CN203930340U

CN203930340U - A kind of handle box

Info

Publication number: CN203930340U
Application number: CN201420292022.5U
Authority: CN
Inventors: 刘金莲; 李永红; 杨妙玲; 罗来; 曹建新; 梁祺杰
Original assignee: Zhuhai Seine Technology Co Ltd
Current assignee: Ninestar Corp
Priority date: 2014-06-03
Filing date: 2014-06-03
Publication date: 2014-11-05
Anticipated expiration: 2024-06-03

Abstract

The utility model relates to a kind of handle box, comprise the first housing, developing element, driving force receiving element and control gear, driving force receiving element comprises driving force Receiver and action cover, control gear comprises that force application element force application element makes the inwardly indentation vertically of described driving force Receiver by obtaining applied external force, and the direction that force application element is fit into electronic imaging apparatus with respect to handle box is arranged on the shell end of described handle box the first housing.Make the driving force Receiver of handle box in the situation that can realizing axial stretching, make driving force Receiver can make driving force Receiver axially realize stretching without the oppressive force producing between the door closure by electronic imaging apparatus or all the other inner structures and handle box and mesh with driver element.

Description

A kind of handle box

Technical field

The utility model relates to a kind of handle box.

Background technology

A handle box, this handle box is removably mounted on electronic imaging apparatus.In described electronic imaging apparatus, be provided with revolving force driver element.Described handle box comprises the photo-sensitive cell for load image carrier, and the driving force receiving element that is arranged on photo-sensitive cell one end, on its driving force receiving element, is provided with driving force Receiver.Described driving force Receiver and the driver element of electronic imaging apparatus intermeshing after so that rotary driving force is passed to driving force receiving element, finally drive photo-sensitive cell to make its rotation.

In Chinese patent CN201010585490.8, disclose and a kind ofly made the described driving force Receiver can be along carrying out flexible telescoping mechanism on the axial direction of photo-sensitive cell, and made telescoping mechanism carry out flexible control gear after utilizing applied external force to be applied to pressing lever.Described telescoping mechanism setting is connected with the driving force receiving element of photo-sensitive cell one end, described control gear is controlled driving force receiving element by applied external force, the driving force Receiver of driving force receiving element can be stretched along the axial direction of photo-sensitive cell, realize and to mesh with driver element on electronic imaging apparatus or separated.According to disclosed technical scheme, the weak point of this technical scheme be handle box need to by the situation of external force thrust just can with electronic imaging apparatus in driver element intermeshing.The feature of its technical scheme is: the pressing lever (control gear) that is positioned at handle box rear portion receives to the thrust of the door closure of machine (electronic imaging apparatus), force pressing lever to promote or rotate the driving force receiving element (telescoping mechanism) that is positioned at photo-sensitive cell one end, driving force Receiver is driven along the axial direction driver element engagement protruding and electronic imaging apparatus of photo-sensitive cell.Here, it should be noted that, after driving force Receiver is protruding, need always by the promotion of pressing lever or rotate to maintain with the stroke in driver element when engagement, the promotion of pressing lever or rotation are maintained by the door closure of electronic imaging apparatus or the oppressive force between inner structure and the pressing lever of handle box, if because of the impaired of door closure or inner structure or and pressing lever between oppressive force be not enough to effectively to compel to push away or rotating drive power Receiver makes it protrude outwardly to default minimum engagement travel, driving force Receiver will be difficult to mesh driving with driver element so, final handle box cannot participate in development work.

Therefore, need a kind of brand-new scheme, make the driving force Receiver of handle box in the situation that can realizing axial stretching, make driving force Receiver make driving force Receiver axially realize stretching without the oppressive force producing between the door closure by electronic imaging apparatus or other inner structures and handle box and mesh with driver element.

Utility model content

The utility model provides a kind of handle box, to solve existing handle box, in use need carry out by the oppressive force producing between the door closure of electronic imaging apparatus or all the other inner structures and handle box the technical matters of butt.

In order to realize above technical matters, the utility model adopts following scheme:

A handle box, this handle box is removably mounted on electronic imaging apparatus, and described handle box comprises the first housing, developing element, driving force receiving element and control gear; Described driving force receiving element comprises driving force Receiver and action cover, the action cover that described control gear is controlled driving force receiving element make the driving force Receiver of driving force receiving element carry out axial stretching with electronic imaging apparatus in driver element engagement drive; It is characterized in that:

Described control gear comprises force application element, described force application element stretches described driving force Receiver by obtaining applied external force vertically, and the direction that described force application element is fit into electronic imaging apparatus with respect to handle box is arranged on the shell end of described handle box the first housing.Described force application element is the first push pedal, described the first push pedal is provided with urgent pushing surface, the urgent pushing surface of described the first push pedal makes the inwardly indentation vertically of driving force Receiver by receiving thrust, and the direction that described thrust applies is identical with the direction that handle box is fit into electronic imaging apparatus.

The urgent pushing surface of described the first push pedal arranges outwardly with respect to the first housing.

At the shell end place that approaches the first housing of handle box, one recess is set.

Also comprise the second push pedal, described the second push pedal is arranged on recess place, described the second push pedal is provided with urgent pushing surface, the urgent pushing surface of described the second push pedal makes the inwardly indentation vertically of driving force Receiver by receiving thrust, and the direction that the direction that described thrust applies is dismantled from electronic imaging apparatus with handle box is identical.

The urgent pushing surface of described the first push pedal and the urgent pushing surface of the second push pedal towards roughly contrary.

One end of described the first push pedal is also provided with a cantilever, and described cantilever makes the inwardly indentation vertically of driving force Receiver by receiving above-mentioned thrust.

Also comprise a pressing lever, described cantilever coordinates push pull maneuver cover make driving force Receiver realize vertically inside indentation or realize outwardly directed action with pressing lever, described cantilever and pressing lever be independently separate or integrated injection molding.

In the first housing of handle box, be provided with an elastic component, when no longer to the first push pedal or/and during the urgent pushing surface applied thrust of the second push pedal, elastic component release elastic force compels to push away the first push pedal or/and the second push pedal moves to stressed front predeterminated position, and described driving force Receiver is protruding vertically.

Described force application element is rotatably installed on the first housing, the axle almost parallel of the turning axle of described force application element and the axle of developing element or photo-sensitive cell.

Described force application element when being rotated to a direction, is controlled the inwardly indentation vertically of described driving force Receiver.

