Summary of the invention
The invention provides a kind of handle box, to solve that existing handle box power is subject to mouthful and the frictionally damage of the driving mechanism of image processing system knuckle can be subject to when starting engagement and engagement disengaging time the and affect the technical matters of both engagements.
In order to solve above technical matters, the technical scheme that the present invention takes is:
A kind of handle box, comprise the handle box housing, be arranged on the photo-sensitive cell of handle box enclosure interior, with photo-sensitive cell, be connected and for photo-sensitive cell provide the power of power to be subject to mouthful and make described power be subject to mouthful can be flexible along the photo-sensitive cell axis direction telescoping mechanism, control the flexible control gear of described telescoping mechanism.
Described control gear comprises the first flexible member and is arranged on the pressing lever that power on described handle box housing is subject to a mouthful side of living in, and described pressing lever is connected with described telescoping mechanism, and described the first spring one end is connected with pressing lever, and the other end is connected with the handle box housing.
Described pressing lever one end is provided with opening, one end of described pressing lever band opening is provided with release face and indentation face, described release face and indentation face have difference in height on the axis direction of photosensitive drums, described power is subject on mouth to be provided with brace table, and described brace table can be supported by described release face or indentation face.
Described control gear comprises solenoid valve, the power supply of electric energy is provided and described power supply is converted to the circuit of the required electric energy of solenoid valve for solenoid valve, described solenoid valve is fixed on described handle box housing, described telescoping mechanism comprises and the coefficient A core of described solenoid valve and axle, described A core and axle form as one, described power is subject to mouth to be arranged on an end of described axle, and an end of described A core is connected also transferring power for it with photo-sensitive cell.
Described solenoid valve is single-coil electromagnetic valve.
Described control gear comprises the bracing wire that an end is connected with described telescoping mechanism, the other end receives pulling force, and described bracing wire is arranged on the handle box housing.
Described control gear comprises Double coil electromagnetic valve, the power supply of electric energy is provided and described power supply is converted to the circuit of the required electric energy of solenoid valve for solenoid valve, be provided with the first coil, the second coil, magnetite on described solenoid valve, described solenoid valve is fixed on described handle box housing, described telescoping mechanism also comprises and the coefficient A core of described solenoid valve and axle, described A core and axle form as one, described power is subject to mouth to be arranged on an end of described axle, and an end of described A core is connected also transferring power for it with photo-sensitive cell.
Described photo-sensitive cell is relative with described handle box housing not to slide, and described telescoping mechanism one end is connected with photo-sensitive cell, and the other end is connected by mouth with described power.
Described photo-sensitive cell is fixedly connected with by mouth with power, described telescoping mechanism one end is connected with the handle box housing, and the other end is connected by mouth with photo-sensitive cell or power.
Described telescoping mechanism comprises the guide groove that is arranged on photo-sensitive cell and is arranged on power and be subject to the guide pillar on mouth, and described guide pillar can slide along described guide groove.
Also be provided with transfer part on described telescoping mechanism, also be provided with force column on described photo-sensitive cell, described power is subject to mouth and the engagement transferring power of photo-sensitive cell by described transfer part and force column.
Described force column is provided with a plurality of, and described transfer part is arranged between the steel disc between described force column.
Described photo-sensitive cell or power are supported on the handle box housing by mouth, and described photo-sensitive cell and power can be slided along described handle box housing by mouth.
Also be provided with pivot pin and support on described handle box housing, pivot pin and stent support on the processed box housing of two ends difference of described photo-sensitive cell, described photo-sensitive cell can relatively described pivot pin and support slip.
Described telescoping mechanism comprises the second flexible member, and described the second flexible member is arranged on described power and is subject between mouth and photo-sensitive cell.
Described telescoping mechanism comprises the second flexible member, and described the second flexible member is arranged on described power and is subject between mouth and handle box housing.
Described the second flexible member is a kind of extension spring.
