CN220105771U - Mobile cash access equipment, control circuit thereof and automobile using same - Google Patents

Abstract

The utility model provides a mobile cash access device, a control circuit thereof and an automobile applying the same, wherein the control circuit of the mobile cash access device comprises a main control device, a HUB transponder, a plurality of peripheral units, a mobile power supply device, a power switch unit, a main control DCDC converter and a peripheral DCDC converter; the main control device is connected with the HUB transponder, and each peripheral unit is connected with each USB interface of the HUB transponder respectively; the mobile power supply device is connected with a power switch unit, the power switch unit is respectively connected with a main control DCDC converter and a peripheral DCDC converter, the main control DCDC converter is connected with the HUB transponder, and the peripheral DCDC converter is respectively connected with each peripheral unit. The mobile cash access equipment does not depend on external commercial power, can be transported to a temporary site along with a vehicle, controls an external unit by using a mobile phone, and can provide bank cash and third party payment self-service at any time by using the mobile phone to communicate with a server through a self-contained network.

Description

Mobile cash access equipment, control circuit thereof and automobile using same

Technical Field

The utility model belongs to the technical field of access equipment nowadays, and particularly relates to mobile cash access equipment, a control circuit thereof and an automobile using the same.

Background

The cash self-service device is mainly used in self-service scenes of bank and third party payment, and a user can finish functions of automatic transaction, transfer, deposit and withdrawal and the like on the cash self-service device according to flow operation, and related services can be finished by the user without participation of bank staff.

The cash self-service equipment needs to be connected through a main control module through various peripheral modules (such as a keyboard, a card reader, a printer, a cash in/out module and the like) and controlled according to the service flow, and the cash self-service equipment needs to be powered and necessary network communication is provided to realize related functions. At present, the common cash self-service equipment uses a fixed power supply device, so that standard external mains supply is required to supply power, the cash self-service equipment is hung or placed at a fixed position close to a power socket, and cannot be moved at will or flexibly changed to various temporary places where the standard external mains supply cannot be provided for use, the adaptability of the cash self-service equipment to various use environments is reduced, and the cost of the fixed cash self-service equipment is increased.

In addition, the cash self-service equipment uses a traditional industrial control host (industrial control computer) or a customized main board as a main control module, and is connected with and controls different peripheral modules through an expansion interface serial port, USB and the like of the main control module. The industrial control host or the customized mainboard is inconvenient to replace and maintain, and has complex application and development and poor compatibility. Meanwhile, the existing cash self-service equipment also needs to be configured with a communication module alone, such as using a wired or wireless network interface of an industrial personal computer to be matched with the communication module for network connection, or realizing direct wireless communication through a GPRS network card module externally connected with a USB port of a main industrial personal computer, so that the system of the cash self-service equipment is complex, the cost is improved, and the problem of data communication blockage exists when communication signals are weak.

Disclosure of Invention

The utility model provides a mobile cash access device, a control circuit thereof and an automobile using the same, and aims to solve the technical problem that the conventional cash self-service device needs standard external mains supply to cause that the cash self-service device cannot be moved to a temporary use place at will.

In order to solve the problems, the utility model adopts the following technical scheme:

the present utility model provides a control circuit of a mobile cash access device, the control circuit of the mobile cash access device comprising:

the device comprises a main control device, a HUB transponder, a plurality of peripheral units, a mobile power supply device, a power switch unit, a main control DCDC converter and a peripheral DCDC converter;

the main control device is connected with the HUB transponder, and the plurality of peripheral units are respectively connected with corresponding USB interfaces of the HUB transponder;

the mobile power supply device is connected with a power switch unit, the power switch unit is correspondingly connected with a main control DCDC converter and a peripheral DCDC converter respectively, the main control DCDC converter is connected with the HUB transponder, and the peripheral DCDC converter is correspondingly connected with each peripheral unit respectively.

Preferably, the master control device is a mobile phone.

Preferably, the master control device is connected with the OTG interface of the HUB transponder through an OTG patch cord.

