CN205003443U - Developer feeding container - Google Patents

Abstract

The utility model provides a for device body (100A) loading and unloading developer feeding container (1) freely, this developer feeding container (1) possesses: the developer portion of acceping (2), heliciform groove (2a), discharge port (7a), gear (3a) from device body (100A) input rotary driving power, connect in discharge port (7a) pump (5), the rotary driving power transform that to be inputed gear (3a) is cam mechanism (77) of pump (5) flexible power, and protection component (6) of the protection developer portion of acceping (2), cam mechanism (77) have cam groove (3b) and come and go round component (4) of removing with cam groove (3b) block, protection component (6) have with the rotation center axis (J) with the developer portion of acceping (2) roughly unanimous axle be the cylinder face (6a) at center, restrict guide portion (6b) that round component (4) rotate from cylinder face (6a) orientation side with forming highlightedly.

Description

Developer feeding container

The divisional application that the application is the applying date is on February 13rd, 2015, application number is the utility application " developer feeding container " of 201520107333.4.

Technical field

The utility model relates to the developer feeding container that can load and unload relative to the device for supplying of developer.This developer feeding container can be used in such as duplicating machine, facsimile recorder, printer and in the image processing system such as the compounding machine with multiple above-mentioned functions.

Background technology

In the past, in the image processing systems such as electrophotographic copier, use the developer of fine powder.In such image processing system, the developer that can be consumed along with image formation is from developer feeding container supply.As such developer feeding container in the past, such as, there is the developer feeding container of Japanese Unexamined Patent Publication 2013-15826 publication.

In the developer feeding container that Japanese Unexamined Patent Publication 2013-15826 publication is recorded, adopt the driving mapping device rotary driving force be transfused to from developer supply device being transformed to the power of reciprocating.In addition, drive mapping device to have the rotary driving force utilizing and be transfused to from developer supply device and the cam path rotated and engage with cam path and carry out the round component of round action along the track of groove.

In addition, in the developer feeding container that Japanese Unexamined Patent Publication 2013-15826 publication is recorded, have and prevent round component self from carrying out the guide portion rotated along with the rotation of cam path.In addition, guide portion is located at the inner side of the protection component of protection developer feeding container.

, when the structure adopting Japanese Unexamined Patent Publication 2013-15826 publication to record, problem described later is worried.Such as, when falling because of developer feeding containers such as logistics, very large load being applied to the protection component of protection developer feeding container, the destruction etc. of part can be caused, therefore, need the intensity being improved part by material altering etc.In this case, material altering and cost may be brought to improve.

Utility model content

The developer feeding container that the purpose of this utility model is to provide the intensity that can make protection component to improve.

According to the utility model, provide a kind of developer feeding container, it is for filling developer, can load and unload relative to device body, and wherein, this developer feeding container possesses: resettlement section, has opening in its one end, at the inside collecting developer of this resettlement section; Driving force receiving portion, it accepts driving force from the drive division being located at said apparatus body and rotates; Conveying unit, it accepts driving force from above-mentioned driving force receiving portion, transports the developer of the inside of above-mentioned resettlement section; Escape hole, it discharges the developer transported by above-mentioned conveying unit; Pump, it is connected to and plays a role relative to above-mentioned escape hole, can change the volume of the inside corresponding to above-mentioned resettlement section by stretching; Driving force mapping device, the rotary driving force being imported into above-mentioned driving force receiving portion is transformed to the flexible power of said pump by it; And lid component, it covers above-mentioned driving force mapping device,

Above-mentioned driving force mapping device has cam path and round component, this round component and above-mentioned cam path card are incorporated in and reciprocate on the direction of the rotation center of above-mentioned resettlement section, above-mentioned lid component has: cylindrical portion, and it is centered by the axle that the rotation center axis with above-mentioned resettlement section is roughly consistent; And guide portion, it is given prominence to along radial direction from the surface of above-mentioned cylindrical portion relative to above-mentioned axle, limits above-mentioned round component and rotates, guide the movement of above-mentioned round component.

Further, in developer feeding container of the present utility model, guide sections is extended along the length direction of above-mentioned lid component.

The intensity of protection component can be made to improve according to developer feeding container of the present utility model.

Further object of the present utility model can become clearer by the following description.

Accompanying drawing explanation

Fig. 1 is the cut-open view of image processing system.

Fig. 2 is the stereographic map of the installation portion installing developer feeding container.