After having adopted technique scheme, owing to having increased, control the flexible control gear of telescoping mechanism.Therefore, at power, be subject to mouthful and the driving mechanism of image processing system only need to be controlled the flexible of telescoping mechanism and then control stretching that power is subject to mouthful by control gear when starting engagement and engagement and breaking away from, thereby make power be subject to the driving mechanism of mouth and image processing system can remain on straight line and carry out when starting engagement and engagement disengaging, frictionally damage in the time of can not being subject to knuckle and affect both engagement, solved that existing handle box power is subject to mouthful and the frictionally damage of the driving mechanism of image processing system knuckle can be subject to when starting engagement and engagement disengaging time the and affect the technical matters of both engagements.In addition, control gear has also adopted respectively mechanical type to control and electromagnetic type is controlled, and not only can select as required safe and reliable mechanical type to control, and also can select electromagnetic type to control according to the needs of automatic control.Finally, also provide multiple reliable telescoping mechanism simultaneously, the reliability of telescoping mechanism is greatly improved.
The accompanying drawing explanation:
The stereographic map that Fig. 1 is the first embodiment of the invention handle box;
The decomposing schematic representation that Fig. 2 is handle box shown in Fig. 1;
Fig. 3 is the stereographic map that in the present invention's the first example, photo-sensitive cell and handle box power are subject to mouthful syndeton;
Fig. 4 is while in the present invention's the first example, between force column, there is no steel disc, handle box power be subject to mouthful with image processing system driving head engagement process in the stereographic map of the extreme position one that may occur;
Fig. 5 is while in the present invention's the first example, between force column, there is no steel disc, handle box power be subject to mouthful with image processing system driving head engagement process in the stereographic map of the extreme position two that may occur;
Fig. 6, Fig. 7 are that handle box power shown in Fig. 1 is subject to the effect schematic diagram between mouth and pressing lever, and wherein state shown in Fig. 6 is that power is subject to a mouthful indentation state, and state shown in Fig. 7 is that power is subject to mouth to stretch out state;
Fig. 8 is that handle box shown in Fig. 1 is pressed at pressing lever, power is subject to mouth in stretching out under state, the cut-open view in A-A cross section;
Fig. 9 is that handle box shown in Fig. 1 is not pressed at pressing lever, power is subject to mouth under the indentation state, the cut-open view in A-A cross section;
The power that Figure 10 is handle box shown in Fig. 1 is subject to the stereographic map of mouth;
The power that Figure 11 is handle box shown in Fig. 1 is subject to the stereographic map after mouth is loaded onto the mortgage button;
Figure 12 is the stereographic map of handle box photo-sensitive cell shown in Fig. 1 when power not being installed being subject to mouthful;
Figure 13 is that in second embodiment of the invention, pressing lever drives photo-sensitive cell and power to be subject to a mouthful flexible state;
The partial enlarged drawing that Figure 14 is photo-sensitive cell extension spring end in second embodiment of the invention;
Figure 15 is the schematic diagram that third embodiment of the invention power when "on" position is connected with driving mechanism by mouth;
Figure 16 is that third embodiment of the invention power when off-position is subject to mouth and the discontiguous schematic diagram of driving mechanism;
Figure 17 is a kind of operating circuit schematic diagram of third embodiment of the invention;
Figure 18 is the another kind of operating circuit schematic diagram of third embodiment of the invention;
Figure 19 is the schematic diagram that fourth embodiment of the invention power when "on" position is connected with driving mechanism by mouth;
Figure 20 is that fourth embodiment of the invention power when off-position is subject to mouth and the discontiguous schematic diagram of driving mechanism;
Figure 21 is the operating circuit schematic diagram of fourth embodiment of the invention;
Figure 22 is the cut-open view of fifth embodiment of the invention;
Figure 23 is the stereographic map that fifth embodiment of the invention power is subject to mouth.
Figure 24 is the decomposition view of sixth embodiment of the invention photosensitive component power transmitting mechanism.
Figure 25 is the stereographic map of end cap in the sixth embodiment of the invention photosensitive component power transmitting mechanism.
Figure 26 is the cut-open view of sixth embodiment of the invention photosensitive component power transmitting mechanism.
Figure 27 is the decomposition view of centring ring and guide pin bushing in the sixth embodiment of the invention photosensitive component power transmitting mechanism.
Figure 28 is the partial sectional view of powder box structure before sixth embodiment of the invention photosensitive component power transmitting mechanism power is meshed by mouth and image processing system driving head.
Figure 29 is the partial sectional view of powder box structure after sixth embodiment of the invention photosensitive component power transmitting mechanism power is meshed by mouth and image processing system driving head.
Figure 30 is the stereographic map of photosensitive component power transmitting mechanism photo-sensitive cell wheel hub in sixth embodiment of the invention.