The utility model also provides a mobile cash access device, which comprises a cabinet and a mobile base, wherein the cabinet is integrated with the control circuit of the mobile cash access device, the main control device is detachably arranged on the cabinet, and the plurality of peripheral units comprise:

the first peripheral unit and the second peripheral unit are arranged on the cabinet and are correspondingly connected with the first USB interface and the second USB interface of the HUB transponder respectively.

Preferably, the cabinet comprises:

a cabinet body with an opening at one side, and a cabinet door hinged at the opening side of the cabinet body;

the plurality of peripheral units further includes:

the relay is connected with a third USB interface of the HUB transponder;

the control circuit further includes:

and the electronic lock is connected with the relay and is used for locking or unlocking the cabinet door.

Preferably, the first peripheral unit and the second peripheral unit are respectively a deposit unit and a banknote outlet unit which are arranged on the cabinet door, and the main control device is detachably arranged on the outer side of the cabinet door.

Further, the mobile cash access device further comprises:

and the buffer device is connected between the cabinet body and the movable base.

Preferably, the cabinet body is rectangular, and the movable base includes:

the support chassis is provided with a U-shaped side frame at the top end of the support chassis;

the buffer device comprises:

the bottom buffer mechanism is connected between the supporting underframe and the bottom surface of the cabinet body, and the outer buffer mechanism is connected between the U-shaped side frame and the side surface of the cabinet body.

The utility model also provides an automobile, which comprises the mobile cash storing and taking device, wherein the mobile base is detachably arranged on the automobile.

Preferably, the mobile power supply device is an in-vehicle power supply device of an automobile.

Compared with the prior art, the utility model has the following beneficial effects:

the mobile cash access equipment provided by the utility model can use general mobile intelligent communication equipment such as a mobile phone, a tablet personal computer and the like as a main control device, so that the main control device is convenient to purchase and replace, and the main control device is simple in application and development and strong in compatibility. Meanwhile, the mobile cash access equipment can utilize the self-contained network of the general mobile intelligent communication equipment as a communication module to carry out network communication with a server host of the cloud, so that a cash self-service system is simplified and equipment cost is reduced. In addition, the mobile phone terminal can support data communication, and can switch to short message communication processing when the data communication signal is weak, so that communication blockage is avoided when the data communication signal is weak. The mobile base is detachably arranged on vehicles such as automobiles, so that the mobile cash access equipment does not depend on standard external mains supply power supply, and can reach any position reachable by the vehicles only by depending on the mobile power supply.

Drawings

In order to more clearly illustrate the technical solutions proposed by the present utility model, the following detailed description is made with reference to the examples and the accompanying drawings, it being understood that the drawings in the following description are only some examples of the present utility model and that the variations of these drawings are possible under the concept of the present utility model for those of ordinary skill in the art.

FIG. 1 is a schematic diagram of an embodiment of a control circuit of a mobile cash access device provided by the present utility model;

FIG. 2 is a schematic workflow diagram of an embodiment of a mobile cash access device provided by the present utility model;

FIG. 3 is a perspective view of a first embodiment of a mobile cash access device provided by the present utility model;

FIG. 4 is a schematic diagram showing a front view of an embodiment of a mobile cash access device provided by the present utility model;

FIG. 5 is a schematic side view of an embodiment of a mobile cash access device provided by the present utility model;

FIG. 6 is a second perspective view of an embodiment of a mobile cash access device provided by the present utility model;

FIG. 7 is a third perspective view of an embodiment of a mobile cash access device provided by the present utility model;

FIG. 8 is a schematic bottom view of an embodiment of a mobile cash access device provided by the present utility model.

Wherein, each reference numeral in the figure mainly marks:

1. a master control device; 2. HUB transponders; 3. a mobile power supply device; 4. a power switching unit; 5. a master DCDC converter; 6. peripheral DCDC converters; 61. a first peripheral unit; 62. a second external unit; 63. a relay; 631. an electronic lock; 7. a cabinet; 71. a cabinet body; 72. a cabinet door; 721. a mounting frame; 722. a movable lock catch; 73. a bottom plate; 74. a top plate; 75. a back plate; 76. a side plate; 761. fixing the lock catch; 762. a heat radiation hole; 8. a movable base; 81. a support chassis; 811. a horizontal support plate; 812. angle steel support bars; 813. a mounting hole; 82. u-shaped side frames; 9. a buffer device; 91. a bottom buffer mechanism; 911. a bottom mounting bar; 912. a bottom buffer spring; 92. an outer buffer mechanism; 921. an outer mounting bar; 922. an outer buffer spring; 10. and a server host.

