CN108859445B

CN108859445B - Data outsourcing and processing system

Info

Publication number: CN108859445B
Application number: CN201810438050.6A
Authority: CN
Inventors: 姜忠伟; 邱敬辉; 贺智斌
Original assignee: GUANGZHOU TUNGKONG SECURITY PRINTING CO Ltd
Current assignee: GUANGZHOU TUNGKONG SECURITY PRINTING CO Ltd
Priority date: 2018-05-09
Filing date: 2018-05-09
Publication date: 2020-01-10
Anticipated expiration: 2038-05-09
Also published as: CN108859445A

Abstract

A data outsourcing and processing system comprises a software design module; a bill policy printing device; a policy binding device; a bill packaging device; a control device; a conveyor belt; the data outsourcing and processing system can avoid the condition of too much printing or too little printing when a policy or a bill is printed, saves resources and does not excessively occupy resources such as a printing device.

Description

Data outsourcing and processing system

Technical Field

The invention relates to the technical field of data outsourcing and processing, in particular to a data outsourcing and processing system.

Background

The data outsourcing is completed by outsourcing an enterprise after stripping basic, common and non-core IT services and an IT-based service flow originally provided by the enterprise in a value chain, and reducing the cost and enhancing the core competitiveness by recombining the value chain and optimizing resource allocation.

Data is a form of expression for facts, concepts, or instructions that may be processed by human or automated means. After the data is interpreted and given a certain meaning, it becomes information. The data processing is the collection, storage, retrieval, processing, transformation and transmission of data. The basic purpose of data processing is to extract and derive valuable, meaningful data for certain people from large, possibly chaotic, unintelligible amounts of data. Data processing is the basic link of system engineering and automatic control. Data processing is throughout various fields of social production and social life. The development of data processing technology and the breadth and depth of its application have greatly influenced the progress of human society development.

In the existing data outsourcing and processing process, the effective screening of the number of the insurance policy or the bill can not be realized, the insurance policy or the bill can be printed too much or too little each time, when the insurance policy or the bill is printed too much, the waste of paper can be directly caused, when the insurance policy or the bill is printed too little, the printing device needs to be restarted, and the resources such as the printing device are excessively occupied.

Disclosure of Invention

The technical problem to be solved by the invention is to provide a data outsourcing and processing system, which can avoid the situation of too much printing or too little printing when a policy or a bill is printed, save resources and avoid excessively occupying resources such as a printing device and the like.

In order to solve the technical problems, the technical scheme adopted by the invention is as follows: a data outsourcing and processing system comprises a software design module, a data processing module and a data processing module, wherein the software design module is used for sorting and typesetting the contents of a bill and a policy;

the bill and policy printing device comprises a cabinet body A, a bottom plate A, a sensing mechanism, a policy printer and a bill printer, wherein the bottom plate A is installed in the middle of the cabinet body A, the sensing mechanism is installed on the bottom plate A, and the policy printer and the bill printer are respectively installed right below the bottom plate A;

the policy-keeping binding device comprises a cabinet body B, a transmission mechanism and a binding assembly, wherein the transmission mechanism is installed at the top of the cabinet body B, the binding assembly is installed on the transmission mechanism, and the binding assembly is installed in the cabinet body B;

the bill packaging device comprises a cabinet body C, a horizontal sliding assembly, a lifting assembly, a folding assembly and an induction assembly, wherein the horizontal sliding assembly is mounted on the cabinet body C, one end of the lifting assembly is connected onto the horizontal sliding assembly, the other end of the lifting assembly is connected onto the folding assembly, and the induction assembly is mounted on the folding assembly and the cabinet body C;

the control device is connected with the software design module, the bill and policy printing device, the policy binding device and the bill packaging device and comprises a control processor, a memory, a data comparator, a signal converter and a receiver, wherein the memory is connected with the control processor through a lead;

the conveyer belt is used for conveying the printed insurance policy and the bill to the insurance policy binding device and the bill packaging device;

the sensing mechanism comprises

The fixing assemblies are arranged on two sides of the cabinet body A, each fixing assembly comprises a waist-shaped hole, a positioning column, a connecting block A and a fixing column, the waist-shaped holes are arranged on the cabinet body A, the waist-shaped holes are connected with one end of the positioning columns in a sliding mode, the other ends of the positioning columns are connected to the connecting block A, and the connecting block A is connected to the fixing columns;