Figure 31 is that in sixth embodiment of the invention, photosensitive component power transmitting mechanism power is subject to mouth to be arranged in the stereographic map of photo-sensitive cell wheel hub
Embodiment
Embodiment mono-:
The stereographic map that Fig. 1 is the present invention's one handle box that preferred embodiment adopts, the decomposing schematic representation that Fig. 2 is handle box shown in Fig. 1.As shown in Figure 2, on handle box housing 10, power is subject to mouthful 12 residing sides to be provided with pressing lever 13 and the first spring 18, pressing lever 13 and the first spring 18 composition control mechanisms; Wherein pressing lever 13 is arranged in the gathering sill 19 on handle box housing 10, and can on gathering sill 19, before and after directions X, slide, the first spring 18 is resisted against between the abutment face 19a of the abutment face 13a of pressing lever 13 and gathering sill 19, and provides elastic-restoring force for pressing lever 13.Therefore when handle box is located in image processing system, pressing lever 13 is under the effect of the first spring 18, and the abutment face 13a of pressing lever 13 has the trend away from abutment face 19A; One termination of pressing lever 13 is received the elastic force that the application of force F come from the outside overcomes the first spring 18, and pressing lever 13 moves along X arrow direction; When power, F cancels, and under the elastic returning power effect of the first spring 18, pressing lever 13 is made reseting movement along the opposite direction of X arrow direction.
Fig. 6, Fig. 7 are that power is subject to the effect schematic diagram between mouth and pressing lever, and wherein state shown in Fig. 6 is that power is subject to a mouthful indentation state, and state shown in Fig. 7 is that power is subject to mouth to stretch out state.As shown in Figure 6, Figure 7, be provided with release face 13a and indentation face 13b on pressing lever 13, release face 13a and indentation face 13b to be parallel to pressing lever 13 length directions be on directions X and be parallel to power to be subject to a mouthful axis direction be the setting of staggering on Y-direction, release face 13a and indentation face 13b and be formed with difference in height on Y-directions respectively.Be positioned at upstream being parallel on the direction of directions X the face of release 13a, be parallel on the direction of Y-direction, indentation face 13b is positioned at upstream.Release face 13a is connected by dip plane 13c transition with indentation face 13b.As shown in Figure 6, when pressing lever 13 is not pressed, indentation face 13b is subject to mouthful axial upper support power to be subject to the brace table 12a of mouth 12 at power, and power is subject to mouth in the indentation state; As shown in Figure 7, when pressing lever 13 is pressed by power F, pressing lever 13 moves along directions X, in motion process, by the effect of dip plane 13c, the status transition that power is supported by the indentation face of being subject to 13b by the brace table 12a of mouth is supported to releasing face 13a, in transient process, power is stretched out along Y-direction by mouth 12, with driving mechanism 20 engagements of image processing system.When power F cancels, pressing lever 13 is returned to again state as shown in Figure 6.
The following describes and cancel power F, how power is retracted by mouth 12, to guarantee power, is subject to mouth 12 and the driving mechanism 20 on image processing system to break away from engagement, allows handle box separate smoothly image processing system.
Referring to Fig. 8, Fig. 9, Figure 10 and Figure 11.Fig. 8 is that handle box shown in Fig. 1 is pressed at pressing lever 13, power is subject to mouth 12 in stretching out under state, the A-A cross-sectional view of handle box; Fig. 9 is that handle box shown in Fig. 1 is not pressed at pressing lever 13, power is subject to mouth 12 under the indentation state, the A-A cross-sectional view of handle box; The power that Figure 10 is handle box is subject to the stereographic map of mouth; The power that Figure 11 is handle box is subject to the stereographic map after mouth is loaded onto mortgage button 120.As shown in Figure 8, Figure 9, photo-sensitive cell 11 rotatably is supported on the main casing of handle box, wherein the wheel hub 11a of photo-sensitive cell 11 1 ends is supported by pivot pin 14, other end wheel hub 11a is supported by support 17, under the supporting role of pivot pin 14 and support 17, photo-sensitive cell 11 can only rotate around self axis in handle box, and photo-sensitive cell 11 can not move along the photo-sensitive cell axis direction.