Fig. 3 is the stereographic map etc. of the developer feeding container be installed on installation portion.

Fig. 4 is the stereographic map of the developer feeding container having unloaded protection component.

Fig. 5 is the stereographic map of driving force receiving portion.

Fig. 6 is formed in the stretch-out view of the cam path of driving force receiving portion.

Fig. 7 is the stereographic map coming and going component from top view.

Fig. 8 is the vertical view of the body flange side of the developer feeding container that protection component has been removed.

Fig. 9 is the stereographic map etc. of protection component 6.

Embodiment

Below, with reference to accompanying drawing, illustratively describe in detail for implementing mode of the present utility model based on embodiment.But, be described in the size of the constituent part of this embodiment, material, shape, its relative position etc. according to the structure of the device of application utility model, the suitable change of various condition, so as long as no especially specifically recording, just the scope of utility model can not be defined in these embodiments.

Embodiment 1

Fig. 1 is the cut-open view of image processing system 100.As shown in Figure 1, image processing system 100 has device body 100A.Developer supply device 201 is loaded in the inside of device body 100A.Developer supply device 201 is by installing developer feeding container 1 (so-called toner Cartridge) with can loading and unloading (can dismantle) and being configured.Below, as an example of image processing system 100, the formation of the duplicating machine (electronic photographic image forming device) that have employed electrofax mode is described.

First, the structure on the top of device body 100A is described.Original copy 101 is positioned on manuscript table glass 102.The light image corresponding to the image information of original copy 101, utilizes multiple mirror M and the lens Ln in optics portion 103, the photoconductor drum 104 as " as holder " surperficial imaging and form electrostatic picture.

At the right of photoconductor drum 104 configuration developer supply device 201.The developer 201a (single component development device) that developer supply device 201 has dry type and the developer feeding container 1 be installed on installation portion 10.The toner (single component magnetic toner) as developer T (dry powder) is received in developer 201a and developer feeding container 1.The electrostatic picture on the surface of photoconductor drum 104 is developed by the toner of developer 201a and is visualized.In addition, here, as from developer feeding container 1 by the developer of supply, being described with the example of single component magnetic toner, but also can being not limited to this example, also can be formation described later.

Specifically, when adopting use single component nonmagnetic toner to carry out the single component development device developed, as developer supply single component nonmagnetic toner.In addition, when the two-component developing agent adopting use to be mixed with magnetic carrier and nonmagnetic toner carries out the dual component development device developed, as developer supply nonmagnetic toner.In addition, in this case, as developer, also can by magnetic carrier also supply in the lump together with nonmagnetic toner.

Then, the structure of the bottom of device body 100A is described.Recording materials (hereinafter also referred to " sheet material ") P is accommodated in box 105 ~ 108.Based in the sheet material P be loaded in these boxes 105 ~ 108, the sheets of sizes of information that operator (user) inputs from the liquid crystal operation portion of device body 100A or original copy 101, select optimal box.Be not limited to paper as recording materials here, such as, can be suitable for using, selecting OHP sheet material etc.

Further, 1 the sheet material P transported by feeding tripping device 105A ~ 108A, is transported to alignment roller 110 via conveying unit 109, the opportunity of the scanning in the rotation of photoconductor drum 104 and optics portion 103 is synchronously transported.

At the below of photoconductor drum 104 configuration transfer belt electrical equipment 111 and separating belt electrical equipment 112.Here, by transfer belt electrical equipment 111, the picture of developer that utilizes be formed on photoconductor drum 104 is transferred on sheet material P.Then, by separating belt electrical equipment 112, the sheet material P transferred with developer picture (toner image) is separated from photoconductor drum 104.

Afterwards, on the sheet material P transported by conveying unit 113, in fixing device 114, utilizing heat and pressure, after the developer picture on sheet material is fixed, when single-sided copying, by discharging turning part 115, being discharged to discharge tray 117 by distributing roller 116.

In addition, when double-sided copying, a part, by discharging inversion portion 115, is once discharged by distributing roller 116 by sheet material P outside device body 100A.And afterwards, the terminal of sheet material P is by catch 118, and be still discharged the opportunity of roller 116 clamping, make distributing roller 116 reverse together with the control of catch 118, thus, sheet material P is transported again in device body 100A.And afterwards, via feeding after conveying unit 119,120 is transported to alignment roller 110 again, along the route same with the situation of single-sided copying, be discharged to discharge tray 117.