When described force application element is rotated by the direction to above-mentioned opposite direction, control described driving force Receiver protruding vertically.

Described force application element is travel(l)ing rest, and described travel(l)ing rest is provided with cantilever, and described travel(l)ing rest coordinates with the first housing swingably by cantilever.

The cantilever of described travel(l)ing rest is also provided with an arm of force, and described action is arranged with a cantilever; The arm of force of described travel(l)ing rest coordinates and controls the inwardly indentation or protruding vertically vertically of driving force Receiver with the cantilever of action cover.

The end of described the first housing is also provided with a recess, and described recess can be taken in described travel(l)ing rest.

Described handle box is also provided with a pressing lever, and described force application element is passed to described pressing lever by the applied external force of acquisition, and described pressing lever promotes or pulling action cover makes the inwardly indentation or protruding vertically vertically of driving force Receiver.

After having adopted technique scheme, because control gear comprises force application element force application element, by obtaining applied external force, make the inwardly indentation vertically of described driving force Receiver, the direction that force application element is fit into electronic imaging apparatus with respect to handle box is arranged on the shell end of described handle box the first housing.Make the driving force Receiver of handle box in the situation that can realizing axial stretching, make driving force Receiver can make driving force Receiver axially realize stretching without the oppressive force producing between the door closure by electronic imaging apparatus or all the other inner structures and handle box and mesh with driver element.Driving force Receiver and driver element formation constructive interference or collision mutually in installation process have been avoided.Solve existing handle box and in use need carry out by the oppressive force producing between the door closure of electronic imaging apparatus or all the other inner structures and handle box the technical matters of butt.

Accompanying drawing explanation

Fig. 1 is the schematic cross-section of the composition structure of handle box;

Fig. 2 is the overall schematic of the composition structure of handle box;

Fig. 3 is the photo-sensitive cell of handle box and the structural representation of driving force receiving element;

Fig. 4 a is the structural representation of driving force receiving element;

Fig. 4 b is the structural representation of the driver element in driving force receiving element and electronic imaging apparatus;

Fig. 5 is the action schematic diagram that pressing lever makes the rotation of action cover;

Fig. 6 a is that pressing lever makes the outwardly directed action schematic diagram of driving force receiving element;

Fig. 6 b is the action schematic diagram that pressing lever makes the inside indentation of driving force receiving element;

Fig. 7, the 8th, the structural representation of control gear in handle box in the present embodiment one;

Fig. 9, the 10th, the structural representation of the first push pedal in the present embodiment one;

Figure 11, the 12nd, the structural representation of the second push pedal in the present embodiment one;

Figure 13 is the structural representation of the driven wheel in the present embodiment one;

Figure 14 is the structural representation of the driving stem in the present embodiment one;

Figure 15 is the structural representation of the backboard in the present embodiment one;

Figure 16,17, the 18th, the structure of the control gear in the present embodiment one and the schematic diagram of course of action;

Figure 19 is control gear in the present embodiment one position view in handle box;

Figure 20 is the structural representation of the first push pedal in the present embodiment two;

Figure 21 is the structural representation of the second push pedal in the present embodiment two;

Figure 22 is the structural representation of the driving stem in the present embodiment two;

Figure 23 is the structure of the control gear in the present embodiment two and the schematic diagram of course of action;

Figure 24 is control gear in the present embodiment three schematic diagram in handle box;

Figure 25 a, 25b, 26a, 26b are the course of action schematic diagram of the control gear in the present embodiment three;

Figure 27 is control gear in the present embodiment four schematic diagram in handle box;

Figure 28 is the structural representation of the driving stem in the present embodiment four;

Figure 29 is the structural representation of the auxiliary drive gear in the present embodiment four;

Figure 30 is the course of action schematic diagram of the control gear in the present embodiment four;

Figure 31 is control gear in the present embodiment five schematic diagram in handle box;

Figure 32 is the one-piece construction schematic diagram of the control gear in the present embodiment five;

Figure 33, the 34th, the course of action schematic diagram of the control gear in the present embodiment five;

Figure 35 is control gear in the present embodiment six schematic diagram in handle box;

Figure 36 is the structural representation of the first push pedal in the present embodiment six;

Figure 37 is the course of action schematic diagram of the control gear in the present embodiment six;

Embodiment

Embodiment is described below with reference to the accompanying drawings.

In the utility model, be and the axis almost coaxial of photo-sensitive cell or parallel direction axially.

In the utility model, the installation direction of handle box in electronic imaging apparatus is for substantially to keep vertical with axial direction.

In the utility model, the disassembly direction of handle box in electronic imaging apparatus is contrary in installation direction.

(handle box)

As shown in Fig. 1 to 2, it is the structural representation of the handle box C in electronic imaging apparatus (not show).Handle box comprises the first baffle plate 150a and the second baffle 150b at housing (the second housing 100 and the first housing 200) and housing (axially) two ends, in the second housing 100, contain charge member 10, cleaning element 20, photo-sensitive cell 50 etc., in the first housing 200, contain developing element 40, control powder element 30 and developer etc.

The axial one end that is positioned at photo-sensitive cell 50 is provided with driving force Receiver 55, driving force Receiver 55 by with electronic imaging apparatus in driver element 800 engagement, receive to the rotary driving force of driver element 800 and drive photo-sensitive cell 50 rotations, finally making handle box participate in the development work in electronic imaging apparatus.

In the utility model, the operative orientation of handle box C photo-sensitive cell 50 is to counterclockwise rotating.

(driving force receiving element one)

As shown in Fig. 3 to Fig. 6 b, for being arranged on the driving force receiving element 50a of photo-sensitive cell 50 axial one end, driving force receiving element 50a comprises action cover 51, locating sleeve 52, driving force Receiver 55, spring 56, geared sleeve 57, locating button 58.The circumferential surface of action cover 51 is provided with the dip plane 51b that mating holes 51a, its inside have indent; The outside surface of locating sleeve 52 is provided with dip plane 52b, fixed part 52a and the slot 52c of evagination; Driving force Receiver 55 is provided with confined planes 55b, power receiving port 55a, power transfer column 55c and limited impression 55d; Geared sleeve 57 surfaces are provided with gear, inside arranges strong receiving plane 57a; The matching relationship of each assembly in above-mentioned driving force receiving element 50a is: driving force Receiver 55 is mounted to geared sleeve 57, and its limited impression 55d is fixing through geared sleeve 57 button 58 that is positioned.Spring 56 is arranged between driving force Receiver 55 and geared sleeve 57 to apply elastic force in driving force Receiver 55, and the limited impression 58 by 58 pairs of driving force Receivers 55 of locating button is fixing, makes driving force Receiver 55 in geared sleeve 57, have certain axial elasticity path increment.The power receiving port 55a that locating sleeve 52 passes driving force Receiver 55 is to confined planes 55b, and the slot 52c of its locating sleeve 52 need be less than confined planes 55b.Action cover 51 is mounted to locating sleeve 52, and the indent dip plane 51b of its action cover 51 coordinates with the evagination dip plane 52b of locating sleeve 52.