Detailed Description

In order to make the technical problems, technical schemes and beneficial effects to be solved more clear, the utility model is further described in detail below with reference to fig. 1-8 and embodiments.

Referring to fig. 1, the control circuit of the mobile cash access device provided by the present utility model includes:

a main control device 1, a HUB transponder 2, a plurality of peripheral units, a mobile power supply device 3, a power switch unit 4, a main control DCDC converter 5 and a peripheral DCDC converter 6; the main control device 1 is connected with the HUB transponder 2, and a plurality of peripheral units are respectively connected with corresponding USB interfaces of the HUB transponder 2; the mobile power supply device 3 is connected with the power switch unit 4, the power switch unit 4 is correspondingly connected with the main control DCDC converter 5 and the peripheral DCDC converter 6 respectively (namely, the main control DCDC converter 5 and the peripheral DCDC converter 6 are arranged in parallel), the main control DCDC converter 5 is connected with the HUB transponder 2, and the peripheral DCDC converter 6 is correspondingly connected with each peripheral unit respectively (namely, the peripheral units are arranged in parallel).

In this embodiment, the master control device 1 is a mobile phone. In other embodiments, the master device 1 may be a tablet computer, an industrial control host, or a custom motherboard.

In a preferred embodiment, the master device 1 is a mobile phone, and the master device 1 is connected to the OTG interface of the HUB transponder 2 through an OTG patch cord.

In this embodiment, the mobile power supply device 3 may be a mobile power supply or a vehicle-mounted power supply that does not rely on standard external mains supply, and the mobile power supply device 3 preferably provides 9-12V of power supply, and controls the mobile cash access device to be turned on to operate or turn off through the power switch unit 4, and the power supply of the mobile power supply device 3 is split into two current paths with different voltages according to the power supply requirements of the peripheral unit module and the main control device 1 through the main control DCDC converter 5 and the peripheral DCDC converter 6, so that the main control device 1 connected to the main control DCDC converter 5 through the HUB transponder 2 and each peripheral unit connected to the peripheral DCDC converter 6 can be used independently.

The main control device 1 is preferably a mobile intelligent communication device (such as a mobile phone or a tablet computer) adopting an android system, and the main control device 1 is connected with an OTG interface of the HUB transponder 2 through a USB interface thereof and an OTG patch cord, so as to control each peripheral unit (such as a keyboard, a card reader, a printer, a cash in/out/depositing and withdrawing module, a relay 63 and other peripheral units) connected with a corresponding USB interface of the HUB transponder 2, and simultaneously performs data communication or short message communication with a server host 10 of a cloud through a mobile phone self-contained network; the master DCDC converter 5 is preferably a current flow path used by the master device 1 for converting the power supply of the portable power source device 3 to 5V/2A.

Referring to fig. 1 and fig. 3-8 together, the present utility model further provides a mobile cash access device, which includes a cabinet 7 and a mobile base 8, wherein a control circuit of the mobile cash access device is integrated in the cabinet 7, the main control device 1 is detachably mounted on the cabinet 7, and a plurality of peripheral units include: the first peripheral unit 61 and the second peripheral unit 62 are arranged on the cabinet 7, and the first peripheral unit 61 and the second peripheral unit 62 are correspondingly connected with the first USB interface and the second USB interface of the HUB transponder 2 respectively; the peripheral DCDC converter 6 is preferably a peripheral unit current path for converting the power supply of the portable power source device 3 into 24V/8A for the first peripheral unit 61 and the second peripheral unit.