In addition, around photoconductor drum 104, be provided with the image formation processing equipment such as a charged device 203, the developer 201a as developing parts, the remover portion 202 as cleaning member as live part.A charged device 203, in order to form the electrostatic picture of hope on photoconductor drum 104, makes uniformly charged.Developer 201a, based on the image information of original copy 101, makes developer be attached to optics portion 103 and is formed in the electrostatic picture on photoconductor drum 104 and develops.The developer remained on photoconductor drum 104 is removed in remover portion 202.

Developer supply device 201 has: installation portion (installing space) 10, installs developer feeding container 1 with can dismantling (can load and unload); Hopper 10a, temporarily stores the developer be discharged from developer feeding container 1; And developer 201a.As shown in Figure 2, developer feeding container 1 is installed on arrow M direction relative to installation portion 10.That is, be installed on installation portion 10 in the mode that the length direction of developer feeding container 1 (rotation direction) is roughly consistent with this arrow M direction.

Developer 201a has developer roll 201f, agitating member 201c, transfer member 201d, 201e.Further, be stirred component 201c from developer feeding container 1 by the developer of supply and stir, be transferred component 201d, 201e and be transported to developer roll 201f, be supplied to photoconductor drum 104 by developer roll 201f.

(developer supply device)

Fig. 2 is the stereographic map of the installation portion 10 installing developer feeding container 1.At installation portion 10, be provided with sense of rotation limiting unit (maintaining body) 11, abut with the body flange 7 (with reference to Fig. 3 (a)) of " non-rotary body " as developer feeding container 1 when this sense of rotation limiting unit (maintaining body) 11 is mounted by developer feeding container 1 and for the movement of limit flange body 7 to sense of rotation.

In addition, installation portion 10 has when developer feeding container 1 is mounted, be communicated with the escape hole 7a (with reference to Fig. 3 (b)) of developer feeding container 1 described later, and for accepting the developer receiving port 13 of the developer be discharged from developer feeding container 1.Further, developer passes through developer receiving port 13 from the escape hole 7a of developer feeding container 1, to developer 201a (with reference to Fig. 1) supply.

In addition, installation portion 10 as shown in Figure 2, has the driven wheel 300 played a role as driving mechanism (drive division).This driven wheel 300 has passs rotary driving force from CD-ROM drive motor (not shown) via driven wheel biographies, and to be in be arranged on installation portion 10 state under developer feeding container 1 give the function of rotary driving force.

(installation/removing method of developer feeding container)

Fig. 3 (a) is the stereographic map of the developer feeding container 1 be installed on installation portion 10.Fig. 3 (b) is the back view representing developer feeding container 1 from the arrow XX direction of Fig. 3 (a).Here, the installation/removing method of developer feeding container 1 is described.First, operator opens and changes lid (not shown), and the installation portion 10 to the developer supply device 201 shown in Fig. 2 inserts and installs developer feeding container 1 (with reference to Fig. 3 (a)).Along with this installation action, the body flange 7 of the developer feeding container 1 shown in Fig. 3 (a) is kept, is fixed on installation portion 10.

Afterwards, operator closes and changes lid, and installation procedure terminates thus.Afterwards, control CD-ROM drive motor by control device 600, driven wheel 300 rotated on suitable opportunity.

On the other hand, the developer in developer feeding container 1 becomes empty, operator opens and changes lid, takes out developer feeding container 1 from installation portion 10.Then, pre-prepd new developer feeding container 1 inserted to installation portion 10 and installs, and closing and change lid, thus being fetched into the replacing end of job of installing again from developer feeding container 1.

(developer feeding container)

Fig. 4 is the stereographic map of the developer feeding container 1 having unloaded protection component 6.Developer feeding container 1 is relative to device body 100A detachably filling developer.Below, with reference to this figure and Fig. 3, developer feeding container 1 is described.Developer feeding container 1, as shown in Fig. 3 (a), has the developer collecting receiving part 2 (also referred to as vessel) of the inner space possessed at the inside collecting developer T being formed as cylindrical shape.

In addition, developer feeding container 1 has body flange 7 (also referred to as non-rotating portion) in the end side of the length direction (developer conveyance direction) of developer collecting receiving part 2.In addition, developer collecting receiving part 2 can be formed with the relative rotation relative to this body flange 7.