the transmission induction part A connected to one of the fixed assemblies comprises a motor A, a gear A, a rack A, two connecting rods, a terminal A, a rack B and a terminal B, wherein a motor shaft of the motor A is connected to the gear A, one side of the gear A is connected with the rack A in a meshed mode, one connecting rod is connected to the rack A, the terminal A is installed on one connecting rod, the other side of the gear A is connected with the rack B in a meshed mode, the other connecting rod is connected to the rack B, and the terminal B is installed on the other connecting rod;

the connecting part is arranged in the cabinet body A and comprises a contact A, a contact B, a connecting plate, a connecting column A, a buffering component, a connecting column B, a sliding groove, a sliding block A, a connecting block B, a spring A, a connecting column C, a motor B, a sliding block B, a connecting frame and a motor C, the contact A is arranged on one side of the connecting plate, the contact B is arranged on the other side of the connecting plate, the connecting column A is further connected onto the connecting plate, the connecting column A is connected to the connecting column B through the buffering component, the connecting column B is arranged at the top in the cabinet body, the sliding groove is arranged on the cabinet body A, the sliding block A is arranged in the sliding groove, one end of the connecting block B is connected onto the sliding block A, the other end of the connecting block B is connected to one end of, the motor shaft of the motor B is connected to the sliding block B, the sliding block B is connected in the connecting frame in a sliding mode, the connecting block is installed on the motor shaft of the motor C, and the motor is fixedly connected to the bottom of the connecting plate;

and connect transmission response portion B on another fixed subassembly, including motor F, gear B, rack C, two connecting rods A, terminal C, rack D and terminal D, motor F's motor shaft is connected in gear B, and one side meshing of gear B is connected with rack C, is connected with one of them connecting rod A on the rack C, installs terminal C on one of them connecting rod A, gear B's opposite side meshing is connected with rack D, is connected with another connecting rod A on the rack D, installs terminal D on another connecting rod A.

Preferably, the software design module comprises a software design unit, a software test unit, a software modification unit and a software operation unit, wherein the software design unit is connected to the software test unit, the software test unit is connected to the software modification unit, the software modification unit is connected to the software operation unit, and the software operation unit is connected to the control processor.

Preferably, the buffer assembly comprises two top plates, two springs B, two connecting covers, a through hole, two compression cavities, a three-way electromagnetic valve A, a blower A, a three-way electromagnetic valve B and a blower B, wherein one end of one of the springs B is connected in one of the top plates, the other end of one of the springs B is connected to one of the connecting covers to form the compression cavity, one of the connecting covers is provided with two through holes, one of the through holes is connected to a first end of the three-way electromagnetic valve A, a second end of the three-way electromagnetic valve A is connected to the blower A, the other through hole is connected to a first end of the three-way electromagnetic valve B, a second end of the three-way electromagnetic valve B is connected to the blower B, one end of the other spring B is connected in the other top plate, and the other end of, and the other connecting cover is provided with two through holes, one through hole is connected with the third end of the three-way electromagnetic valve A, and the other through hole is connected with the third end of the three-way electromagnetic valve B.

Preferably, drive mechanism includes motor D, fluted disc, gear C, drive belt and driving roller, motor D's motor shaft is connected in the fluted disc, and the fluted disc meshing is connected in gear C, is connected with the one end of drive belt on the gear C, and the other end of drive belt is connected in the driving roller, is connected with the subassembly of binding on the driving roller.

Preferably, the binding assembly comprises a transmission gear A, a transmission gear B, a support rod, a perforation needle and a bottom plate B, the transmission gear A is installed on the transmission roller, the support rod is installed on the transmission roller, the perforation needle is installed on the support rod, the transmission gear A is meshed and connected to the transmission gear B, and the transmission gear B is installed on the bottom plate B.

Preferably, the horizontal sliding assembly comprises a motor E, a gear D, two gears E, two lead screws, two sliders and four guide rods, wherein a motor shaft of the motor E is connected to the gear D, one side of the gear D is connected with one of the gears E in a meshed manner, one of the gears E is connected with one of the lead screws, one of the lead screws is connected with one of the sliders in a sliding manner, one of the sliders is connected with two of the guide rods in a sliding manner, the other side of the gear D is connected with the other gear E in a meshed manner, the other gear E is connected with the other lead screw, the other lead screw is connected with the other slider in a sliding manner, and the other slider is connected with the other two guide rods in a.

Preferably, the lifting assembly comprises an air cylinder and a piston rod, one end of the air cylinder is fixedly connected to the bottom of the sliding block, and the other end of the air cylinder is connected with the piston rod.