In addition, for implementing that the integral body of driving force receiving element 50a is controlled, to realize driving force Receiver 55, there is the axial stretching function along photo-sensitive cell 50, also need on driving force receiving element 50a, assemble pressing lever 550 and shaft bearing plate 110, the positioning convex 550a of pressing lever 550 is chimeric to be entered in the mating holes 51a of action cover 51 circumferential surfaces, shaft bearing plate 110 is mounted on action cover 51, the back side of its shaft bearing plate 110 is provided with reference column 110a, its reference column 110a embeds the fixed part 52a of locating sleeve 52 through action cover 51, by the installation of reference column 110a, locating sleeve 52 is fixed in self sense of rotation.Pressing lever 550 is arranged on the first baffle plate 150a of housing one end, and shaft bearing plate 110 is arranged on the second housing 100.

With reference to figure 6 and Fig. 6 b, action relationships between above-mentioned driving force receiving element 50a, pressing lever 550, shaft bearing plate 110 is: by the power that the moves forward Y2 to pressing lever 550, displacing force Y1 (moving direction of displacing force Y2, Y1 is roughly vertical with the axial direction of photo-sensitive cell 50) backward, the positioning convex 550a of its pressing lever 550 drives the mating holes 51a that (be and come and go the action promoting) is arranged on action cover 51 circumferential surfaces to make action cover 51 realize the round action of rotation.Because locating sleeve 52 is fixed by shaft bearing plate 11, as pressing lever when rearward Y1 moves (can reference process box dismantle from electronic imaging apparatus direction), positioning convex 550a tractive action cover 51 makes action cover 51 produce the counterclockwise rotation of R1, the dip plane 51b of the indent of its rotation status acts on the dip plane 52b of locating sleeve 52 evaginations, the axially-movable that forces the locating sleeve 52 in stationary state (fixing in sense of rotation) to produce along photo-sensitive cell 50, i.e. the whole inwardly indentation of locating sleeve 52.Now because locating sleeve 52 is arranged on driving force Receiver 55, its slot 52c compresses confined planes 55b, the axially-movable that locating sleeve 52 produces is applied to driving force Receiver 55 equally, make also integral body inwardly indentation vertically of driving force Receiver 55, spring 56 is also simultaneously because of the inside indentation pressurized of driving force Receiver 55.Similarly, when pressing lever 550 is when forwards Y2 moves (reference process box is fit into the direction of electronic imaging apparatus), the rotation that positioning convex 550a pushing action cover 51 makes action cover produce clockwise direction L1, its action cover 51 no longer directly acts on locating sleeve 52, and the dip plane 51b of indent no longer acts on the dip plane 52b of evagination.Now the slot 52c of locating sleeve 52 equally no longer applies pushing force to the confined planes 55b of driving force Receiver 55.Equally, the spring 56 between geared sleeve 57 and driving force Receiver 55 discharges elastic force to driving force Receiver 55 because of pressurized no longer, compels to push away driving force Receiver 55 and in axial direction realizes outwardly directed action.

The enforcement action of above-mentioned driving force receiving element one is: when pressing lever 550 is when rearward Y1 moves, driving force Receiver 55 is because being subject to the inside indentation of pushing force vertically, and when pressing lever 550 is when forwards Y2 moves, driving force Receiver 55 obtains protruding vertically to the thrust of spring 56 because of pressurized no longer.

(driving force receiving element two)

In addition, the action in above-mentioned (driving force receiving element one) cover 51 and locating sleeve 52 structures can also be set to: the vergence direction of the indent dip plane that its action cover is inner is contrary with the vergence direction of the indent dip plane 51b of action cover 51 in (driving force receiving element one), the vergence direction of the evagination dip plane 52b of the locating sleeve 52 of the evagination dip plane of its locating sleeve equally and in (driving force receiving element one) is contrary.Like this, by the structure setting different from (driving force receiving element one), when driving force receiving element two is implemented to whole control, the rotation that (Y2 direction) is mobile and pushing action cover produces clockwise direction L1 forward of its pressing lever 550, contrary based on the above-mentioned indent dip plane being in contact with one another and evagination dip plane with (driving force receiving element one), action cover and locating sleeve are controlled the inside indentation vertically of driving force Receiver integral body; When pressing lever 550 is when (Y1 direction) mobile and tractive action cover produces the rotation of R1 counterclockwise backward, driving force Receiver is subject to elastic force protruding vertically.

The enforcement action of above-mentioned driving force receiving element two is: when pressing lever 550 is when forwards Y2 moves, driving force Receiver 55 is because being subject to the inside indentation of pushing force vertically, and when pressing lever is when rearward Y1 moves, driving force Receiver 55 obtains protruding vertically to the thrust of spring 56 because of pressurized no longer.

Finally, when the driver element 800 on electronic imaging apparatus and the power receiving port 55a engagement on driving force Receiver 55, driver element 800 rotating drive power Receivers 55, and being arranged on the power receiving plane 57a that the power transfer column 55c butt on driving force Receiver 55 is lived geared sleeve 57 inside, revolving force is passed to photo-sensitive cell 50 the most at last.

In addition, the center of each part in above-mentioned driving force receiving element 50a keeps aliging with the central axis of photo-sensitive cell 50 as far as possible.

(control gear)

The following example is for controlling the control gear of above-mentioned driving force receiving element.Under general state, when control gear does not apply acting force to driving force receiving element 50a, action cover 51 does not apply pushing force to locating sleeve 52, the original state of its driving force receiving element 50a is set as driving force Receiver 55 and obtains to the elastic force of spring 56 and make power receiving port 55a keep protruding state always, as shown in Figure 6 a.

Embodiment mono-

In embodiment mono-, handle box C built-in (driving force receiving element one) coordinates control gear.

As shown in Fig. 7 to 19, be the handle box structure of the present embodiment one and the schematic diagram of this control gear thereof.