Developer collecting receiving part 2 has cylindrical portion 2b and recessedly to the inside on the surface of cylindrical portion 2b is formed as spiral helicine spiral groove 2a.Rotated by developer collecting receiving part 2 self, the developer T of the inside of developer collecting receiving part 2 is transported to the direction of body flange 7 by spiral groove 2a.That is, in the present embodiment, as the developer T of the inside of the spiral groove 2a conveyance developer collecting receiving part 2 of " conveying unit ".

In addition, as described later, by accepting rotary driving force from CD-ROM drive motor 500, self rotates driving force receiving portion 3, and transmits its rotation to developer collecting receiving part 2.In addition, as described later, the developer collecting receiving part 2 of " resettlement section " as collecting developer at one end has opening, in addition, has accept driving force from the drive division being located at device body 100A and the gear part 3a that rotates in driving force receiving portion 3.

In addition, as described later, developer feeding container 1 has and the rotary driving force of driving force receiving portion 3 is transformed to driving force receiving portion 3 and developer collecting receiving part 2 to the driving mapping device 77 rotating the axial power of reciprocating.Further, body flange 7 has: as the round component 4 carrying out round action of a part for driving mapping device 77; Link with round component 4, make the pump 5 of the variable volume of developer feeding container 1 inside; And discharge the escape hole 7a being positioned at the developer T of developer feeding container 1.

Pump 5 is connected to relative to escape hole 7a effect, can change the component of the volume of the inside corresponding with developer collecting receiving part 2 by stretching.Escape hole 7a is the position of discharging the developer T transported by spiral groove 2a.Below, the structure of driving force receiving portion 3, round component 4, pump 5, driving mapping device 77 is explained successively.

(driving force receiving portion)

Fig. 5 is the stereographic map of driving force receiving portion 3, and Fig. 6 is formed in the stretch-out view of the cam path 3b of driving force receiving portion 3.Driving force receiving portion 3 has the gear part 3a played a role as driving force receiving portion that can engage (drive and link) with the driven wheel 300 (with reference to Fig. 2) of developer supply device 201.As mentioned above, become following structure: when rotary driving force is imported into gear part 3a from driven wheel 300, developer collecting receiving part 2 links with the rotation of driving force receiving portion 3 and rotates integrally.

In addition, driving force receiving portion 3 has cam path 3b.In cam path 3b, engaging has the engaging protrusion 4a (with reference to Fig. 7) of round component 4 described later.If cam path 3b self rotates, then engaging protrusion 4a reciprocates along the track of cam path 3b in the turning axle direction of cam path 3b.In addition, the setting of cam path 3b is aftermentioned.

(coming and going component)

Fig. 7 is the stereographic map coming and going component 4 from top view.Come and go component 4 and be formed as コ word shape, there is matrix part 4X and a pair arm 4b.A pair arm 4b extends on the direction vertical with the two ends of matrix part 4X.In the top ends of arm 4b, in order to engage with the cam path 3b of driving force receiving portion 3, be formed with a pair engaging protrusion 4a outstanding towards inner side.In addition, at matrix part 4X, the engaged part 4c engaged with the holding section 5b of pump 5 described later (with reference to Fig. 8 (c)) is formed.

Come and go component 4 when coming and going action, pump 5 and its interlock and stretch.In addition, round component 4 is inserted into protection component 6 along the guide portion 6b (with reference to Fig. 9) of protection component 6 described later, is limited, so come and go action on turning axle direction to sense of rotation and rightabout movement thereof.

But, owing to having gap (ガ タ, gap) between round component 4 and guide portion 6b, so can contact sound be produced.So, come and go component 4 and there is elastic 4d.Between this elastic 4d landfill guide portion 6b and round component 4, and hinder round action hardly, thus alleviate contact sound.

(pump)

Then, with Fig. 8, (can the stretch) pump 5 along with reciprocating its variable volume is described.Here, from the arrow YY direction of Fig. 4, Fig. 8 (a) represents that the pump 5 of developer feeding container 1 uses the partial enlarged drawing of the state upheld to greatest extent, from the arrow YY direction of Fig. 4, Fig. 8 (b) represents that the pump 5 of developer feeding container 1 uses the partial enlarged drawing of the state of shrinking to greatest extent.

The pump 5 of this example plays a role as the suction-exhaust mechanism making aspiratory action and exhaust event hocket via escape hole 7a (with reference to Fig. 3 (b)).In other words, pump 5 is as making by escape hole 7a towards the air-flow of the inside of developer feeding container 1 with produce mechanism from the air-flow that developer feeding container 1 air-flow alternate repetition towards the outside produces and play a role.