Referring to fig. 1 and 3-5, in this embodiment, the cabinet 7 includes a cabinet body 71 with an opening at one side, and a cabinet door 72 hinged to the opening side of the cabinet body 71; the plurality of peripheral units further includes: a relay 63, the relay 63 being connected to a third USB interface of the HUB transponder 2; the control circuit further includes: an electronic lock 631, the electronic lock 631 being connected to the relay 63, the electronic lock 631 being for locking or unlocking the cabinet door 72. When the electronic lock 631 unlocks the cabinet door 72, the cabinet door 72 can be turned over about its vertical hinge axis with respect to the cabinet body 71, so that the cabinet door 72 is opened, so that a bank worker can go in and out of the cabinet body 71 to perform cash counting, sorting, placing, taking, maintenance, upgrading, replacement, repair, etc. of each peripheral unit of the mobile cash access device.

Referring to fig. 1, 3 and 4 together, as a preferred embodiment, the first peripheral unit 61 and the second peripheral unit 62 are a deposit unit and a banknote dispensing unit respectively disposed on the cabinet door 72, the main control device 1 is a mobile intelligent communication device (such as a mobile phone and a tablet computer) detachably mounted in a mounting frame 721 disposed outside the cabinet door 72, and an OTG connection port corresponding to a USB interface position of the main control device 1 is reserved in the mounting frame 721, and the main control device 1 is connected to an OTG interface of the HUB transponder 2 disposed in the cabinet 7 through an OTG patch cord.

In other embodiments, the plurality of peripheral units further comprises a third peripheral unit (not shown in the figure) connected to a third USB interface of the HUB transponder 2; the plurality of peripheral units may further include a fourth peripheral unit and further peripheral units, and the third peripheral unit, the fourth peripheral unit and further peripheral units may be in the form of a keyboard, a display screen, a card reader, a printer, an integrated banknote deposit and withdrawal module, and the like.

Referring to fig. 1 and 3-8, in this embodiment, the mobile cash access device further comprises a buffer device 9 connected between the cabinet 71 and the mobile base 8. As a preferred embodiment, the cabinet 71 is a cuboid, and includes a closed bottom plate 73, a top plate 74, a back plate 75 and a pair of side plates 76 that are disposed around the bottom plate 73 and the top plate 74, one end of the pair of side plates 76 facing away from the back plate 75, and the bottom plate 73, the top plate 74 enclose the open side, the cabinet door 72 is used as a panel on the open side, the cabinet door 71 can be movably opened and closed, one end of the cabinet door 72 is used as a hinged end and hinged at a position corresponding to an end of one of the side plates 76 on the open side, the other end of the cabinet door 72 opposite to the hinged end is used as a movable end, and the movable end can perform circular arc track movement between the position corresponding to the end of the other side plate 76 on the open side and a limit position corresponding to the movable end when the hinged end interferes with the side plate 76.

Referring to fig. 1, a schematic diagram of an integrated structure of a control circuit, a cabinet 7, a buffer device 9 and a mobile base 8 of a mobile cash access device according to the present utility model is shown.

Referring to fig. 1, the mobile cash access device provided by the present utility model works as follows:

the mobile cash access device provided by the utility model uses mobile intelligent communication equipment such as a mobile phone, a tablet computer and the like which are commonly used in daily life as a main control device 1, the main control device 1 is fixedly arranged in a corresponding installation frame 721 of a cabinet 7, an OTG patch cord is externally connected with a USB interface of the mobile phone or the tablet computer, and the OTG patch cord is connected to an OTG wiring port reserved on the cabinet 7, so that the mobile phone is connected to an OTG interface of a HUB transponder 2 which is used as the function extension of the mobile phone, and then a plurality of peripheral units (such as a keyboard, a card reader, a printer, a cash in/out/depositing/withdrawing module, a relay 63 and other peripheral units) are connected through each USB interface of the HUB transponder 2; after the mobile cash access equipment is electrified, the mobile phone terminal application performs self-checking on each peripheral unit and then enters into work waiting; when a user uses the mobile cash access equipment, the mobile phone carries out data communication or short message communication with the server host 10 of the cloud through the network of the mobile phone, and executes corresponding control instructions of the server host 10 through the mobile phone to carry out corresponding operation control on each peripheral unit through USB communication.