As shown in Figure 7; the axial one end of handle box C is provided with the first protecting cover 210 and the second protecting cover 220; the first protecting cover 210 and the second protecting cover 220 avoid because of the impact of external force impaired for the protection of its control structure, its first protecting cover 210 and the second protecting cover 220 and shaft bearing plate 110 are arranged on same one end of handle box C.

At the shell end place that approaches the first housing 200 of handle box C, one recess 240 is set, the hand-held region that this recess 240 provides during to electronic imaging apparatus at installing process cartridge C for ease of user.On the first housing 200 of handle box C, be provided with the first push pedal 400 and the second push pedal 300, the maximum height of its first push pedal 400 and breadth extreme are no better than height and the width of the shell end of handle box C the first housing 200, and the maximum height of its second push pedal 300 and breadth extreme equal height and the width of recess 240 substantially.

The shell end of above-mentioned handle box C refers to when handle box C is fit into electronic imaging apparatus, and handle box is with respect to the housing rear end on installation direction.

As shown in Fig. 7 to Figure 15, it is the schematic diagram of the control gear in handle box C.Control gear comprises: the first push pedal 400, the second push pedal 300, driven wheel 570, driving stem 540, traction element 520, pulley 510, elastic component 530, backboard 290 etc.The first push pedal 400 is provided with compels pushing surface 420 (being outside surface), and on relative inside surface, is provided with projection 440, tooth bar 410, spacing preiection 430.The second push pedal 300 is provided with compels pushing surface 320 (being outside surface), and on relative inside surface, is provided with projection 340, tooth bar 310, spacing preiection 330.Driven wheel 570 is provided with the first gear 571, the second gear 572, pilot hole 573.Driving stem 540 is provided with tooth bar 541, towing pad 542.Backboard 290 is provided with limited impression 291 and reference column 295.

In control gear, the assembly relation of each part is: the first push pedal 400 is arranged on the shell end of handle box C the first housing 200, and the urgent pushing surface 420 of its first push pedal 400 arranges outwardly with respect to the first housing 200.The second push pedal 300 is arranged on recess 240 places with respect to the position-reversed of the first push pedal 400, the urgent pushing surface 320 of its second push pedal 300 is relative with the inside surface of towards the opposite and two push pedals (300,400) of the urgent pushing surface 420 of the first push pedal 400, is positioned on the projection (340,440) of the first push pedal 400 and the second push pedal 300 and is equipped with elastic component 530.Preferably, wherein the projection of a push pedal can be inserted in the projection of another push pedal, can avoid mutual disengaging.Driven wheel 570 is arranged between two push pedals (300,400), tooth bar in its push pedal (310,410) meshes with the first gear 571 of driven wheel 570 simultaneously, and the second gear 572 of driven wheel 570 meshes with the tooth bar 541 of driving stem 540.One end of traction element 520 is fixed in the towing pad 542 of driving stem 540, and the other end of traction element 520 is fixed in the towing pad 551 of pressing lever 550.Pressing lever 550 is connected with driving force receiving element 50a, specifically can, with reference to the above-mentioned description to driving force receiving element 50a in (driving force receiving element one), no longer repeat here.

As shown in Figure 16 to Figure 19, the rigging position of above-mentioned control gear in handle box C is: the spacing preiection 430 of the first push pedal 400 is fit in the spacing hole 205 of the first housing 200 (enclosure interior), spacing preiection 430 arranges a back-off at its free end, and its back-off can prevent that through after spacing hole 205 the first push pedal 400 is separated with the first housing 200.The spacing preiection 330 of the second push pedal 300 is also fit in the limited impression 206 of the first housing 200 (enclosure interior), and its limited impression 206 can prevent that the second push pedal 300 is separated with the first housing 200 equally.Driven wheel 570 is mounted on the cylinder 230 of the first housing 200 (enclosure interior).In addition, also need a backboard 290 to be mounted in the first housing 200, the reference column 295 of its backboard 290 is engaged on driven wheel 570, prevent that driven wheel 570 from departing from, on backboard 290, be also provided with limited impression 291, limited impression 291 also coordinates with the spacing preiection 330 of the second push pedal 300 equally simultaneously.In addition, for making control gear reduce power loss and friction factor in motion process, use pulley 510 to be arranged on a side of the first housing 200, its traction element 520 draws pressing lever 550 through the surface of pulley 510.For reaching good traction effect, the material of traction element 520 is preferentially selected flexible barcode or wire material.

The enforcement course of action of the control gear in above-described embodiment one is: when user's applied thrust F1 (compeling in pushing surface 420) compels to push away that the first push pedal 400 is moved along Y2 direction or/and applied thrust F2 (compeling in pushing surface 320) compels to push away the second push pedal 300 while moving along Y1 direction, (wherein thrust F1 is for being fit into the direction of electronic imaging apparatus with handle box; And thrust F2 is the direction of dismantling from electronic imaging apparatus with handle box, contrary with installation direction).Under the effect of thrust F1, F2, the tooth bar (310 or 410) of push pedal (300,400) meshes and makes its rotation with the first gear 571 of driven wheel 570.Simultaneously, the second gear 572 rotating meshes and drives driving stem 540 mobile towards direction X1 (axially) with the tooth bar 541 on driving stem 540, at this moment driving stem 540 pulls the traction element 520 on the towing pad 542 that is fixed on driving stem 540 one end equally, the other end of last traction element 520 after pulley 510, pull pressing lever 550 towards direction Y1 move (with thrust F2 substantially same towards).Like this, by the power transmission of the control gear in embodiment mono-, the action cover 51 that makes pressing lever 550 control driving force receiving element 50a produces the counterclockwise rotation of R1, makes driving force Receiver 55 realize the action of inside indentation, with reference to figure 6b.

And when user's application of force no longer, when thrust (F1, F2) is no longer carried out applied thrust to push pedal (300,400), it is in elastic component between push pedal (300,400) 530 and discharges elastic force and compel push pedal (300,400) and move to the predeterminated position before stressed, and the tooth bar of push pedal (310 or 410) drives the first gear 571 that it is rotated, at this moment the second gear 572 also rotates simultaneously and drives driving stem 540 to move (direction X2 towards contrary with X1) towards direction X2.Now traction element 520 does not draw pressing lever 550 in relaxed state substantially, elastic component 530 in handle box C side provides elastic force to compel to push depression bar 550 to pressing lever 550 and moves towards direction Y2, pressing lever 550 also while pulling action cover 51 makes it be clockwise direction L1 rotation, last driving force Receiver 55 reception to the elastic force of spring 56 are in axial direction realized outwardly directed action, with reference to figure 6a.