By adopting such pump 5, the variable volume of developer feeding container 1 can be made, and make it with the cycle alternate repetition change of regulation.Its result, can discharge from escape hole 7a the developer T being positioned at developer feeding container 1 expeditiously.Its details is described in developer supply operation.

(driving mapping device 77)

Then, the driving mapping device 77 of developer feeding container 1 is described with Fig. 8.As mentioned above, in developer feeding container 1, be provided with driving mapping device 77.Mapping device 77 is driven the rotary driving force being used for that developer collecting receiving part 2 is rotated being transfused to gear part 3a to be transformed to the flexible power of pump 5.Drive mapping device 77 to have cam path 3b and be incorporated in cam path 3b card the round component 4 that the direction along the rotation center of developer collecting receiving part 2 reciprocates.

Fig. 8 is the vertical view of body flange 7 side of the developer feeding container 1 that protection component 6 has been removed.In Fig. 8 (a), represent the state that pump 5 extends, in Fig. 8 (b), represent the state that pump 5 shrinks.

The gear part 3a receiving the driving force receiving portion 3 of rotary driving force from driven wheel 300 with rotating with the cam path 3b that the complete cycle that gear part 3a becomes to be integrated is provided with groove.Relevant this cam path 3b is aftermentioned.

It engages and has engaging protrusion 4a on the other hand in cam path 3b.Further, the round component 4 forming engaging protrusion 4a utilizes the guide portion 6b of protection component 6 (with reference to Fig. 9), is limited to sense of rotation and rightabout movement.Therefore, come and go component 4 to reciprocate on the turning axle direction of developer collecting receiving part 2 along the track of cam path 3b.

In addition, about the configuration number of engaging protrusion 4a, as long as at least arrange 1.But, due to resistance during pump 5 flexible, moment being produced, likely cannot be smoothing reciprocate in driving mapping device 77 grade, therefore, in order to not destroy the relation with cam path 3b shape described later, preferably arranging multiple.Here, engaging protrusion 4a is provided in 2 positions and engages with cam path 3b.Specifically, engaging protrusion 4a position of 180 ° from turning axle is formed opposite to each other.

That is, the cam path 3b of driving force receiving portion 3 rotates because of the rotary driving force be transfused to from driven wheel 300, thus, comes and goes component 4 along the track of cam path 3b, round action is carried out in the turning axle direction of developer collecting receiving part 2.Further, by linking with round component 4, the state that alternate repetition pump 5 is upheld and the state that pump 5 shrinks, can change the volume of developer feeding container 1 thus.

Fig. 8 (c) is the side view representing the state that pump 5 extends.Pump 5 at one end side has peristome 5a, has the holding section 5b engaged with the engaged part 4c of above-mentioned round component 4 at the other end, and has the pars contractilis 5c of the snake abdomen shape be formed between this peristome 5a and holding section 5b.In addition, the threaded portion 5d carrying out being screwed is formed in the periphery of peristome 5a.

(protection component)

Fig. 9 (a) is the stereographic map of protection component 6, and Fig. 9 (b) is the right side view of the protection component 6 observed from the arrow ZZ direction of Fig. 9 (a).Protection component 6 has barrel surface (cylindrical portion) 6a, guide portion 6b, craspedodrome face 6c, end face 6d, label 6e.The barrel surface 6a of protection component 6 is faces of the drum centered by the axle roughly consistent with the rotation center axis J of developer collecting receiving part 2 (with reference to Fig. 4).Craspedodrome face 6c extends downward from barrel surface 6a.In addition, end face 6d to connect the mode of barrel surface 6a and craspedodrome face 6c, guide portion 6b described later, rightabout that is located at the arrow ZZ direction shown in Fig. 9 (a).

In addition, protect the side, arrow ZZ direction of component 6 and following side in order to assembleability be opening shape.Further, in this example, label 6e two sides adhesive tape (not shown) is attached on end face 6d, but also can be shaping and one-body molded by intercalation.