Referring to fig. 2, the workflow of the mobile cash access device provided by the present utility model is as follows:

1. a mobile intelligent communication device such as a mobile phone and a tablet personal computer is fixedly arranged in a corresponding installation frame 721 of the main control device 1, and a USB interface external OTG patch cord of the mobile phone is connected to an OTG wiring port reserved on the cabinet 7;

2. starting a power switch on the cabinet 7 to enable the mobile cash access equipment to be powered on, and enabling the mobile phone end application to automatically perform self-inspection on each peripheral unit and then enter work waiting;

3. when a control operation is required to be executed on an external unit, data communication (data packet processing) or short message communication (short message packet processing, switching use when a data communication signal is weak) is carried out between a self-contained network applied by the mobile phone end and a server host 10 of a cloud end, after a control operation instruction of the server host 10 is received, the mobile phone end applies a corresponding external unit to execute corresponding control operation, such as opening a storage port of a deposit unit/deposit and withdrawal integrated unit, counting cash, opening a cash taking port of a cash dispensing unit/deposit and withdrawal integrated unit, printing a receipt by a printer unit, and controlling an electronic lock 631 to open or close a cabinet door 72 by a relay 63;

4. when the control operation is successfully completed or an error occurs, the mobile phone side returns operation success information/completion state or operation error (failure)/equipment failure information to the host side.

The mobile cash access equipment provided by the utility model can use general mobile intelligent communication equipment such as a mobile phone, a tablet personal computer and the like as the main control device 1, so that a maintainer of the mobile cash access equipment can conveniently purchase and replace the main control device 1, and the main control device 1 is simpler in application and development and strong in compatibility. Meanwhile, the mobile cash access equipment utilizes the self-contained network of the general mobile intelligent communication equipment such as a mobile phone, a tablet personal computer and the like as a communication module to carry out network communication with the server host 10 of the cloud, so that the system of the cash self-service equipment is simplified and the equipment cost is reduced. In addition, the mobile phone terminal can support data communication and also can use short message communication, and can switch to short message communication processing when the data communication signal is weak, so that the problem of communication blockage when the data communication signal is weak is avoided.

Referring to fig. 3-6 together, as a preferred embodiment, the movable end of the cabinet door 72 is provided with a movable lock catch 722, the outside position of the opening side corresponding to the end of the other side plate 76 is provided with a fixed lock catch 761 matching the movable lock catch 722, when the movable end moves to abut against the end of the opening side corresponding to the other side plate 76, the cabinet door 72 closes the opening side and the cabinet body 71 is closed, and at this time, a conventional padlock can be installed in the corresponding through holes of the fixed lock catch 761 and the movable lock catch 722, so that a pair of manual locks of the cabinet door 72 is added on the basis of the electronic lock 631 controlled by the relay 63. When the hinged end of the cabinet door 72 is the left side end of the cabinet door 72 (here, the left side is the left side when the user faces the open side outside the cabinet 71), and the movable end of the cabinet door 72 is the right side end of the cabinet door 72, the fixed latch 761 is disposed on one side plate 76 corresponding to the right side end of the cabinet door 72 and located on the left side of the cabinet 71 (here, the left side is the left side when the user faces the open side inside the cabinet 71), and the other fixed latch 761 disposed on the other side plate 76 on the right side of the cabinet 71 in fig. 1 and 2 and the movable latch 722 disposed on the left side end of the cabinet door 72 as the hinged end need to be removed to give way for rotation of the hinged end, so as to avoid interference with the cabinet 71; similarly, when the hinged end of the cabinet door 72 is the right side end of the cabinet door 72 (herein, the right side is the right side when the user faces the open side outside the cabinet 71), and the movable end of the cabinet door 72 is the left side end of the cabinet door 72, the fixed latch 761 is disposed on one side plate 76 located on the right side of the cabinet 71 corresponding to the left side end of the cabinet door 72 (herein, the right side is the right side when the user faces the open side inside the cabinet 71), and the fixed latch 761 disposed on the other side plate 76 on the left side of the cabinet 71 in fig. 1 and 2 and the movable latch 722 disposed on the right side of the cabinet door 72 as the hinged end need to be removed to give way for rotation of the hinged end.