The inner structure of above-mentioned driving force receiving element 50a can, with reference to the description in (driving force receiving element one), no longer be repeated here.

In addition, for making driving stem 540 realize better position effect, can be at the interior rectangular groove 208 that arranges of the first housing 200 for limiting the direction of motion (axially) of driving stem 540.

By above-mentioned structure, arrange, make handle box C its driving force Receiver 50a in the situation that not obtaining applied external force keep outwardly directed state, when applied external force is controlled the inside indentation of driving force Receiver 50a during in the control gear of handle box C always.

Embodiment bis-

In embodiment bis-, handle box built-in (driving force receiving element one) coordinates control gear.

As shown in Figure 20 to Figure 23, it is the structural representation of control gear in the present embodiment two.

In embodiment bis-, control gear comprises: the first push pedal 400, the second push pedal 300, driving stem 560, traction element 520, pulley 510, elastic component 530 etc.

The traction element 520 using in the present embodiment two, pulley 510, elastic component 530 and the structure in embodiment mono-and the position in handle box C arrange basically identical, no longer repeat here.The first push pedal 400 is provided with compels pushing surface 420 (being outside surface), and on relative inside surface, is provided with projection 440, angled protrusions 460, spacing preiection 430.The second push pedal 300 is provided with compels pushing surface 320 (outside surface), and on relative inside surface, is provided with projection 340, angled protrusions 360, spacing preiection 330.Driving stem 560 is provided with towing pad 561, the first inclined-plane 564, the second inclined-plane 563 and pilot hole 565, and the vergence direction on its first inclined-plane 564 and the second inclined-plane 563 is contrary.The assembly relation of above-mentioned part and the rigging position in handle box C assembly relation and the rigging position in can reference example one.In addition, driving stem 560 is positioned on the cylinder 230 of the first housing 200 inside by the pilot hole 565 of self, the shape of its pilot hole 565 (being preferably ellipticity), for limiting the displacement of driving stem 560, makes the moving direction of driving stem 560 substantially keep movement in the axial direction.

In embodiment bis-, the enforcement course of action of its control gear is with the key distinction point of the enforcement course of action in embodiment mono-: when the first push pedal 400 is under the effect of thrust F1, the first push pedal 400 is moved, its dip plane 460 is subjected to displacement driving stem 560 with the first mutual butt in inclined-plane 564 on driving stem 560, and driving stem 560 is due to the displacement restriction of above-mentioned (pilot hole 565 is positioned cylinder 230), makes driving stem 560 substantially can only carry out (axially) towards direction X1 and move.Same, when the second push pedal 300 is under the effect of thrust F2, the second push pedal 300 is moved, the second mutual butt in inclined-plane 563 on its dip plane 360 and driving stem 560, make the displacement of driving stem 560 consistent with above-mentioned implementation process, substantially can only carry out (axially) towards direction X1 and move.Finally, driving stem 560 moves enforcement towards direction X1 displacement in the situation that, consistent with the course of action in embodiment mono-, makes the driving force Receiver 55 of (driving force receiving element one) realize inside indentation campaign.In addition, and when thrust (F1, F2) is no longer carried out applied thrust to push pedal (300,400), 530 of the elastic components in handle box C side provide elastic force that it is moved towards direction Y2 to pressing lever 550, and the traction element 520 being connected with pressing lever 550 also pulls driving stem 560 simultaneously, make it towards direction X2, realize and move axially (direction X2 is contrary with direction X1).

Embodiment tri-

In embodiment tri-, handle box built-in (driving force receiving element two) coordinates to be controlled.As shown in Figure 24 to 26b, be the section processes box structure of the present embodiment three and the schematic diagram of this control gear thereof.As shown in figure 24, the axial one end of handle box C is provided with the first protecting cover 220, and its top is provided with the second protecting cover 230, its first protecting cover 220 and the second protecting cover 230 for the protection of its control structure avoid because of external force impaired.

According to above-mentioned control gear, control gear comprises: swing element 250, connecting link 280, swing arm etc. 270.Swing element 250 is long strip-board shape substantially, and near near an axial side, an assembling position 251 being set, assembling position 251 is shaped as through hole, and swing element 250 is at least also provided with a cantilever, is provided with pilot hole 253 and location division 254 on cantilever; Connecting link 280 is provided with that the first assembling position 281 and 282, the first assembling positions 281, the second assembling position are arranged on one end of connecting link 280 and it is shaped as projection shape, and the second assembling position 282 is arranged on the other end of connecting link and it is shaped as projection or shrinkage pool; Swing arm 270 is provided with the first assembling position 273 and the second assembling position 271 equally, one end that the first 273 of assemblings are arranged on swing arm 270 and its are shaped as projection or shrinkage pool, the second assembling position 271 is arranged on the other end of swing arm 270 and it is shaped as projection or shrinkage pool, between the first assembling position 273 and the second assembling position 271, be also provided with one for making swing arm 270 realize the location division 272 of lever swing, projection or shrinkage pool can be arranged in location division 272.

The rigging position of above-mentioned control gear C in handle box is: swing element 250 is arranged on the end of the first housing 200 of handle box C, its swing element 250 is arranged in the projection 203 of the first housing 200 ends swingably by pilot hole 253, the first assembling position 281 of connecting link 280 coordinates with the assembling position 251 of swing element 250, the second assembling position 282 of connecting link 280 coordinates with the first assembling position 273 of swing arm 270, the second assembling position 271 of swing arm 270 finally coordinates with the assembling position 553 (being shaped as projection or shrinkage pool) on pressing lever 550 surfaces, the location division 272 of its swing arm 270 is coordinated swingably by the projection 202 of the axial one end of handle box C.Between swing element 250 and the first housing 200, be also provided with one for making swing element 250 realize the elastic component 98 that reply position, elastic component 98 is preferably torsion spring, one end of torsion spring is resisted against the surface of the first housing 200, and the other end of torsion spring is resisted against in the groove 255 of swing element.In addition, on the surface of shell near the first housing 200 of swing element 250, be provided with a recess 241, the hand-held region that this recess 241 provides during to electronic imaging apparatus at installing process cartridge C for ease of user.