As preferred, folding subassembly includes folding piece a, pivot a, folding piece B, pivot B and folding piece C, folding piece a connects in pivot a, and pivot a rotates to be connected in folding piece B's one end, and folding piece B's the other end is connected in pivot B, rotates on the pivot B to be connected with folding piece C.

Preferably, the sensing assembly comprises an infrared transmitter and an infrared receiver, the infrared transmitter is mounted on the folding block A, and the infrared receiver is mounted on one side of the cabinet body C.

The invention provides a data outsourcing and processing system which can avoid the condition of excessive printing or insufficient printing when a policy or a bill is printed, save resources and avoid excessively occupying resources such as a printing device and the like.

Drawings

FIG. 1 is a schematic diagram of a data wrapper and processing system according to the present invention;

FIG. 2 is a schematic diagram of a bill and policy printing apparatus of the data outsourcing and processing system according to the present invention;

FIG. 3 is a partial enlarged view A of FIG. 2;

FIG. 4 is a schematic diagram of a buffering component of the data outsourcing and processing system according to the present invention;

FIG. 5 is a schematic diagram of the policy binding apparatus of the data outsourcing and processing system according to the present invention;

FIG. 6 is a top view of the bill packaging apparatus of the data wrapping and processing system of the present invention;

FIG. 7 is a schematic structural diagram of a bill packaging device of the data outsourcing and processing system according to the present invention, in which a folding block A, a folding block B and a folding block C are parallel to each other;

fig. 8 is a schematic structural diagram of the bill packaging device of the data outsourcing and processing system according to the present invention, in which the folding block a and the folding block C are parallel.

Detailed Description

As shown in fig. 1-8, a data outsourcing and processing system includes a software design module for arranging and composing the contents of a bill and a policy;

the bill and policy printing device comprises a cabinet body A7, a bottom plate A42, a sensing mechanism, a policy printer 43 and a bill printer 44, wherein the bottom plate A42 is installed in the middle of the cabinet body A7, the sensing mechanism is installed on the bottom plate A42, and the policy printer 43 and the bill printer 44 are respectively installed right below the bottom plate A42;

the policy-keeping binding device comprises a cabinet body B8, a transmission mechanism and a binding assembly, wherein the transmission mechanism is installed at the top of the cabinet body B8, the binding assembly is installed on the transmission mechanism, and the binding assembly is installed in the cabinet body B8;

the bill packaging device comprises a cabinet body C9, a horizontal sliding assembly, a lifting assembly, a folding assembly and an induction assembly, wherein the cabinet body C9 is provided with the horizontal sliding assembly, the horizontal sliding assembly is connected with one end of the lifting assembly, the other end of the lifting assembly is connected with the folding assembly, and the folding assembly and the cabinet body C9 are provided with the induction assembly;

the control device is connected with the software design module, the bill and policy printing device, the policy binding device and the bill packaging device and comprises a control processor 5, a memory 6, a data comparator 79, a signal converter 80 and a receiver 81, wherein the memory 6 is connected with the control processor 5 through a lead, the control processor 5 is connected with the data comparator 79 through a lead, the data comparator 79 is connected with the signal converter 80 through a lead, and the signal converter 80 is connected with the receiver 81 through a lead;

and the conveying belt is used for conveying the printed insurance policy and the bill to the insurance policy binding device and the bill packaging device.

The software design module comprises a software design unit 1, a software test unit 2, a software modification unit 3 and a software operation unit 4, wherein the software design unit 1 is connected with the software test unit 2, the software test unit 2 is connected with the software modification unit 3, the software modification unit 3 is connected with the software operation unit 4, and the software operation unit 4 is connected with a control processor 5.

The sensing mechanism comprises

The two fixing assemblies are arranged on two sides of the cabinet body A7 and comprise a waist-shaped hole 11, a positioning column 12, a connecting block A13 and a fixing column 14, the waist-shaped hole 11 is arranged on the cabinet body A7, the waist-shaped hole 11 is connected with one end of the positioning column 12 in a sliding mode, the other end of the positioning column 12 is connected to the connecting block A13, and the connecting block A13 is connected to the fixing column 14;