Referring to fig. 3 and 5-7, in this embodiment, a plurality of heat dissipation holes 762 for dissipating heat from the electric device inside the cabinet 7 to the external environment may be provided on the side plate 76, and at least one openable and closable or detachable skylight cover plate may be provided on the top plate 74, so as to facilitate maintenance, upgrade, replacement, repair and other operations of the equipment above the interior of the cabinet 7 from the top end of the cabinet 7 by a bank staff.

Referring to fig. 3-8, in the present embodiment, the mobile base 8 includes a support chassis 81, and a U-shaped side frame 82 disposed at the top end of the support chassis 81; the cushioning device 9 includes a bottom cushioning mechanism 91 connected between the support chassis 81 and the bottom surface of the cabinet 71, and an outside cushioning mechanism 92 connected between the U-shaped side frame 82 and the side surface of the cabinet 71. As a preferred embodiment, the support chassis 81 includes a horizontal support plate 811 and a pair of angle steel support bars 812 respectively corresponding to opposite ends of the horizontal support plate 811, wherein the vertical plate surfaces of the angle steel support bars 812 are fixedly connected (may be integrally connected or welded or screwed) to the ends of the horizontal support plate 811, the horizontal plate surfaces of the angle steel support bars 812 are provided with a plurality of mounting holes 813, and the angle steel support bars 812 can be detachably and fixedly mounted on an automobile, other vehicles or the ground through the mounting holes 813 and corresponding fixing holes (such as a transfer platform of the automobile or a fixing hole of the ground, not shown in the drawing) by screws or bolts, so as to fix the movable base 8 and the cabinet 71 mounted on the movable base 8 through the buffer device 9. The horizontal plate surface of the angle steel support bar 812 can also be directly placed on a transfer platform or the ground of an automobile.

Referring to fig. 3-8, in this embodiment, a regular square or octagonal opening is formed in the middle of the horizontal support plate 811, the bottom buffer mechanism 91 is disposed at the top end of the horizontal support plate 811, and includes a plurality of bottom buffer components (preferably four bottom buffer components are disposed at four corners between the horizontal support plate 811 and the bottom plate 73) disposed at uniform intervals on the periphery of the opening, and the bottom buffer components include a pair of bottom mounting bars 911 respectively and fixedly connected to the bottom end of the bottom plate 73 of the cabinet 71 and the top end of the horizontal support plate 811, and the bottom mounting bars 911 are disposed in parallel and extend along the side directions of the corresponding openings; at least one bottom buffer spring 912 (preferably, two bottom buffer springs 912 are adjacently disposed) which is spirally extended up and down simultaneously along the extending direction of the bottom mounting bars 911 and is penetrated between the pair of bottom mounting bars 911.

Referring to fig. 3-8, in this embodiment, the U-shaped side frame 82 is fixedly connected (may be integrally connected or welded or screwed) to the horizontal support plate 811 corresponding to the peripheral sides of the pair of side plates 76 and the back plate 75 of the cabinet 71, the outer side buffer mechanism 92 includes a plurality of outer side buffer assemblies (preferably three outer side buffer assemblies are disposed, and the three outer side buffer assemblies are respectively disposed between the U-shaped side frame 82 and the pair of side plates 76 and the back plate 75 of the cabinet 71), the outer side buffer assemblies include a pair of outer side mounting strips 921 similar to the bottom buffer assembly and at least one outer side buffer spring 922 (preferably two outer side buffer springs 922 are disposed adjacently), the pair of outer side mounting strips 921 are respectively and fixedly connected to the inner side surface of the U-shaped side frame 82 facing the cabinet 71 and the pair of side plates 76 or the back plate 75 of the cabinet 71, and the pair of outer side mounting strips 921 are disposed parallel to the horizontal support plate 811, and the outer side buffer springs 922 are respectively disposed between the pair of outer side mounting strips 921 in a vertical spiral manner along the extending direction of the outer side mounting strips 921, so that the bottom surface 7 of the mobile equipment and the side surface 8 of the mobile equipment and the base 7 are prevented from being damaged by cash-absorbing and the vibration.