As Figure 25 a, shown in Figure 25 b, the enforcement course of action of the control gear in above-described embodiment three is: user is when using handle box C, by user's application of force, moving swing element 250 makes swing element 250 as fulcrum, be counterclockwise D1 by pilot hole 253 to rotate, the first assembling position 281 of 251 tractive connecting link 280 one end, assembling position of swing element 250 makes connecting link 280 move (reference direction Y1) to the first housing 200 rears, the second assembling position 282 in connecting link 280 other ends pulls the first assembling position 273 of swing arm 270 one end to make swing arm 270 as fulcrum, be counterclockwise D3 by location division 272 to rotate simultaneously, the second assembling position 271 in swing arm 270 other ends promotes pressing lever 550 makes pressing lever 550 move forward towards direction Y2, and the positioning convex 550a of mobile pressing lever 550 promotes the rotation that the action cover 51 in (driving force receiving element two) makes action cover 51 produce clockwise direction L1, finally compel to push away the action that driving force Receiver 55 is realized inside indentation vertically.

As shown in Figure 26 a, Figure 26 b, and when user is when no longer the application of force is at swing element 250, its elastic component 98 discharges elastic force to be made swing element 250 as fulcrum, be clockwise direction D2 rotation by pilot hole 253 to return back to the predeterminated position of swing element 250 before stressed; 530 of the elastic components of handle box C side provide the urgent depression bar 550 that pushes of elastic force to move towards direction Y1 to pressing lever 550 in addition, the positioning convex 550a of pressing lever 550 pulls the second assembling position 271 of swing arm 270 to make swing arm 270 be clockwise direction D4 rotation and returns back to predeterminated position, and the first assembling position 271 of last swing arm 270 also pulls the second assembling position 282 of connecting link 280 to return back to predeterminated position.Simultaneously because the Y1 of pressing lever 550 moves the action cover 51 pulling in (driving force receiving element two), make action cover 51 produce the counterclockwise rotations of R1, last driving force Receiver 55 receives to the elastic force of spring 56 and realizes vertically outwardly directed action.

In the above embodiments three, swing element 250 when being rotated, the axle almost parallel of the turning axle z1 of its swing element 250 and the axle of developing element 40 or photo-sensitive cell 50.

In the above embodiments three, swing element 250 when being rotated to a direction, is controlled the inwardly indentation vertically of its driving force Receiver 55; When swing element 250 is rotated by the direction to above-mentioned opposite direction, control its driving force Receiver 55 protruding vertically.

Embodiment tetra-

In embodiment tetra-, handle box built-in (driving force receiving element two) coordinates to be controlled.

As shown in Figure 27 to 30, be the section processes box structure of the present embodiment four and the schematic diagram of this control gear thereof.

The first protecting cover 220 in the present embodiment four and the position of the second protecting cover 230 can be with reference to the settings in embodiment tri-.

Control gear in the present embodiment four comprises: use as the first push pedal 400, the second push pedal 300 and driven wheel 570 in embodiment mono-(or embodiment bis-); Use as the swing arm 270 in embodiment tri-, pressing lever 550; Control gear also comprises: driving stem 590, auxiliary drive gear 580, connecting rod 260.Driving stem 590 one end are provided with the first tooth bar 591, and the other end is provided with the second tooth bar 592, the first tooth bars 591 and the second tooth bar 592 oppositely arranges; Auxiliary drive gear 580 is provided with the first gear 581, the second gear 582 and pilot hole 583; Connecting rod 260 is provided with tooth bar 262, assembling position 261 (projections).

Here, the first push pedal 400, the second push pedal 300 and the rigging position of driven wheel 570 in the first housing 200 of the use in embodiment tetra-can be with reference to the rigging positions in embodiment mono-; The swing arm 270 of the use in embodiment tetra-and pressing lever 550 rigging position in the first housing 200 can be with reference to the rigging position in embodiment tri-; The rigging position of above-mentioned part is no longer repeated.

The rigging position of above-mentioned remaining part in handle box C is: driving stem 590 is arranged between the first push pedal 400 and the second push pedal 300, the first tooth bar 591 of its driving stem 590 meshes with the second gear 572 of driven wheel 570, and the second tooth bar 592 of driving stem 590 meshes with the first gear 581 of auxiliary drive gear 580, auxiliary drive gear 580 is arranged in the first housing 200 and by projection 204 location, the second gear 582 of auxiliary drive gear 580 meshes with the tooth bar 262 of connecting rod 260, the assembling position 261 of last connecting rod 260 coordinates with the first assembling position 273 of swing arm 270 one end.

As shown in figure 30, the enforcement course of action of the control gear in above-described embodiment four is: the course of action of the first push pedal 400 in reference example one, the second push pedal 300, driven wheel 570, when user's applied thrust F1 (in urgent pushing surface 420) compels to push away the first push pedal 400 or/and thrust F2 (in urgent pushing surface 320) compels to push away the second push pedal 300 while moving, the tooth bar (310/410) in push pedal (300/400) meshes and makes its rotation with the first gear 571 of driven wheel 570.Simultaneously, the second gear 572 rotating meshes and drives driving stem 590 mobile towards direction X1 (axially) with the first tooth bar 591 on driving stem 590, the second tooth bar 592 of its driving stem 590 drives the first gear 581 of auxiliary drive gear 580 that auxiliary drive gear 580 is rotated, and the second gear 582 rotating tooth bar 262 engagements drivening rod 260 same and connecting rod 260 move towards Y1 direction, the assembling position 261 of connecting rod 260 pulls the first assembling position 273 of swing arm 270 to make swing arm 270 be counterclockwise D3 rotation.Swing arm 270 by with the coordinating of pressing lever 550, and pressing lever 550 is by finally compeling to push away with coordinating of action cover 51 action that driving force Receiver 55 is in axial direction realized inside indentation.

Course of action in the action reference embodiment tri-of the action cover 51 in above-mentioned swing arm 270, pressing lever 550 and (driving force receiving element two).When user is no longer during the application of force, driving force Receiver 55 reception to the elastic force of spring 56 in (driving force receiving element two) are in axial direction realized outwardly directed action, the course of action that the course of action that returns back to predeterminated position of all the other elements can reference example one, mention in embodiment tri-, no longer repeats here.

Embodiment five

In embodiment five, handle box built-in (driving force receiving element two) coordinates to be controlled.

As shown in Figure 31 to 34, be the handle box structure of the present embodiment five and the schematic diagram of this control gear thereof.

