A kind of transmission material tests and feedway
Technical field
The present invention relates to a kind of detection and feedway, particularly transmit material tests and feedway.
Background technology
At present, common document on the market, document, the printing equipments such as invoice are all only exported by a delivery port after printing, after having printed, export from single delivery port, cannot by the transmission of materials after printing to assigned address, and a lot of chopping machine is all pass through network linking now, remote printing unmanned, although the mode of such printing is convenient, but because the printing of chopping machine is slipped up, often cause the overlap of paper, no marking, and these are overlapping, the material of no marking out extremely will be bothered by hand inspection, if but do not detect, cause immeasurable loss many times can to printing person.
And when printing equipment is applied to self-service product or when material require to be printed is protected (as invoice), need printing equipment to be placed in cabinet.Because printing equipment is on the market of a great variety, the material delivery port after printing is different.When only needing the printing equipment changing different brands or different model, corresponding cabinet just needs to change, and also may affect user operation after changing.Thus the cost greatly improving printing equipment replacing limits the model of replaceable equipment simultaneously.
Summary of the invention
The object of the invention is to overcome the deficiencies in the prior art and provide a kind of safe and reliable, can connect with printing equipment, can detect that one that is overlapping, no marking transmits material tests and feedway.
A kind of transmission material tests and feedway, comprise anchor fitting, guide plate, feedway, detecting device and regenerative apparatus, the outlet of described guide plate is connected with the import of described feedway, and described regenerative apparatus is connected with the outlet of described feedway;
The import of described guide plate is connected with the delivery port of printing equipment, and the transmission material exported from printing equipment delivery port is directed to the import of described feedway by described guide plate;
Described feedway is provided with detecting device, and described transmission material is transferred to the outlet of described feedway from the import of described feedway, and is detected by described detecting device, sends testing result to regenerative apparatus;
Described regenerative apparatus comprises state switching device and reclaims guide piece, recovery guide piece is provided with in described regenerative apparatus, described recovery guide piece comprises nonconformity import and qualified import two imports, the testing result that described state switching device performs described detecting device controls described recovery guide piece and switches between nonconformity import or qualified import, make the outlet of described feedway and described nonconformity import or qualified inlet communication, the transmission material entered from described nonconformity import imports collection box by described recovery guide piece;
Described anchor fitting supports and fixing described guide plate, feedway and regenerative apparatus, and makes described guide plate and described printing equipment export mouth to be connected.
Described recovery guide piece is arranged on the exit end of described feedway by rotating shaft, described state switching device can drive described recovery guide piece to rotate back and forth a fixed angle around described rotating shaft, and described recovery guide piece is switched between nonconformity import and qualified import.
Described recovery guide piece comprises housing, drive roll, driven voller and guiding roller, the upper driven voller be trapezoidal layout is provided with vertically in described housing, lower driven voller and drive roll, described drive roll connects gear by first and drives with the gears meshing on described driven voller driven voller and lower driven voller to rotate respectively, in described housing, guiding roller and lower steering roll are also installed, a passage is provided with from nonconformity import to outlet in described housing, guiding rib is provided with in passage, described upper driven voller and described upper guiding roller, described lower driven voller and described lower steering roll are separately positioned on the both sides of described passage, play conveying effect, the qualified import of described recovery guide piece is arranged on the top of described upper guiding roller, described transmission material transmits above described upper guiding roller, the nonconformity import of described recovery guide piece is arranged between described upper guiding roller and described upper driven voller, described transmission material is transported to described collection box successively between described upper guiding roller and described upper driven voller and between described lower steering roll and described lower driven voller.
The exit end of described feedway is provided with outlet roller, described outlet roller is provided with the second connection gear, described second connection gear is corresponding with the position that position and described first connects gear, when described state switching device drives described recovery guide piece to rotate to nonconformity import, described first connects gear connects gears meshing with described second, and described second connects the first connection gear described in gear driven rotates.
Described detecting device comprises first sensor, the second sensor and the 3rd sensor, described first sensor is arranged on the import of described feedway, described second sensor is arranged on the middle part of described feedway, and described 3rd sensor is arranged on the outlet of described feedway.
Described feedway is provided with the service cover assembly of closing and opening.
Owing to adopting said structure, tool of the present invention has the following advantages:
1, connect with the delivery port of printing equipment by guide plate is convenient, be also easy to adapt to various types of printing equipment delivery port simultaneously.
2, the qualified transmission material of detection can be sent to assigned address by this device, facilitate user to pick up or other operations.
3, the inferior-quality transmission material of detection can be sent to the collection box of specifying by this device, the material ensureing to be supplied to user accurately and the safety of bill.