As shown in Figure 8, Figure 9, power be subject to mouthfuls 12 and the wheel hub 11a of photo-sensitive cell between be provided with the second spring 16, the second spring 16 is arranged at wheel hub 11a and power and buckled between 120 by the mortgage on mouthfuls 12, the second spring 16 provides elastic-restoring force for power is subject to mouth 12, makes power be subject to mouthful 12 heterodromous trend that have along Y-direction.After handle box is installed on image processing system, pressing lever 13 is pressed by power F, and power is subject to mouth 12 to be released the support of face 13a, and power is subject to mouth 12 in stretching out state, and the second spring 16 is compressed in wheel hub 11a and mortgages between the end face of buckleing 120.When handle box disassembles from image processing system, power F cancels, pressing lever 13 is made reseting movement along the opposite direction of X arrow direction under the effect of the first spring 18, release face 13a and brace table 12a disengage gradually, power be subject to mouthfuls 12 elastic force effects that are subject to the second spring 16 along the opposite direction of arrow Y direction do the indentation campaign, until brace table 12a contacts (see figure 9) with indentation face 13b, be subject to the support of indentation face 13b; Now power is subject to mouth 12 in the indentation state, with the driving mechanism 20 on image processing system, breaks away from engagement.
Power is described below and is subject to annexation and the transmission of power course of work between mouth 12 and photo-sensitive cell 11: as shown in Figure 10,11, Figure 12 and Figure 13, power is subject to be provided with transfer part 12b, guide pillar one 12c, guide pillar two 12d on mouth 12, and transfer part 12b is arranged on guide pillar two 12d; Be provided with stressed groove 11b, guide groove one 11c, guide groove two 11d, steel disc 11e and a plurality of force column 11f on the wheel hub 11a of photo-sensitive cell 11; Guide groove two 11d are arranged on the sidewall of force column 11f; It is upper that transfer part 12b is arranged on stressed groove 11b, and can mesh with force column 11f, and power is subject to mouth 12 and photo-sensitive cell 11 to pass through this transfer part 11b and force column 11f transferring power; When power is subject to mouth 12 rotation, the stressed butt of transfer part 12b and force column 11f, power is subject to mouth 12, by transfer part 12b, power is delivered to photo-sensitive cell 11, drives photo-sensitive cell 11 to rotate.
As shown in Fig. 8,10,12, it is upper that guide pillar one 12c is arranged on that guide groove one 11c is upper, guide pillar two 12d are arranged on guide groove two 11d, and guide pillar one 12c, guide pillar two 12d can be at guide groove one 11c, guide groove two 11d along the axis direction of photo-sensitive cell 11 slide (being Y-direction);
Guide pillar one 12c, guide pillar two 12d, guide groove one 11c, guide groove two 11d, transfer part 12b and force column 11f, the common telescoping mechanism that forms of the second spring 16.
As shown in Figure 4,5 when there is no steel disc 11e on photo-sensitive cell 11, power be subject to mouthful with image processing system on driving mechanism 20 while meshing, two kinds of situations at dead angle appear; As shown in Figure 4,5, when power is subject to mouth 12 dead angle to occur with driving mechanism 20 engagements, because power is subject to mouth 12, on photo-sensitive cell 11, all can't rotates and cause power can't normally mesh with driving mechanism 20 by mouth 12 along direction as shown; Both of these case all can cause power can't work by mouth.
As shown in Figure 3, when power is subject to mouth 12 to be installed on photo-sensitive cell 11, transfer part 12b is arranged between the steel disc 11b between force column 11f.When power is subject to driving mechanism 20 engagement on mouth 12 and image processing system, transfer part 12b between steel disc 11b, not there will be the phenomenon at dead angle to guarantee power all the time while meshed with driving mechanism 20 by mouth 12.
The present embodiment can also be, an end and the power of spring 16 is subject to mouthful contact, and the other end contacts with handle box housing 10, and power is broken away from driving mechanism by mouth under the elastic force effect of spring.
Embodiment bis-:
In above-described embodiment one, only the dynamic mouth 12 that is subject to can be pressed bar 13 drivings along driving mechanism 20 engagements on its axial stretching and image processing system and break away from, the telescoping mechanism that is understandable that the present embodiment also can take power formed as one by mouth 12 and photo-sensitive cell 11, power is subject to mouthfuls 12 with photo-sensitive cell 11 flexible mode together, by pressing lever 13 control power be subject to mouthfuls 12 with image processing system on driving mechanism 20 engagements and break away from; The structure identical with embodiment mono-no longer is described in detail (as control gear) at this.