The utility model also provides an automobile (not shown in the figure), which comprises the mobile cash access equipment, wherein the mobile base 8 is detachably arranged on the automobile, the mobile cash access equipment does not depend on standard external mains supply, can temporarily provide relevant services along with the arrival of the automobile at any position where the automobile can arrive only by virtue of the mobile power supply device 3, and can charge the mobile power supply device through the vehicle-mounted power supply device. In one embodiment, the portable power source device 3 is an in-vehicle power source device of an automobile provided inside the cabinet 7 of the portable cash access device, and when the portable cash access device is mounted on the automobile, the portable power source device 3 can be used as a power source device of other electric devices of the automobile at the same time. In another embodiment, the mobile power supply device 3 may also be a vehicle-mounted power supply device that is located outside the cabinet 7 of the mobile cash access device and is fixedly arranged on the automobile, the mobile cash access device moves along with the automobile, and the mobile cash access device does not need to be detached from the automobile when in use, but is directly arranged on the automobile to provide cash access or bank third party payment self-service.

In other embodiments, the mobile cash access device of the present utility model may be provided with a mobile base 8 that is removably attachable to other vehicles such as ships, aircraft (e.g., fixed wing aircraft, helicopter), etc.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the utility model.

Claims (10)

1. A control circuit for a mobile cash access device, the control circuit comprising:

the device comprises a main control device, a HUB transponder, a plurality of peripheral units, a mobile power supply device, a power switch unit, a main control DCDC converter and a peripheral DCDC converter;

the main control device is connected with the HUB transponder, and the plurality of peripheral units are respectively connected with corresponding USB interfaces of the HUB transponder;

the mobile power supply device is connected with the power switch unit, the power switch unit is correspondingly connected with the main control DCDC converter and the peripheral DCDC converter respectively, the main control DCDC converter is connected with the HUB transponder, and the peripheral DCDC converter is correspondingly connected with each peripheral unit respectively.

2. The control circuit of a mobile cash access device of claim 1, wherein the master device is a cell phone.

3. The control circuit of a mobile cash access device of claim 2, wherein the master device is connected to an OTG interface of the HUB transponder via an OTG patch cord.

4. A mobile cash access device comprising a cabinet and a mobile base, wherein the cabinet has integrated therein a control circuit for the mobile cash access device of any one of claims 1-3, the master control apparatus being removably mounted to the cabinet, a plurality of the peripheral units comprising:

the first peripheral unit and the second peripheral unit are arranged on the cabinet and are correspondingly connected with the first USB interface and the second USB interface of the HUB transponder respectively.

5. The mobile cash access device of claim 4 wherein said cabinet comprises:

a cabinet body with an opening at one side, and a cabinet door hinged to the opening side of the cabinet body;

the plurality of peripheral units further includes:

the relay is connected with a third USB interface of the HUB transponder;

the control circuit further includes:

and the electronic lock is connected with the relay and is used for locking or unlocking the cabinet door.

6. The mobile cash access device of claim 5 wherein said first peripheral unit and said second peripheral unit are a deposit unit and a cash dispensing unit, respectively, disposed on said cabinet door, said master device being removably mounted on an outside of said cabinet door.

7. The mobile cash access device of claim 5, wherein said mobile cash access device further comprises:

and the buffer device is connected between the cabinet body and the movable base.

8. The mobile cash access device of claim 7 wherein said chest is rectangular in shape, said mobile base comprising:

the support chassis is provided with a U-shaped side frame at the top end of the support chassis;

the buffer device includes:

the bottom buffer mechanism is connected between the support underframe and the bottom surface of the cabinet body, and the outer buffer mechanism is connected between the U-shaped side frame and the side surface of the cabinet body.

9. An automobile comprising a mobile cash access device as claimed in any one of claims 4 to 8, said mobile base being removably mounted to said automobile.

10. The automobile of claim 9, wherein the mobile power supply device is an in-vehicle power supply device of the automobile.