In sum, this device solves the weak problem of the comformability of printing equipment, provide a kind of safe and reliable, can be connected adaptable with printing equipment, and overlap, the transmission material tests of no marking and feedway can be detected.
Accompanying drawing explanation
Fig. 1 is isometric front view of the present invention;
Fig. 2 is rear perspective view of the present invention;
Fig. 3 (a) is block diagram when the qualified import of regenerative apparatus of the present invention is opened;
Fig. 3 (b) is planar view when the qualified import of regenerative apparatus of the present invention is opened;
Fig. 4 (a) is block diagram when regenerative apparatus nonconformity import of the present invention is opened;
Fig. 4 (b) is planar view when regenerative apparatus nonconformity import of the present invention is opened;
Fig. 5 is the structural representation of transmitting device of the present invention and detecting device;
In accompanying drawing 1 to 5,1, printing equipment, 2, feedway, 3, regenerative apparatus, 4, guide plate, 5, anchor fitting, 21, second connects gear, and 22, conveying driven roll, 23, drive roll is carried, 24, conveying muscle, 31, state switching device, 32, reclaim guide piece, 33, first connects gear, 34, drive roll, and 35, upper driven voller, 36, lower driven voller, 37, upper guiding roller, 38, lower steering roll, 39, transmit material, 61, first sensor, the 62, second sensor, the 63, the 3rd sensor.
Detailed description of the invention
Below in conjunction with accompanying drawing, further describe the detailed description of the invention of this patent.
As shown in Fig. 1 to 5, this device is directly connected with printing equipment 1 delivery port by guide plate 4, guide plate 4 is one of them parts of this device, this guide plate 4 inside arranges passage, passage end aims at printing equipment 1 delivery port (as printer output mouth), and the other end aims at the import of feedway 2, and the transmission material of output is led by guide plate 4, enter feedway 2 smoothly, feedway 2 is provided with conveying muscle 24, conveying driven roll 22 and conveying drive roll 23.The channel shape of guide plate 4 can design according to the actual requirements, realizes multi-angle change.
Described feedway 2 is provided with detecting device, and described transmission material is transferred to from the import of described feedway 2 outlet that described conveying fills 2, and is detected by described detecting device, testing result is sent to regenerative apparatus 3; Described regenerative apparatus 3 comprises recovery guide piece 32 and state switching device 31, described recovery guide piece 32 is arranged on the exit end of described feedway 2 by rotating shaft, described state switching device 21 can drive described recovery guide piece 32 to rotate back and forth a fixed angle around described rotating shaft, described recovery guide piece 32 is switched between nonconformity import and qualified import, state switching device 31 can be electromagnet and also can be the driving of the propulsion source such as motor or cylinder, makes state switching device 31 that recovery guide piece 32 can be driven to rotate around the axis by a transmission device.Reclaim guide piece 32 simultaneously and be provided with inhibiting device, make recovery guide piece 32 be positioned at assigned address.
Described recovery guide piece 32 comprises housing, drive roll, driven voller and guiding roller, the upper driven voller 35 be trapezoidal layout is provided with vertically in described housing, lower driven voller 36 and drive roll 34, described drive roll 34 connects gear 33 by first and drives with the gears meshing on described driven voller driven voller 35 and lower driven voller 36 to rotate respectively, guiding roller 37 and lower steering roll 38 are also installed in described housing, a passage is provided with from nonconformity import to outlet in described housing, guiding rib is provided with in passage, described upper driven voller 35 and described upper guiding roller 37, described lower driven voller 36 and described lower steering roll 38 are separately positioned on the both sides of described passage, play conveying effect, the qualified import of described recovery guide piece 32 is arranged on the top of described upper guiding roller 37, described transmission material transmits above described upper guiding roller 37, the nonconformity import of described recovery guide piece 32 is arranged between described upper guiding roller 37 and described upper driven voller 35, described transmission material is transported to described collection box successively between described upper guiding roller and described upper driven voller and between described lower steering roll and described lower driven voller.
In feedway 2, detecting device is set, described detecting device comprises first sensor 61, second sensor 62 and the 3rd sensor 63, described first sensor 61 is arranged on the import of described feedway 2, described second sensor 62 is arranged on the middle part of described feedway 2, described 3rd sensor 63 is arranged on the outlet of described feedway 2, described first sensor 61 is a kind of opto-electronic pickup, whether feedway is entered for detecting transmission material, when transmission material enters feedway 2, then first sensor 61 outputs signal to peripheral control unit, the conveying drive roll 23 controlled in feedway brings into operation, feedway 2 is started working.Whether described second sensor 62 is arranged on feedway stage casing qualified to judge detecting transmission material.Second sensor 62 can be the sensor of Thickness sensitivity with test material thickness number, also can be vision sensor with test material print content or other sensors.Second sensor 62 also can be the combination of multiple sensors.Second sensor 62 detect qualified after output signal to peripheral control unit, peripheral control unit controls printing equipment 1 and works on, and simultaneously state switching device does not run; After the second sensor 62 detects nonconformity, output signal to peripheral control unit, peripheral control unit controls printing equipment 1 and again prints a content, and state of a control shifter 31 runs simultaneously.Whether the 3rd sensor detection 63 is identical with first sensor 61, taken away by user or be recovered for detecting to transmit after material exports.