the transmission sensing part A connected to one of the fixed assemblies comprises a motor A15, a gear A16, a rack A17, two connecting rods 18, a terminal A19, a rack B20 and a terminal B21, wherein a motor shaft of the motor A15 is connected to the gear A16, one side of the gear A16 is connected with a rack A17 in a meshing manner, one connecting rod 18 is connected to the rack A17, the terminal A19 is installed on one connecting rod 18, the other side of the gear A16 is connected with a rack B20 in a meshing manner, the other connecting rod 18 is connected to the rack B20, and the terminal B21 is installed on the other connecting rod 18;

the connecting part arranged in the cabinet A7 comprises a contact A27, a contact B28, a connecting plate 29, a connecting column A30, a buffer assembly, a connecting column B31, a sliding groove 32, a sliding block A33, a connecting block B34, a spring A35, a connecting column C37, a motor B38, a sliding block B39, a connecting frame 40 and a motor C41, wherein the contact A27 is arranged on one side of the connecting plate 29, the other side of the connecting plate 29 is provided with a contact B28, the connecting plate 29 is also connected with the connecting column A30, the connecting column A30 is connected with the connecting column B30 through the buffer assembly, the connecting column B30 is arranged on the top in the cabinet body, the cabinet A30 is provided with the sliding groove 32, the sliding block A30 is arranged in the sliding groove 32, the sliding block A30 is connected with one end of the connecting block B30, the other end of the connecting block B30 is connected with one end of the spring A30, the other end of the spring A36, the motor shaft of the motor B38 is connected to the sliding block B39, the sliding block B39 is connected in the connecting frame 40 in a sliding manner, the connecting block is arranged on the motor shaft of the motor C41, and the motor is fixedly connected to the bottom of the connecting plate 29;

and a transmission sensing part B connected to the other fixed component, which comprises a motor F, a gear B22, a rack C23, two connecting rods A, a terminal C24, a rack D25 and a terminal D26, wherein a motor shaft of the motor F is connected to the gear B22, one side of the gear B22 is connected with the rack C23 in a meshed mode, one connecting rod F is connected to the rack C23, the terminal C24 is installed on one connecting rod F, the other side of the gear B22 is connected with the rack D25 in a meshed mode, the other connecting rod F is connected to the rack D25, and the terminal D26 is installed on the other connecting rod F.

The buffer assembly comprises two top plates 45, two springs B46, two connecting covers 47, through holes 48, two compression chambers 49, a three-way electromagnetic valve A50, a blower A51, a three-way electromagnetic valve B52 and a blower B53, wherein one end of one spring B46 is connected in one of the top plates 45, the other end of one spring B46 is connected with one of the connecting covers 47 to form the compression chamber 49, two through holes 48 are arranged on one of the connecting covers 47, one of the through holes 48 is connected with a first end of the three-way electromagnetic valve A50, a second end of the three-way electromagnetic valve A50 is connected with the blower A51, the other through hole 48 is connected with a first end of the three-way electromagnetic valve B52, a second end of the three-way electromagnetic valve B52 is connected with the blower B53, one end of the other spring B46 is connected in the other top plate 45, the other end of the other spring B46 is connected, the other connecting cover 47 is provided with two through holes 48, wherein one through hole 48 is connected to the third end of the three-way solenoid valve A50, and the other through hole 48 is connected to the third end of the three-way solenoid valve B52.

The transmission mechanism comprises a motor D54, a fluted disc 55, a gear C56, a transmission belt 57 and a transmission roller 58, wherein a motor shaft of the motor D54 is connected to the fluted disc 55, the fluted disc 55 is meshed and connected to the gear C56, one end of the transmission belt 57 is connected to the gear C56, the other end of the transmission belt 57 is connected to the transmission roller 58, and the transmission roller 58 is connected with a binding assembly.

Binding component includes driving gear A59, driving gear B60, branch 61, perforation needle 62 and bottom plate B63, driving gear A59 is installed on driving roller 58, installs branch 61 on the driving roller 58, installs perforation needle 62 on the branch 61, driving gear A59 meshing is connected on driving gear B60, and driving gear B60 installs on bottom plate B63.

The horizontal sliding assembly comprises a motor E64, a gear D65, two gears E66, two screw rods 67, two sliding blocks 68 and four guide rods 69, wherein a motor shaft of the motor E64 is connected to the gear D65, one side of the gear D65 is in meshing connection with one gear E66, one of the screw rods 67 is connected to one of the gear E66, one of the sliding blocks 68 is in sliding connection with one of the screw rods 67, two of the guide rods 69 are in sliding connection with one of the sliding blocks 68, the other side of the gear D65 is in meshing connection with the other gear E66, the other screw rod 67 is connected to the other gear E66, the other sliding block 68 is in sliding connection with the other screw rod 67, and the other sliding block 68 is in sliding connection with the other guide rods 69.