Structure and the course of work of telescoping mechanism are as described below:
As shown in Figure 9, be provided with pivot pin 14 and support 17 on handle box housing 10; One end wheel hub 11a of photo-sensitive cell 11 is supported by pivot pin 14, and other end wheel hub 11a has support 17 to support, and photo-sensitive cell 11 can be moved by mouth 12 with power together along the photo-sensitive cell axis direction.The telescoping mechanism adopted in the present embodiment comprises the wheel hub 11a at pivot pin 14, support 17 and photo-sensitive cell 11 two ends.
As shown in Figure 13-Figure 14, an end of photo-sensitive cell has a top board 21 and an extension spring 22, and it is upper that the power of the other end is subject to mouth 12 to be fixed on photo-sensitive cell wheel hub 11a, and top board 21 is fixed on handle box housing 10; One end of extension spring 22 is fixed on top board 21, and the other end is fixed on photo-sensitive cell 11.When pressing lever 13 moves along directions X, when power is moved along Y-direction by mouth 12, power be subject to mouthfuls 12 together with photo-sensitive cell 11 together Y-direction stretch out, and mesh with the driving mechanism 20 on image processing system, now be positioned at the extension spring 22 of photo-sensitive cell 11 other ends in extended state, when pressing lever 13 during along the directions X reverse reverting, power be subject to mouthfuls 12 together with photo-sensitive cell 11 under the acting force of extension spring 22 along the Y-direction counter motion, power be subject to mouthfuls 12 with image processing system on driving mechanism 20 break away from.
Embodiment tri-:
In the present embodiment, structure and the course of work of the telescoping mechanism identical with embodiment mono-, two are no longer done the description of repetition at this.
In the present embodiment, power is subject to the contraction of mouth not only can adopt the mechanical compression mode to realize, can also control the contraction that power is subject to mouth by electromechanical means, and the embodiment of control gear is as follows:
As shown in figure 15, the present embodiment adopts the power of single-coil electromagnetic valve 4d control linkage part 14d slave end to be subject to being connected and disengaging of driving mechanism 6d of mouthful 5d and image processing system.Axle 8d mono-end of web member 14d is provided with power and is subject to a mouthful 5d, and the other end is through the hollow of solenoid valve 4d, and solenoid valve moves left and right relatively; Solenoid valve 4d fixedly handle box housing 19d is upper, with the slip of axle 8d, does not move; An end and the axle 8d of metal A core 17d form as one, the other end can slidably reciprocate in the groove of the gear end setting of photo-sensitive cell 16d, the planform of metal A core needn't stick to a kind of, can be discoid, crosswise, spherical ..., as long as guarantee that the metal A core can slide in the groove corresponding to the shape setting of A core at the photosensitive drum gear end; Metal A core 17d can be photo-sensitive cell 16d transferring power, and rotates together with photo-sensitive cell 16d.The second flexible member 18d is arranged between solenoid valve 4d and A core 17d, for the A core provides elastic-restoring force, for after the solenoid valve outage, the A core being resetted; Solenoid valve 4d is connected with extraneous power supply by wiring 7d.
The present embodiment adopts the mode of dynamo-electric combination to control being connected and disengaging of driving mechanism 6d that power is subject to mouthful 5d and image processing system.Be the control circuit schematic diagram as shown in figure 17, when connecting the electromagnetic valve coil circuit, due to electromagnetic induction, hot-wire coil will produce magnetic field, and metal A core 17d is produced to magnetic force, and this magnetic force overcomes the elastic force of the second flexible member 18d, attract A core 17d near solenoid valve, the coaxial 8d of A core 17d is moved to the left together, with this, impels axle 8d to release the power that is fixed on the web member slave end and is subject to mouthful 5d that it is connected with the driving mechanism 6d of image processing system, thereby realize the transmission of revolving force.When disconnecting electromagnetic valve circuit, the coil no power will can not produce magnetic field, accordingly metal A core 17d is not just had to the magnetic attraction effect yet, as shown in figure 16, because promoting metal A core 17d, the elastic force effect of the second flexible member 18d slides to the direction away from solenoid valve, axle 8d by connector 14d hauls power and slided to the solenoid valve direction by mouthful 5d simultaneously, makes power broken away from by the driving mechanism 6d of mouthful 5d and image processing system.Like this, by controlling the connecting and disconnecting of the circuit of solenoid valve, well realized that power is subject to being connected and disengaging of driving mechanism 6d of mouthful 5d and image processing system.