Then, below guide portion 6b is described.Guide portion 6b is formed along radial direction from barrel surface 6a highlightedly relative to the axle roughly consistent with rotation center axis J, and restriction comes and goes component 4 and rotates.As mentioned above, guide portion 6b limits the round component 4 shown in Fig. 8 and moves to the sense of rotation of developer collecting receiving part 2 and reverse direction.Further, as shown in Fig. 9 (b), guide portion 6b is outstanding to side from barrel surface 6a.In addition, as mentioned above, by being come and gone component 4 (with reference to Fig. 7) by elastic 4d (with reference to Fig. 7) landfill and the gap (ガ タ, gap) of guide portion 6b reduces contact sound, therefore, elastic 4d and guide portion 6b abutting.

Particularly as shown in Fig. 9 (b), outstanding to side from barrel surface 6a by guide portion 6b, the situation arranging guide portion 6b with the inner side at barrel surface 6a compares, and the intensity of protection component 6 is improved.In addition, owing to protecting the intensity of component 6 to be enhanced, decrease the necessity of the intensity improving the round component 4 that protection component 6 is protected.That is, round component 4 can be reduced, cost can be contributed to and reduce.Further, guide portion 6b is extended setting along the length direction (developer conveyance direction) of protection component 6.Thus, the intensity of component 6 is protected to improve.

(imposing a condition of cam path)

With above-mentioned Fig. 6, imposing a condition of cam path 3b is described.Fig. 6 is the stretch-out view of the cam path 3b representing the driving force receiving portion 3 shown in Fig. 5.In figure 6, the extension direction that arrow A represents the sense of rotation (moving direction of cam path 3b) of developer collecting receiving part 2, arrow B represents pump 5, arrow C represent the compression direction of pump 5.The cam path 3d that cam path 3b becomes the groove used when pump 5 is upheld, the cam path 3e of groove used when pump 5 is compressed and pump 5 do not come and go the structure of the cam path 3c of action.

As mentioned above, due to the guide portion 6b of the protection component 6 shown in Fig. 9, come and go component 4 and be limited to sense of rotation and rightabout movement thereof.Therefore, the engaging protrusion 4a being located at the round component 4 shown in Fig. 7 is motionless on arrow A direction (moving direction of cam path 3b) and reverse direction thereof.That is, along with cam path 3b rotates to arrow A direction, engaging protrusion 4a moves along groove to arrow B and arrow C direction.The developer supply operation of the state that engaging protrusion 4a engages with cam path 3d, cam path 3e, cam path 3c is below described.

(developer supply operation)

Then, with above-mentioned Fig. 6, Fig. 8, the developer supply operation based on pump 5 is described.In this example, the action that the air-breathing operation (aspiratory action via escape hole 7a (with reference to Fig. 3 (b))), deairing step (exhaust event via escape hole 7a) and the pump 5 that carry out being brought by the round action of pump 5 do not carry out round action stops operation (not carrying out suction and discharge from escape hole 7a).Below, operation is stopped to air-breathing operation and deairing step, action, explains successively.

(air-breathing operation)

First, air-breathing operation (aspiratory action via escape hole 7a) is described.As mentioned above, utilize and drive mapping device 77 (cam mechanism), state (with reference to Fig. 8 (a)) displacement that the state (with reference to Fig. 8 (b)) shortened most from pump 5 is extended to pump 5 most.In addition, the inside of developer feeding container 1 becomes in fact by airtight state except escape hole 7a, and in addition, escape hole 7a becomes the state plugged in fact by developer T.

Thus, increased by the volume in developer feeding container 1, the interior pressure of developer feeding container 1 reduces, and forces down in atmospheric pressure (outer air pressure) in developer feeding container 1.In addition, now, engaging protrusion 4a engages with cam path 3d (with reference to Fig. 6), and engaging protrusion 4a is the state of having passed to arrow B (with reference to Fig. 6) direction.

Now, be positioned at air outside developer feeding container 1 due to the pressure differential inside and outside developer feeding container 1, by escape hole 7a, move in developer feeding container 1.That is, because air is taken into from developer feeding container 1 by escape hole 7a, so the developer T (making its liquidation) be positioned near escape hole 7a can be untied.

Specifically, by making the developer be positioned near escape hole 7a contain air, can volume density be reduced, making developer T suitably liquidation.Further, because air is taken in developer feeding container 1 via escape hole 7a, so the interior pressure of developer feeding container 1 changes from decompression to atmospheric pressure (outer air pressure).