The lifting assembly comprises an air cylinder 70 and a piston rod 71, one end of the air cylinder 70 is fixedly connected to the bottom of the sliding block 68, and the other end of the air cylinder 70 is connected with the piston rod 71.

Folding subassembly includes folding piece A72, pivot A73, folding piece B74, pivot B75 and folding piece C76, folding piece A72 is connected in pivot A73, and pivot A73 rotates the one end of connecting in folding piece B74, and folding piece B74's the other end is connected in pivot B75, rotates on the pivot B75 and is connected with folding piece C76.

The sensing assembly comprises an infrared emitter 77 and an infrared receiver 78, wherein the infrared emitter 77 is installed on the folding block A72, and the infrared receiver 78 is installed on one side of the cabinet body C9.

The control processor 5 is connected with a motor A15, a motor B38, a motor C41, a motor D54, a motor E64, an air cylinder 70, a policy printer 43, a bill printer 44, a blower A51, a blower B53, a three-way electromagnetic valve A50 and a three-way electromagnetic valve B through leads.

The receiver 81 is connected to the infrared transmitter 77, the infrared receiver 78, the contact a27, and the contact B28 by wires.

The specific implementation process is as follows: in the using process, firstly, the policy or bill required by the customer is planned and typeset through the software design unit 1, the software testing unit 2, the software modification unit 3 and the software operation unit 4, and meanwhile, the control processor 5 stores the policy or bill designed from the software design module into the storage 6, and then the staff can input the number of the policy or bill required to be printed into the control processor 5.

When a worker needs to print a policy, the control processor 5 controls the motor C41 to start, the motor shaft of the motor C41 drives the connecting frame 40 connected with the motor C to rotate, the connecting frame 40 drives the motor B38 to rotate, at this time, the connecting plate 29 at the other end of the connecting column C37 mounted on the motor starts to slide on the sliding chute 32 on the cabinet a7 through the sliding block B39 on the connecting block B34 on the spring a35 on the connecting plate 29 by taking the connecting column B31 as an axis so as to start to rotate, the contact a27 and the contact B28 on the connecting part are transferred to the transmission induction part a,

the operator then enters the number of policies to be printed,

when the number of the policy is a base number, the control processor 5 immediately starts the motor a15 in the transmission sensing part a, the rotation of the motor shaft of the motor a15 drives the rotation of the gear a16 connected with the motor a15, at this time, the rack a17 meshed and connected with one side of the gear a16 moves towards the inside of the cabinet a7, on the other hand, the rack B20 meshed and connected with one side of the gear a16 moves towards the outside of the cabinet a7, when the terminal a19 on the rack a17 moves to be right above the contact a27 on the connecting plate 29, the motor a15 immediately stops rotating, simultaneously, the control processor 5 controls the start of the motor B38, the slide block B39 connected with the motor shaft moves in the connecting frame 40 through the rotation of the motor shaft of the motor B38, at this time, the connecting column C37 connected with the motor B38 moves upwards or downwards, so that the connecting plate 29 on the connecting column C37 moves upwards or downwards, and the spring a35 connected with the connecting plate 29 moves, at this time, the contact A27 on the connection board 29 contacts with the terminal A19, a contact signal is sent to the receiver 81, the contact signal is transmitted to the signal converter 80 through the receiver 81, the contact signal is converted into an electric signal through the signal converter 80 and transmitted to the data comparator 79, the contact signal is converted into the electric signal through the signal converter 80 and compared with the upper limit signal stored in the data comparator 79 in advance through the data comparator 79, when the comparison is consistent, the control processor 5 immediately controls the policy printer 43 to print a policy, and when the steps are repeated after the motor B38 starts to reverse, the policies with the base numbers of 1, 3, 5, 7 and the like can be printed.