In the present embodiment, the working power of solenoid valve connects from image processing system; due to electromagnetic valve work voltage and working current all less; therefore need to increase the transformer of a decompression and flow increasing in circuit; as shown in figure 17; Vcc is that institute's map interlinking picture forms installation's power source, and R1 is protective resistance, the impedance that R2 is electromagnetic valve coil; L1, L2 are respectively the primary and secondary coil of transformer, by the connecting and disconnecting of switch S 1 control circuit.
The present embodiment can also be the logical direct current of solenoid valve, as shown in figure 18, needs to increase an inductance component L 3 that filters alternating current in circuit.
Switch S 1 in the present embodiment circuit can be arranged in the primary coil circuit, also can be arranged in secondary coil circuit, as long as can reach the purpose of the connecting and disconnecting of control circuit.
Embodiment tetra-:
Above-described embodiment three is to utilize single-coil electromagnetic valve to control flexible that power closes up, and the present invention also can also reach same effect by the Double coil electromagnetic valve principle, and following is the another kind of embodiment detailed description of control gear:
As shown in figure 19, the power that the present embodiment adopts Double coil electromagnetic valve 15d to control connector 14d slave end is subject to being connected and disengaging of mouthful 5d and driving mechanism 6d on image processing system.With structure identical in embodiment tri-, at this, be not described in detail; Difference in the present embodiment and embodiment tri-is that the solenoid valve of the present embodiment is that twin coil forms, and the first coil 9d and the second coil 10d have been adopted respectively, be provided with a magnetite 11d between two coils, magnetite 11d is fixed on solenoid valve, with these two coils, does not contact; Between the solenoid valve 15d of the present embodiment and metal A core, flexible member is not set.In the present embodiment, the first coil 9d and the different time work of the second coil 10d, can control at any time in two coils and only have a job or two not work by circuit, but the phenomenon that not there will be two coils simultaneously to work, and the coil in the present embodiment is all instantaneous energising, conduction time be 3 seconds or the time shorter.
As shown in figure 21, in circuit, adopt single-pole double-throw switch (SPDT) to control the break-make of the first coil 9d and the second coil 10d, when the first coil 9 is connected, due to electromagnetic induction, hot-wire coil will produce magnetic field, metal A core 17d is produced to magnetic force, attract A core 17d near solenoid valve, with this, impelling axle 8d to release the power that is fixed on the connector slave end is subject to mouthful 5d that it is connected with the driving mechanism 6d of image processing system, because the coil of the present embodiment is instantaneous energising, therefore after coil electricity, the first coil 9d will disappear to the attractive force of metal A core 2, for guaranteeing that power is subject to mouthful 5d can continue closely to be connected with the driving mechanism 6d of image processing system, the magnetite 11d be arranged on solenoid valve attracts the axle 8d of connector to make it be fixed on the position that keeps power be connected with the driving mechanism 6d of image processing system by mouthful 5d, when the second coil 10d connects, equally due to electromagnetic induction, hot-wire coil will produce magnetic field, but the positive pole due to the first coil 9d and the second coil 10d common source, the magnetic direction that two coils produce is contrary, therefore, the magnetic field that the second coil 10d produces will cause connector to do reseting movement to the magnetive attraction of metal A core 17d, as shown in figure 20, be that metal A core 17 slides to the direction away from solenoid valve, and driving head slides to the direction near solenoid valve, magnetite 11d again holds axle 8d and makes it remain on the position that power is subject to the driving mechanism 6d disengaging of mouthful 5d and image processing system.Like this, just well realized that by the connecting and disconnecting of the circuit of controlling solenoid valve power is subject to being connected and disengaging of driving mechanism 6d of mouthful 5d and image processing system.
In the present embodiment, the working power of solenoid valve is from the dry cell increased on handle box, as shown in figure 21, E is the dry cell electric battery, and single-pole double-throw switch (SPDT) S2 controls the first coil 9d and the second coil 10d connects respectively, and R3 and R4 are respectively the impedance of the first coil 9d and the second coil 10d.
The present embodiment can also be that the second coil 10d connection attracts A core 17d close to the solenoid valve direction, the first coil 9d connects and produces repulsion promotion metal A core 17d to sliding away from the solenoid valve direction, that is to say as long as guarantee that any moment first coil 9d and the second coil 10d only have a job or do not work.