Described anchor fitting 5 comprises adapter plate and fixing feet, and fixing feet is arranged on feedway 2 and is fixed on adapter plate.Adapter plate can be arranged on printing equipment 1, also can independently be arranged on other external positions, and its object is ensure that guide plate 4 and feedway 2 aim at the outlet of printing equipment 1, and feedway 2, regenerative apparatus 3 is fixed.
The printing flexible material that described printing flexible material 39 exports for printing equipment, this flexible material 39, can the material of bending for having certain degree of hardness, and print content must adhere to intact.Described printing equipment 1 is exported by outlet after making printing flexible material 39 complete printing, printing flexible material 39 will make printing flexible material 39 be exported by delivery port by outputting power completing in printing process printing equipment 1 always, after being completed for printing, printing flexible material 39 will depart from printing equipment completely.
When when state switching device 31 runs, transmission material enters guide plate, the sensor being arranged on guide plate input end detects transmission material, thus output signal to peripheral control unit, external control accepts signal post command main power plant brings into operation, main power plant connects with driving device, output power to drive roll, state switching device 31 drives recovery guide piece 32 fixing and spacing, this fixed party face makes to reclaim first on guide piece 32 and connects gear 33 and connect gear 21 with second on feedway 2 and engage, and it is spacing, on the other hand, the nonconformity import of reclaiming guide piece 32 is kept to be connected with the outlet of feedway 2, reclaim guide piece 32 by the elastic force apparatus be arranged on in housing, guiding roller and drive roll to be compressed, thus the follower on driven roll moves with drive roll, elastic force apparatus can be torque spring, gas spring, magnetic spring etc., when elastic force apparatus is torque spring, wherein one end and stage casing be arranged on reclaim guide piece 32 housing on, the other end is arranged on driven roll.
As shown in Figure 3, the workflow of this device when transmitting material and being qualified is: be sent from printing equipment 1 by transmission material 39 and directly enter guide plate 4 afterwards, makes to be transmitted material 39 and be admitted to the import of feedway 2 by the guiding of guide plate 4.When first sensor 61 detects by transmission material 39, feedway 2 is started working, and will be sent to the outlet of feedway 2 by transmission material 39.In transport process the second sensor 62 can detect by transmission material 39 whether qualified, when testing result is qualified, entered from the qualified import of the recovery guide piece 32 of regenerative apparatus 3 by transmission material 39, spread out of by upper guiding roller guiding, whether the 3rd sensor 63 can detect and be removed by transmission material 39.
As shown in Figure 4, the workflow of this device when transmitting material nonconformity is: be sent from printing equipment 1 by transmission material 39 and directly enter guide plate 4 afterwards, makes to be transmitted material 39 and be admitted to the import of feedway 2 by the guiding of guide plate 4.When first sensor 61 detects by transmission material 39, feedway 2 is started working, and will be sent to the outlet of feedway 2 by transmission material 39.When the second sensor 62 detect by transmission material 39 need to be recovered time, switching state engine installation 31 works, recovery guide piece 32 is driven to rotate, the nonconformity import of reclaiming guide piece 32 is connected with the outlet of described feedway 2, meanwhile, the the first connection gear reclaimed on the drive roll 34 on guide piece 32 connects gears meshing with second on described feedway 2, the power of feedway 2 drives described drive roll 34 to rotate, thus make to be transmitted material 39 and between described upper guiding roller 37 and described upper driven voller 35 and between described lower steering roll 38 and described lower driven voller 36, be transported to described collection box successively.Reclaim the exit end that guide piece 32 is arranged on described feedway 2, and be axis rotation by the mounting hole on feedway 2, reclaim guide piece 32 and ensure that recovery translatory movement is synchronous, simultaneously also when regenerative apparatus 3 works with feedway 2 gears meshing, supply power to recovery guide piece 32 by feedway 2.In addition, reclaim guide piece 32 and also can directly connect with an independent power source, do not rely on the power individual operation of feedway 2.
The service cover assembly of feedway can independently open in addition, is convenient to safeguard.By latching device, service cover assembly is locked during normal work, ensure that the passage of feedway is smooth and easy.