When the number of the policy is even, the control processor 5 immediately starts the motor shaft of the motor a15 in the transmission induction part a to rotate reversely, the rotation of the motor shaft of the motor a15 drives the rotation of the gear a16 connected with the motor shaft, at this time, the rack a17 meshed with one side of the gear a16 moves to the outside of the cabinet a7, on the other hand, the rack B20 meshed with one side of the gear a16 moves to the inside of the cabinet a7, when the terminal B21 on the rack B20 moves to the position right below the contact B28 on the connecting plate 29, the motor a15 immediately stops rotating, the control processor 5 simultaneously controls the start of the motor B38, the slide block B39 connected with the motor shaft moves in the connecting frame 40 by the rotation of the motor shaft of the motor B38, at this time, the connecting column C37 connected with the motor B38 moves up or down, and further the connecting plate 29 on the C37 moves up or down, at the same time, the spring A35 connected with the connection board 29 makes compression or stretching movement, at this time, the contact A27 on the connection board 29 contacts with the terminal A19, a contact signal is sent to the receiver 81, the contact signal is transmitted to the signal converter 80 through the receiver 81, the contact signal is converted into an electric signal through the signal converter 80 and is transmitted to the data comparator 79, the contact signal is converted into the electric signal through the data comparator 79 and is compared with the upper limit signal stored in the data comparator 79 in advance, when the comparison is consistent, the control processor 5 immediately controls the policy printer 43 to print a policy, and when the motor B38 starts to reverse and then repeats the steps, the policies with even numbers of 2, 4, 6, 8 and the like can be printed.

When the staff needs to print the bill, the control processor 5 controls the motor C41 to start, the motor shaft of the motor C41 drives the connecting frame 40 connected with the motor C to rotate, the connecting frame 40 drives the motor B38 to rotate, at this time, the connecting plate 29 at the other end of the connecting column C37 mounted on the motor starts to slide on the sliding chute 32 on the cabinet a7 through the sliding block a33 on the connecting block B34 on the spring a35 on the connecting plate 29 by taking the connecting column B31 as an axis so as to start to rotate, and the contact a27 and the contact B28 on the connecting part are transferred to the transmission induction part B.

When the number of bills is a base number, the control processor 5 immediately starts the motor a15 in the transmission sensing part B, the motor shaft of the motor a15 drives the gear a16 connected with the motor a15 to rotate, the rack a17 meshed and connected with one side of the gear a16 moves towards the inside of the cabinet a7, the rack B20 meshed and connected with one side of the gear a16 moves towards the outside of the cabinet a7, when the terminal a19 on the rack a17 moves to be right above the contact a27 on the connecting plate 29, the motor a15 stops rotating, the control processor 5 simultaneously controls the start of the motor B38, the slider B39 connected with the motor shaft moves in the connecting frame 40 through the rotation of the motor shaft of the motor B38, at this time, the connecting rod C37 connected with the motor B38 moves upwards or downwards, the connecting plate 29 on the connecting rod C37 moves upwards or downwards, and the spring a35 connected with the connecting plate 29 performs compression or stretching motion, at this time, the contact A27 on the connection board 29 contacts with the terminal A19, a contact signal is sent to the receiver 81, the contact signal is transmitted to the signal converter 80 through the receiver 81, the contact signal is converted into an electric signal through the signal converter 80 and transmitted to the data comparator 79, the contact signal is converted into the electric signal through the signal converter 80 and compared with the upper limit signal stored in the data comparator 79 in advance through the data comparator 79, when the comparison is consistent, the control processor 5 immediately controls the policy printer 43 to print a policy, and when the steps are repeated after the motor B38 starts to reverse, the policies with the base numbers of 1, 3, 5, 7 and the like can be printed.

When the number of bills is even, the control processor 5 immediately starts the motor shaft of the motor a15 in the transmission induction part B to rotate reversely, the rotation of the motor shaft of the motor a15 drives the rotation of the gear a16 connected with the motor shaft, at this time, the rack a17 meshed and connected with one side of the gear a16 moves towards the outside of the cabinet a7, on the other hand, the rack B20 meshed and connected with one side of the gear a16 moves towards the inside of the cabinet a7, when the terminal B21 on the rack B20 moves to the position right below the contact B28 on the connecting plate 29, the motor a15 immediately stops rotating, the control processor 5 simultaneously controls the start of the motor B38, the slider B39 connected with the motor shaft moves in the connecting frame 40 through the rotation of the motor shaft of the motor B38, at this time, the connecting column C37 connected with the motor B38 moves upwards or downwards, and the connecting column further moves the connecting plate 29 on the C37 upwards or downwards, at the same time, the spring A35 connected with the connection board 29 makes compression or stretching movement, at this time, the contact A on the connection board 29 contacts with the terminal A19, a contact signal is sent to the receiver 81, the contact signal is transmitted to the signal converter 80 through the receiver 81, the contact signal is converted into an electric signal through the signal converter 80 and is transmitted to the data comparator 79, the contact signal is converted into the electric signal through the data comparator 79 and is compared with the upper limit signal stored in the data comparator 79 in advance, when the comparison is consistent, the control processor 5 immediately controls the policy printer 43 to print a policy, and when the motor B38 starts to reverse and then repeats the steps, the policies with even numbers of 2, 4, 6, 8 and the like can be printed.