Embodiment five:
The structure that the present embodiment adopts and embodiment mono-are basic identical, and therefore the structure division (as telescoping mechanism) identical with embodiment mono-, no longer be described in detail at this.
The control gear that the present embodiment adopts is as described below:
The handle box cut-open view adopted for the present embodiment as shown in figure 22.In the present embodiment, bracing wire 15 is through the pivot pin 14 on handle box housing 10, and is subject to mouthfuls 12 to be connected with power, and bracing wire 15 can be slided along axis direction photo-sensitive cell 11 is interior; Power is subject to mouth 12 to be arranged on the wheel hub 11a upper (connected mode and power delivery mode are identical with embodiment mono-) of photo-sensitive cell 11, power is subject on mouth 12 to be provided with mortgage button 120a, the end of the second spring 16a contacts with wheel hub 11a, the other end contacts with mortgage button 120a, and described the second spring 16a is stage clip.
As shown in Figure 22, when handle box is installed on image processing system, bracing wire 15 under tension F1 effect on perpendicular to the photo-sensitive cell axis direction, characteristic due to bracing wire itself, in photo-sensitive cell 11 inside, the tensile force f 1 that bracing wire 15 is born changes the tensile force f 2 along axis direction into, now, tensile force f 2 makes power be moved to the left by mouth 12, and the second spring 16a is in compressive state; When tensile force f 1 removes, the second spring 16a replys, and makes power moved right by mouth 12, and now power is meshed by mouth 12 and the driving mechanism on image processing system; When handle box and image processing system disengaging, bracing wire 15 is bearing tension F1 effect again, and power is moved to the left by mouth 12, and breaks away from driving mechanism.
Tensile force f 1 in the present embodiment can be to pass over from the external world, the handgrip of handle box for example: bracing wire 15 1 ends are connected with handgrip, the other end is connected by mouth 12 with power, when the handle box handgrip is stretched, bracing wire 15 is stretched with handgrip, the tensile force f 1 from handgrip is now accepted in bracing wire 15, and power is moved to the left by mouth; When the handle box handgrip is not stretched, bracing wire 15 is bearing tension F1 no longer, and the second spring 16a makes power moved right by mouth 12.
The bracing wire 15 of the present embodiment can also be arranged on handle box housing 10, and this housing 10 supports photo-sensitive cell 11.
In the present invention, adopt other to have flexible material (as elastic caoutchouc, elastic steel sheet etc.) and replace spring, also can reach identical technique effect, these resilient materials and spring are referred to as flexible member.Therefore first, second spring in embodiment mono-also can be described as first, second flexible member, and the second spring in embodiment tri-, four, five also can be described as the second flexible member.
Accommodate developer in handle box in above embodiment, the developing device realizing photo-sensitive cell and develop, cleaning assemblies, charging assembly etc. also are set in handle box.At this, be not described specifically.
Embodiment six:
In the present embodiment, the structure division identical with embodiment mono-, no longer be described in detail at this;
As shown in Figure 24-27, photosensitive component power transmitting mechanism comprises that driving mechanism A2(is with the printer driver head of describing in Chinese patent application CN2010101313861), power be subject to a mouthful A1, the second spring A3, the mortgage buckle A4, guide pin bushing A5, centring ring A6, photo-sensitive cell wheel hub A7, pressing lever A9, the first spring A10 and wheel hub A11(with the end cap of describing in Chinese patent application CN2010101313861).Power is subject to connect successively between a mouthful A1, guide pin bushing A5, centring ring A6 and photo-sensitive cell wheel hub A7; Power is meshed by mouthful A1 and driving mechanism A2, receive rotary power from driving mechanism A2, power is subject on mouthful A1 also to be provided with power transfering part A1a, this power transfering part A1a and photo-sensitive cell wheel hub A7 engagement, rotary power on self-driven mechanism A2 passes to photo-sensitive cell wheel hub A7 in the future, and for the photo-sensitive cell wheel hub, A7 provides rotary power; Power is subject on mouthful A1 also to be provided with disk boss A1b, be provided with power on guide pin bushing A5 and be subject to a mouthful brace table A5b, disk boss A1b be arranged on power be subject to mouthful brace table A5b upper and relatively power rotated freely by a mouthful brace table A5b, so power is rotated freely by the relative guide pin bushing A5 of mouthful A1; Be provided with boss A5c and