As shown in figure 31, control gear is arranged on the first housing 200 swingably, control gear 600 comprises travel(l)ing rest 605, the axial two ends of travel(l)ing rest 605 are provided with cantilever 605a, cantilever 605a is provided with projection 610, wherein at least one cantilever 605a, be also provided with an arm of force 620, the described arm of force 620 forwards extends towards direction Y2, is provided with a projection 621 on its arm of force 620.Meanwhile, in the present embodiment five, the circumferential surface of the action of its (driving force receiving element two) cover 51 is also provided with a cantilever 51c, and described cantilever 51c rearward extends towards direction Y1, is provided with a chute 51d on its cantilever 51c.At the axial two ends of the first housing 200, be also provided with the shrinkage pool 207 for coordinating with projection 610, at the end of the first housing 200, be also provided with a recess 200a, described recess 200a can be used for taking in travel(l)ing rest 605.

The rigging position of above-mentioned control gear 600 in handle box is: travel(l)ing rest 605 is arranged on the end of the first housing 200 of handle box C, and travel(l)ing rest 605 is arranged swingably with the shrinkage pool 207 at the first housing 200 two ends and coordinated by the projection 610 on axial two ends cantilever 605a.Projection 621 on its arm of force 620 coordinates with the chute 51d in a cantilever 51c on action cover 51, and described chute 51d is for limiting the scope of activities of projection 621.Finally shaft bearing plate 110 is mounted on action cover 51.

As shown in Figure 33, Figure 34, the enforcement course of action of the control gear 600 in above-described embodiment five is:

Implement action 1: when user's application of force is pressed travel(l)ing rest 605 and made travel(l)ing rest 605 be counterclockwise D1 rotation by the projection 610 on cantilever 605a as fulcrum, perk is positioned at the arm of force 620 on cantilever 605a, the arm of force 620 is moved up because of lever principle.Because of moving up of the arm of force 620, its projection 621 being engaged in chute 51d promotes the rotation that cantilever 51c makes action cover 51 produce clockwise direction L1 simultaneously, finally compels to push away the action that driving force Receiver 55 is in axial direction realized inside indentation.

Implement action 2: when user's application of force promotes travel(l)ing rest 605 and makes travel(l)ing rest 605 be clockwise direction D2 rotation by the projection 610 on 605a on cantilever as fulcrum, make to be positioned at the arm of force 620 on cantilever 605a and move down because of the rotation of travel(l)ing rest 605.Because of moving down of the arm of force 620, it is engaged in projection 621 in chute 51d and promotes cantilever 51c simultaneously and make action cover 51 produce the counterclockwise rotations of R1, and last driving force Receiver 55 receives to the elastic force of spring 56 and in axial direction realizes outwardly directed action.

In embodiment five, mainly finally to make driving force Receiver 55 realize inside indentation and finally to make driving force Receiver 55 realize protruding by promoting travel(l)ing rest 605 by pressing travel(l)ing rest 605, the width L01 of its chute 51d is directly proportional to the swingable angle R01 of travel(l)ing rest 605, width L01 is wider, and angle R01 is larger.

In addition, one elastic component 98 can also be set between the first housing 200 and travel(l)ing rest 605 makes travel(l)ing rest 605 can " automatically " complete above-mentioned enforcement action 2 after user's application of force completes enforcement action 1, the setting of elastic component 98 positions can reference example three, Figure 24.

In the above embodiments five, travel(l)ing rest 605 when being rotated, the axle almost parallel of the turning axle z2 of its travel(l)ing rest 605 and the axle of developing element 40 or photo-sensitive cell 50.In the above embodiments five, its travel(l)ing rest 605 when being rotated to a direction, is controlled driving force Receiver 55 inwardly indentations vertically; While being rotated to the direction with above-mentioned opposite direction, control driving force Receiver 55 protruding vertically.

Embodiment six

In embodiment six, handle box built-in (driving force receiving element two) coordinates to be controlled.

As shown in Figure 35 to 37, be the handle box structure of the present embodiment five and the schematic diagram of this control gear thereof.

As shown in Figure 35 and Figure 36, control gear comprises: the first push pedal 700.The projection 740 of the urgent pushing surface 720 of the first push pedal 700 (being outside surface), inside surface and spacing preiection 730 can arrange with reference to structure and the position in handle box C of the first push pedal 400 in embodiment mono-, no longer repeat here.Different: on one end of the first push pedal 700 (Width), be also provided with a cantilever 710, cantilever 710 coordinates with the pilot hole 555 on pressing lever 550 by being positioned at the assembling projection 715 of front end.550 of pressing levers are connected with action cover 51 by positioning convex 550a.In addition, between the first push pedal 700 and the first housing 200, be also provided with elastic component 530.

As shown in figure 37, the enforcement course of action of the control gear 700 in above-described embodiment six is: when user's applied thrust F1 (in urgent pushing surface 720) compels to push away the first push pedal 700 and moves along Y2 direction, its cantilever 710 in first push pedal 700 one end also moves towards direction Y2.Now coordinate cantilever 710 to promote pressing lever 550 with pressing lever 550 moves forward towards direction Y2 simultaneously.And the positioning convex 550a of mobile pressing lever 550 promotes the rotation that the action cover 51 in (driving force receiving element two) makes action cover 51 produce clockwise direction L1, finally compel to push away the action that driving force Receiver 55 is realized inside indentation vertically.

And when user is not in the application of force during in the first push pedal 700, elastic component between the first push pedal 700 and the first housing 200 530 discharges elastic force compels to push away the first push pedal 700 and moves (along Y1 direction, moving) and return back to the predeterminated position before stressed, and the cantilever 710 of the first push pedal 700 also pulls pressing lever 550 to move backward towards direction Y1 simultaneously.In addition, the elastic component 530 in handle box C side also provides the urgent depression bar 550 that pushes of elastic force to move towards direction Y1 to pressing lever 550.The finally movement because of pressing lever 550 pulls the action cover 51 in (driving force receiving element two) to make action cover 51 produce the counterclockwise rotations of R1, and last driving force Receiver 55 receives to the elastic force of spring 56 and realizes vertically outwardly directed action.

In addition, the cantilever 710 of the first above-mentioned push pedal 700 can independently separate with pressing lever 550, can be also integrated injection molding.

Here, for making handle box C user when being fit into electronic imaging apparatus easily apply applied external force to handle box C, make driving force Receiver 55 realize axially inwardly indentation.Force application element in the above embodiments one to six (the first push pedal 400/700, swing element 250, travel(l)ing rest 605) is all positioned at the shell end of the first housing 200 of handle box C, and auxiliary force application element (the second push pedal 300) is arranged on recess 240 places of the first housing 200.In addition, the elastic component 530 in above-described embodiment can be used spring, or uses magnet or elastic sponge to replace.