When the connecting plate 29 moves upwards, the volume of a compression cavity 49 formed by the top plate 45 and the connecting cover 47 of the buffer assembly begins to gradually increase, the blower A51 and the blower B53 are started through the control processor 5, the blower A51 and the blower B53 respectively suck air into the compression cavity 49, the compression cavity 49 forms a negative pressure condition, and the connecting cover 47 is prevented from moving out of the top plate 45 through the elastic effect of the spring, so that the structural safety of the connecting part is effectively protected;

when the connecting plate 29 moves downwards, the volume of a compression cavity 49 formed by the top plate 45 and the connecting cover 47 of the buffer assembly begins to gradually decrease, the control processor 5 starts the blower A51 and the blower B53, the blower A51 and the blower B53 respectively blow air into the compression cavity 49, the compression cavity 49 is under high pressure, and the connecting cover 47 and the top plate 45 are prevented from being completely embedded through the elastic effect of the spring, so that the structural safety of the connecting part is effectively protected.

After the printing of the policy is finished, the policy printed by the policy printer is transmitted to the policy binding device under the action of the transmission belt, at this time, the control processor 5 controls the starting of the motor D54, the motor shaft of the motor D54 rotates to drive the fluted disc 55 connected with the motor shaft, meanwhile, the fluted disc 55 rotates to drive the gear C56 connected with the motor shaft in a meshed manner to start rotating, the gear C56 rotates to drive the transmission belt 57 connected with the transmission belt to move, so that the transmission roller 58 connected with the other end of the transmission belt 57 rotates, at this time, the transmission teeth a59 on the transmission roller 58 rotate on the transmission teeth B60 on the bottom plate B63, and the punching needle 62 on the supporting rod 61 nails the policy on the transmission belt.

After the bill is printed, the bill printed by the bill printer 44 is transmitted into the bill packaging device through the action of the transmission belt, at this time, the control processor 5 controls the starting of the motor E64, the motor shaft of the motor E64 rotates to drive the gear D65, the gear D65 rotates to drive the gear E66 meshed with the gear D66 to rotate, the gear E66 rotates to drive the gears F on two sides of the gear E66 to rotate, the gear F rotates to drive the screw rod 67 connected with the gear F to rotate, the screw rod 67 rotates to drive the slide block on the screw rod 67 to slide along the guide rod 69 and simultaneously drive the air cylinder 70 under the slide block to move, at this time, the bill moves the folding mechanism through the action of the transmission belt, at this time, the control processor 5 controls the starting of the air cylinder 70, at this time, the piston rod 71 of the air cylinder 70 moves upwards, at this time, the folding block A72 hinged with the piston rod 71 rotates around the rotating shaft A73, at the same time, the folding block B74 connected to the rotating shaft A73 is rotated around the rotating shaft B75, while the folding block C76 is kept parallel to the cabinet C9, when the folding block A72 is parallel to the folding block C76 and the infrared emitter 77 on the folding block A72 emits infrared rays to the infrared receiver 78, the infrared receiver 78 transmits the infrared signals to the receiver 81, the infrared signals are transmitted to the signal converter 80 through the receiver 81, the infrared signals are converted into electric signals through the signal converter 80 and transmitted to the data comparator 79, the contact signals are converted into electric signals through the data comparator 79 and compared with the upper limit signal stored in the data comparator 79 in advance, when the comparison is consistent, the control processor 5 sends a stop signal to the motor E64, the motor E64 stops rotating immediately, and at the same time, the air cylinder 70 is started again, the air cylinder 70 moves the piston rod 71 in the air cylinder outwards, at this moment, fold the bill of placing on folding assembly, and then accomplish the step of bill encapsulation, bill encapsulation is fast and convenient.

The above-described embodiments are merely preferred embodiments of the present invention, and should not be construed as limiting the present invention, and the scope of the present invention is defined by the claims, and equivalents including technical features described in the claims. I.e., equivalent alterations and modifications within the scope hereof, are also intended to be within the scope of the invention.