axial limiting interface A5e on guide pin bushing A5, be provided with guide pin bushing brace table A6c on centring ring A6, it is upper that boss A5c is arranged on guide pin bushing brace table A6c, and as shown in Figure 27, guide pin bushing brace table A6c is formed with difference in height on photo-sensitive cell is axial; Be provided with fixture block A11e on wheel hub A11, fixture block A11e is arranged in axial limiting interface A5e, and fixture block A11e is for limiting rotatablely moving of guide pin bushing A5; Guide pin bushing brace table A6c, when boss A5c moves, makes guide pin bushing A5 move along the photo-sensitive cell axial direction, thereby makes power moved axially along photo-sensitive cell by a mouthful A1; Be provided with boss A6b on centring ring A6, be provided with the second spring A3 stopper slot A7c and centring ring stopper slot A7b on photo-sensitive cell wheel hub A7, boss A6b is arranged in centring ring stopper slot A7b and boss A6b is rotated freely on centring ring stopper slot A7b, so photo-sensitive cell A8 relative positioning circle A6 can rotate freely; Driving mechanism A2 and power are subject to a mouthful A1 engagement transferring power, mortgage button A4 is arranged on the end that power is subject to mouthful A1, the second spring A3 is arranged on mortgage and buckles between A4 and the second spring A3 stopper slot A7c, the first spring A10 mono-end is arranged on pressing lever A9, the other end is arranged on powder box A12, pressing lever A9 is connected with centring ring A6, and photo-sensitive cell A8 and photo-sensitive cell wheel hub A7 bond together, guide pin bushing A5 with centring ring A6, be in axial sliding connection together with power is subject to mouthful A1.
Telescoping mechanism comprises power transfering part A1a, mortgage button A4 and the second spring A3; Control gear comprises disk boss A1b, guide pin bushing A5, centring ring A6, pressing lever A9, the first spring A10 and wheel hub A11;
Below just describe in detail the power transmission process of whole Poewr transmission mechanism in the present embodiment, as shown in Figure 24-29, powder box A12 is in the installation process, power is subject to mouthful A1 and driving mechanism A2 in released state, when powder box A12 is in place, power is still maintained a certain distance by mouthful A1 and driving mechanism A2.Powder box A12 is after installation, in closing the cover process, cover pushing pressing lever A9 on image processing system (with the printer of describing in Chinese patent application CN2010101313861), the centring ring A6 that makes pressing lever A9 promote to be attached thereto radially turns clockwise along photo-sensitive cell, because the upper fixture block A11e of wheel hub A11 has avoided rotatablely moving of guide pin bushing with being connected of guide pin bushing axial limiting interface A5e, so centring ring A6 can promote guide pin bushing A5 by the axial thrust between inclined-plane A6a and guide pin bushing inclined-plane A5a and do the release campaign along the photo-sensitive cell axis direction, the power that makes to be arranged on guide pin bushing A5 is stretched out by a mouthful A1 and meshes with driving mechanism A2, thereby driving power by driving mechanism A2 is subject to mouthful A1 to drive photosensitive drums A8 along its axial-rotation, now the second spring A3 and the first spring A10 are in compressive state, under this state power be subject to mouthful A1 to compare closing image to form the stroke that the state before the device cover axially stretches out be 3.8mm~4.8mm.After printing completes, in the process of opening the image processing system cover, the pressure that cover on image processing system acts on pressing lever A9 is cancelled, pressing lever A9 with reset function bounces back under the effect of the acting force of the first spring A10, thereby driving centring ring A6 radially is rotated counterclockwise along it, axial thrust between centring ring inclined-plane A6a and guide pin bushing inclined-plane A5a is cancelled, compressed the second spring A3 elasticity recovery now, thereby drive power, be subject to a mouthful A1 retraction to break away from engagement with driving mechanism A2, complete printing.
As shown in Figure 30-31, in the present embodiment, be provided with contour localization groove A7a in photo-sensitive cell wheel hub A7, power be subject to mouthful A1 axially stretch out with driving mechanism A2 engagement before, power is positioned in the middle of contour localization groove A7a by the power transfering part A1a of mouthful A1, can make like this power axially stretched out with driving mechanism A2 by mouthful A1 and carry out while meshing centering (centering is that power is subject to mouthful A1 around its axial a little rotation), while having avoided power to be subject to mouthful A1 and driving mechanism A2 engagement, the phenomenon of dieback occurs.