(deairing step)

Then, deairing step (exhaust event via escape hole 7a) is described.As mentioned above, utilize and drive mapping device 77 (cam mechanism), state (with reference to Fig. 8 (the b)) displacement that the state (with reference to Fig. 8 (a)) of extending most from pump 5 shortens to pump 5 most.Specifically, along with this exhaust event, the volume reducing of developer feeding container 1, presses liter in developer feeding container 1, thus, presses and raise in atmospheric pressure (outer air pressure) in developer feeding container 1.In addition, now, engaging protrusion 4a engages with cam path 3e (with reference to Fig. 6), and engaging protrusion 4a is the state of having passed to arrow C (with reference to Fig. 6) direction.

Now, the air in developer feeding container 1, due to the pressure differential inside and outside developer feeding container 1, is forced out from escape hole 7a.That is, developer T is discharged from developer feeding container 1 to developer supply device 201 together with air.Further, be forced out by the air in developer feeding container 1, the internal drop of developer feeding container 1 is low, to change of atmospheric pressure.

As mentioned above, in this example, because the pump 5 that can reciprocate formula with 1 carries out the discharge of developer T expeditiously, thus simplify developer discharge needed for mechanism.

(action stopping operation)

Then, illustrate that pump 5 does not carry out the action stopping operation of round action.In this example, owing to also rotating due to inertia, so pump 5 also links with the rotation of developer collecting receiving part 2 and carries out round action until the rotation of CD-ROM drive motor 500 stops after CD-ROM drive motor 500 rotation stopping.So according to the rotating speed of CD-ROM drive motor 500, the rotation stop position of developer collecting receiving part 2 is different.That is, when being set as stopping in air-breathing operation and deairing step, the pressure of developer feeding container 1 is at every turn different.

In this example, in order to the amount of developer T is discharged to developer supply device 201 quantitatively, as the structure of the air-breathing operation of carrying out determining, deairing step at every turn, the action stopping operation that pump 5 does not carry out round action is set.That is, as mentioned above, by under the state that engages with cam path 3c at engaging protrusion 4a, the rotation of CD-ROM drive motor 500 is stopped, developer collecting receiving part 2 rotates due to the inertia of CD-ROM drive motor 500.

But, because engaging protrusion 4a moves in the cam path 3c arranged along arrow A (with reference to Fig. 6) direction, so can not to arrow B or arrow C (with reference to Fig. 6) direction displacement.That is, the air-breathing operation, the deairing step that at every turn determine with can not carrying out round action of pump 5.

In addition, when developer T not being discharged to developer supply device 201 quantitatively, also except action stops operation, only can form cam path 3b by air-breathing operation and deairing step.

As described above; in this configuration; compared with the structure being formed on the inner side of the barrel surface 6a protecting component 6 with guide portion 6b in the past, by being formed as the protruding outside structure of guide portion 6b to the barrel surface 6a of protection component 6, the intensity of protection component 6 improves.Therefore, it is possible to suppress to improve along with the cost of material altering, and suppress by the part destruction developer feeding container 1 caused such as falling.

Claims (2)

1. a developer feeding container, it is for filling developer, can load and unload, it is characterized in that relative to device body,

This developer feeding container possesses:

Resettlement section, has opening in its one end, at the inside collecting developer of this resettlement section;

Driving force receiving portion, it accepts driving force from the drive division being located at said apparatus body and rotates;

Conveying unit, it accepts driving force from above-mentioned driving force receiving portion, transports the developer of the inside of above-mentioned resettlement section;

Escape hole, it discharges the developer transported by above-mentioned conveying unit;

Pump, it is connected to and plays a role relative to above-mentioned escape hole, can change the volume of the inside corresponding to above-mentioned resettlement section by stretching;

Driving force mapping device, the rotary driving force being imported into above-mentioned driving force receiving portion is transformed to the flexible power of said pump by it; And

Lid component, it covers above-mentioned driving force mapping device,

Above-mentioned driving force mapping device has cam path and round component, and this round component and above-mentioned cam path card are incorporated in and reciprocate on the direction of the rotation center of above-mentioned resettlement section,

Above-mentioned lid component has: cylindrical portion, and it is centered by the axle that the rotation center axis with above-mentioned resettlement section is roughly consistent; And guide portion, it is given prominence to along radial direction from the surface of above-mentioned cylindrical portion relative to above-mentioned axle, limits above-mentioned round component and rotates, guide the movement of above-mentioned round component.

2. developer feeding container according to claim 1, is characterized in that,

Guide sections is extended along the length direction of above-mentioned lid component.