Claims

1. A data outsourcing and processing system, comprising: the system comprises a software design module, a data processing module and a data processing module, wherein the software design module is used for sorting and typesetting the contents of bills and policy protection;

the sensing mechanism comprises

the connecting part is arranged in the cabinet body A and comprises a contact A, a contact B, a connecting plate, a connecting column A, a buffering component, a connecting column B, a sliding groove, a sliding block A, a connecting block B, a spring A, a connecting column C, a motor B, a sliding block B, a connecting frame and a motor C, the contact A is arranged on one side of the connecting plate, the contact B is arranged on the other side of the connecting plate, the connecting column A is further connected onto the connecting plate, the connecting column A is connected to the connecting column B through the buffering component, the connecting column B is arranged at the top in the cabinet body A, the sliding groove is arranged on the cabinet body A, the sliding block A is arranged in the sliding groove, one end of the connecting block B is connected onto the sliding block A, the other end of the connecting block B is connected to one end of, the motor shaft of the motor B is connected to the sliding block B, the sliding block B is connected in the connecting frame in a sliding mode, the connecting frame is installed on the motor shaft of the motor C, and the motor C is fixedly connected to the bottom of the connecting plate;

2. The data outsourcing and processing system of claim 1, wherein: the software design module comprises a software design unit, a software test unit, a software modification unit and a software operation unit, wherein the software design unit is connected with the software test unit, the software test unit is connected with the software modification unit, the software modification unit is connected with the software operation unit, and the software operation unit is connected with the control processor.

3. The data outsourcing and processing system of claim 1, wherein: the buffer component comprises two top plates, two springs B, two connecting covers, through holes, two compression cavities, a three-way electromagnetic valve A, a blower A, a three-way electromagnetic valve B and a blower B, wherein one end of one spring B is connected in one of the top plates, the other end of one spring B is connected with one of the connecting covers to form the compression cavity, one of the connecting covers is provided with two through holes, one of the through holes is connected with the first end of the three-way electromagnetic valve A, the second end of the three-way electromagnetic valve A is connected with the blower A, the other through hole is connected with the first end of the three-way electromagnetic valve B, the second end of the three-way electromagnetic valve B is connected with the blower B, one end of the other spring B is connected in the other top plate, the other end of the other spring B is connected with the other connecting cover to form the, one through hole is connected to the third end of the three-way electromagnetic valve A, and the other through hole is connected to the third end of the three-way electromagnetic valve B.

4. The data outsourcing and processing system of claim 1, wherein: drive mechanism includes motor D, fluted disc, gear C, drive belt and driving roller, motor D's motor shaft is connected in the fluted disc, and the fluted disc meshing is connected in gear C, is connected with the one end of drive belt on the gear C, and the other end of drive belt is connected in the driving roller, is connected with on the driving roller and binds the subassembly.

5. Data outsourcing and processing system according to claim 4, wherein: bind the subassembly and include driving gear A, driving gear B, branch, perforation needle and bottom plate B, driving gear A installs on the driving roller, installs branch on the driving roller, installs the perforation needle on the branch, driving gear A meshes and connects on driving gear B, and driving gear B installs on bottom plate B.

6. The data outsourcing and processing system of claim 1, wherein: the horizontal sliding assembly comprises a motor E, a gear D, two gears E, two screw rods, two sliding blocks and four guide rods, wherein a motor shaft of the motor E is connected to the gear D, one side of the gear D is connected with one of the gears E in a meshed mode, one of the screw rods is connected to one of the gears E, one of the sliding blocks is connected to one of the screw rods in a sliding mode, one of the sliding blocks is connected with two of the guide rods in a sliding mode, the other side of the gear D is connected with the other gear E in a meshed mode, the other screw rod is connected to the other gear E, the other screw rod is connected to the other screw rod in a sliding mode, and the other sliding block is connected with the.

7. Data outsourcing and processing system according to claim 6, wherein: the lifting assembly comprises an air cylinder and a piston rod, one end of the air cylinder is fixedly connected to the bottom of the sliding block, and the other end of the air cylinder is connected with the piston rod.

8. The data outsourcing and processing system of claim 1, wherein: folding subassembly includes folding piece A, pivot A, folding piece B, pivot B and folding piece C, folding piece A connects in pivot A, and pivot A rotates to be connected in folding piece B's one end, and folding piece B's the other end is connected in pivot B, rotates on the pivot B to be connected with folding piece C.

9. The data outsourcing and processing system of claim 8, wherein: the sensing assembly comprises an infrared transmitter and an infrared receiver, the infrared transmitter is installed on the folding block A, and the infrared receiver is installed on one side of the cabinet body C.