharging groove is correspondingly arranged below one card storage slot, one end of each card discharging groove extends outwards from the top of the rotary chassis to form a first extension part, two sides of the bottom of each card storage slot extend downwards to form a supporting part, each supporting part is correspondingly inserted into one side of each card discharging groove, a card discharging gap is reserved between the top of each first extension part and one end of the bottom of each card storage slot, a first through hole is formed in the middle of each card discharging slot, the card discharging gap and the card discharging slot are arranged in a mode, a pushing mechanism is further arranged below the bottom edge of the rotary chassis and used for pushing cards in the card storage cabinet to be pushed out of the card discharging gap and continuously to the outside the card storage cabinet. The card pushing mechanism comprises a card pushing driving assembly and two fixed vertical plates which are arranged in parallel at intervals, a first rotating shaft is rotatably connected between one ends of the two fixed vertical plates, a first roller is further arranged on the first rotating shaft, the first roller is arranged below the bottom edge of the rotating chassis, a protruding block outwards extends from part of the outer wall of the first roller, a card discharging seat is further connected between the other ends of th