In the above-described embodiment, what embodiment mono-, two was used is that (driving force receiving element one) coordinates control gear, and embodiment tri-, four, five, six uses is that (driving force receiving element two) coordinates control gear.

It should be noted that the position of its inner driver element 800 is relatively to fix on the different electronic imaging apparatus of some structure type.User, handle box C is fit in the process of electronic imaging apparatus, the driving force Receiver 55 of handle box C forms constructive interference (being generally the interference on the installation direction of handle box C) by driver element with electronic imaging apparatus, cause handle box C not to be fit in electronic imaging apparatus exactly, and driving force Receiver 55 is also difficult to mesh development work with driver element 800.Therefore,, in the situation that keeping electronic imaging apparatus structure constant, the inner structure of handle box C is improved and made driving force receiving element can mesh and receive preferably the driving force of rotation with driver element.

Therefore,, by control gear and the setting of driving force receiving element one/bis-in handle box of above-described embodiment one to six, make handle box C its driving force Receiver 55 in the situation that not having applied external force to apply keep stretching out state always.At installing process cartridge C, enter in the process of electronic imaging apparatus, control gear to be applied to applied external force and finally make driving force Receiver 55 inwardly indentation vertically, avoided forming constructive interferences or collision mutually with driver element 800 in installation process.After being fit into electronic imaging apparatus completely, handle box C no longer handle box is applied to applied external force (being that applied external force disappears), 55 of driving force Receivers obtain that elastic force to handle box C contained spring 56 is protruding meshes and receive the driving force of rotation, participation development work with driver element 800.

(effect of utility model)

As discussed above, according to the utility model, can provide a kind of flexible control gear of driver element and handle box thereof controlled.

According to the utility model, make the driving force Receiver of handle box in the situation that can realizing axial stretching, make driving force Receiver can make driving force Receiver axially realize stretching without the oppressive force producing between the door closure by electronic imaging apparatus or all the other inner structures and handle box and mesh with driver element.

By embodiment, the utility model is illustrated above, but the utility model is not limited only to this, also contains the various distortion of doing according to thought of the present utility model in the scope of the technical solution of the utility model.

Claims

1. a handle box, this handle box is removably mounted on electronic imaging apparatus, and described handle box comprises the first housing, developing element, driving force receiving element and control gear; Described driving force receiving element comprises driving force Receiver and action cover, the action cover that described control gear is controlled driving force receiving element make the driving force Receiver of driving force receiving element carry out axial stretching with electronic imaging apparatus in driver element engagement drive; It is characterized in that:

Described control gear comprises force application element, described force application element stretches described driving force Receiver by obtaining applied external force vertically, and the direction that described force application element is fit into electronic imaging apparatus with respect to handle box is arranged on the shell end of described handle box the first housing.

2. handle box according to claim 1, it is characterized in that, described force application element is the first push pedal, described the first push pedal is provided with urgent pushing surface, the urgent pushing surface of described the first push pedal makes the inwardly indentation vertically of driving force Receiver by receiving thrust, and the direction that described thrust applies is identical with the direction that handle box is fit into electronic imaging apparatus.

3. handle box according to claim 2, is characterized in that, the urgent pushing surface of described the first push pedal arranges outwardly with respect to the first housing.

4. according to the handle box described in claim 2 or 3, it is characterized in that, at the shell end place that approaches the first housing of handle box, one recess is set.

5. handle box according to claim 4, it is characterized in that, also comprise the second push pedal, described the second push pedal is arranged on recess place, described the second push pedal is provided with urgent pushing surface, the urgent pushing surface of described the second push pedal makes the inwardly indentation vertically of driving force Receiver by receiving thrust, and the direction that the direction that described thrust applies is dismantled from electronic imaging apparatus with handle box is identical.

6. handle box according to claim 5, is characterized in that, the urgent pushing surface of described the first push pedal and the urgent pushing surface of the second push pedal towards roughly contrary.

7. handle box according to claim 3, is characterized in that, one end of described the first push pedal is also provided with a cantilever, and described cantilever makes the inwardly indentation vertically of driving force Receiver by receiving above-mentioned thrust.

8. handle box according to claim 7, it is characterized in that, also comprise a pressing lever, described cantilever coordinates push pull maneuver cover make driving force Receiver realize vertically inside indentation or realize outwardly directed action with pressing lever, described cantilever and pressing lever be independently separate or integrated injection molding.

9. according to the handle box described in claim 2 or 5, it is characterized in that, in the first housing of handle box, be provided with an elastic component, when no longer to the first push pedal or/and during the urgent pushing surface applied thrust of the second push pedal, elastic component release elastic force compels to push away the first push pedal or/and the second push pedal moves to stressed front predeterminated position, and described driving force Receiver is protruding vertically.

10. handle box according to claim 1, is characterized in that, described force application element is rotatably installed on the first housing, the axle almost parallel of the turning axle of described force application element and the axle of developing element or photo-sensitive cell.

11. handle boxes according to claim 10, is characterized in that, described force application element when being rotated to a direction, is controlled the inwardly indentation vertically of described driving force Receiver.

12. handle boxes according to claim 10, is characterized in that, when described force application element is rotated by the direction to above-mentioned opposite direction, control described driving force Receiver protruding vertically.

13. according to the handle box described in claim 11 or 12, it is characterized in that, described force application element is travel(l)ing rest, and described travel(l)ing rest is provided with cantilever, and described travel(l)ing rest coordinates with the first housing swingably by cantilever.

14. handle boxes according to claim 13, is characterized in that, the cantilever of described travel(l)ing rest is also provided with an arm of force, and described action is arranged with a cantilever; The arm of force of described travel(l)ing rest coordinates and controls the inwardly indentation or protruding vertically vertically of driving force Receiver with the cantilever of action cover.

15. handle boxes according to claim 14, is characterized in that, the end of described the first housing is also provided with a recess, and described recess can be taken in described travel(l)ing rest.

16. require the handle box described in 3 or 6 or 11 according to claim, it is characterized in that, described handle box is also provided with a pressing lever, described force application element is passed to described pressing lever by the applied external force of acquisition, and described pressing lever promotes or pulling action cover makes the inwardly indentation or protruding vertically vertically of driving force Receiver.