[0001] The present invention generally relates to a developing device for a transfer type
electrostatic copying apparatus.
[0002] More especially the invention relates to a developing device which is so arranged
that, by supplying mono-component magnetizable toner onto a developing sleeve which
is driven for rotation, magnetic brush is formed on the developing sleeve by the action
of a stationary permanent magnet provided within said developing sleeve, while the
bristle length of the magnetic brush is restricted by a bristle cutting member.
[0003] Conventionally, in the developing apparatus which is arranged to form the magnetic
brush by supplying the mono-component magnetizable toner onto the peripheral surface
of the developing sleeve to be rotated around a stationary permanent magnet, the surplus
mono-component magnetizable toner of the magnetic brush cut off by the bristle cutting
member for restricting the bristle length tends to stay stationarily at the upstream
side of the bristle cutting member along the rotational direction of the developing
sleeve, thereby to cause the mono-component magnetizable toner to be solidified, and
thus, an undesirable blocking phenomenon is liable to take place. Upon occurrence
of the blocking phenomenon as described above, the mono-component magnetizable toner
is blocked by the solidified mono-component magnetizable toner and cannot be transported
up to the developing position, thus making it impossible to effect the developing.
[0004] Meanwhile, the remaining mono-component magnetizable toner which has not been used
for the development at the developing position, is continuously rotated as it is attracted
onto the predetermined position of the developing sleeve, thereby to be magnetized
by the powerful magnetizing action from the permanent magnet, with corresponding reduction
of fluidity of the mono-component magnetizable toner. This adversely affects the condition
of brush bristles of the magnetic brush, resulting in irregular development through
reduction of the developing efficiency.
[0005] Accordingly, an object of the invention is to provide an improved developing apparatus
for use in an electrostatic copying apparatus which is capable of preventing the blocking
phenomenon of the mono-component magnetizable toner by a bristle cutting member, and
also capable of maintaining the proper fluidity of the mono-component magnetizable
toner and also uniformity in the state of formation of the brush bristles of the magnetic
brush, through solution of the technical problems as described above.
[0006] In the prior art developing device which is arranged to form magnetic brush by supplying
developing material onto a developing roller for development by rubbing a photoreceptor
against the magnetic brush, there have been such disadvantages that the developing
material accommodated in the storage container is formed into a state of lumps so
as to cause the so-called blocking phenomenon, and thus, smooth supply of the developing
material from the storage container to the developing roller is obstructed, consequently
giving rise to faulty developments such as irregular developing, insufficient developing,
etc. Especially, when a mono-component magnetizable toner is employed as the developing
material, the undesirable blocking phenomenon tends to more easily take place, since
particle diameters thereof are generally smal-1 in the region of 5 to 30ยต. For solving
the technical problems as described above, there has conventionally been proposed
an arrangement in which a stirring or agitating means to be driven by a main motor
of the electrostatic copying apparatus is provided in the storage container. However,
the known arrangement as described above also has a disadvantage in that the construction
thereof is too complicated.
[0007] Accordingly, another object of the invention is to provide an improved developing
device capable of preventing the blockina of the developing material within the storaqe
container, and also capable of supplying the developing material to the develo
pinq roller by approximately a predetermined amount through simple construction, with
substantial elimination of the technical problems inherent in the prior art arrangements
as described above.
[0008] The invention still further relates in its preferred form to a presence detection
device of a developing material in the developing device for use in an electrostatic
copying apparatus and more particularly, to a presence detection device of the developing
material in the developing device arranged to form magnetic brush by supplying developing
material onto the peripheral surface of a developing sleeve provided therein with
a stationary permanent magnet and driven for rotation.
[0009] In the typical prior art, it is so arranged to effect the detection by a light amount
detector such as a photo-cell, but in such a known arrangement, there has been a disadvantage
that such an optical detecting mechanism as described above is complicated in construction
and generally expensive.
[0010] Accordingly, another preferred object of the invention is to provide an inexpensive
presence detection device with simple construction for use in a developing device
of an electrostatic copying apparatus.
[0011] According to the invention, there is provided an improved developing device for an
electrostatic copying apparatus in which a permanent magnet having a plurality of
magnetic poles magnetized at each equal space in a peripheral direction of the permanent
magnet is coaxially secured in a hollow developing sleeve made of non-magnetic material
and driven to rotate, a one-component magnetizable toner is supplied on the developing
sleeve so as form a magnetic brush, and a bristle cutting member restricts a length
of the magnetic brush, characterized in that there is provided a blade member made
of non-magnetic material, disposed upstream along the rotational direction of the
developing sleeve at the vicinity of the bristle cutting member, inclining to separate
from the peripheral surface of the developing sleeve downstream along the rotational
direction, and contacting with the peripheral surface of the developing sleeve. The
neighboring magnetic poles are directed to have alternately opposite polar orientation,
the magnetic poles formed at a magnetized position facing the bristle.cutting member
and a magnetized position contacting with the blade member are neighboring and opposite
polarization to each other, the blade member has a construction so as to allow the
one-component magnetizable toner pass at about central position between the magnetic
pole facing the bristle cutting member and the magnetic pole contacting with the blade
member. The magnetized position contacting with the blade member has a pair of neighboring
magnetic poles with the same polarization A single magnetized position of the permanent
magnet has a pair of neighboring magnetic poles with the same polarization in an area
from a developing zone to the blade member along the rotational direction of the developing
sleeve. Alternatively, a plurality of magnetized positions of the permanent magnet
has a pair of neighboring magnetic poles with the same polarization in an area from
the developing zone to a blade member along the rotary direction of the developing
direction.
[0012] Since the blade member which is in sliding contact with the peripheral surface of
the developing sleeve is provided at the upstream side immediately before the bristle
cutting member along the rotational direction of the developing sleeve, the mono-component
magnetizable toner is flowing at all times at the upstream side of the bristle cutting
member, and accordingly, the undesirable blocking phenomenon of the mono-component
magnetizable toner by the bristle cutting member may be advantageously prevented.
Meanwhile, owing to the fact that the mono-component magnetizable toner on the developing
sleeve is once separated from the peripheral surface of the developing sleeve by the
blade member at every one rotation of the developing sleeve, the proper fluidity of
the mono-component magnetizable toner can be positively achieved, with the state of
bristle formation of the magnetic brush being uniformly maintained.
[0013] The developing material is supplied onto a developing roller having the developing
sleeve disposed in the vicinity of a photosensitive material, there are further provided,
(f) a storage container having a bottom formed in an arcuate-shape and extending downwardly,
and having a supply port opening for supply the developing material onto a peripheral
surface of the developing roller, (g) a rotary shaft provided rotatably around the
center of the arcuate bottom of the storage container, (h) a stirring and feeding
means for stirring the developing material in the storage container to supply to the
supply port, and extending radially from the rotary shaft to the vicinity of the inner
surface of the bottom of the straqe container, (
i)a ratchet wheel secured to the rotary shaft axially, (j) a rocking lever having one
end supported by a pin paralled to the rotary shaft, having the other end engaging
to associate with the developing roller, and swingable around the pin in accordance
with the rotational motion of the developing roller, and (k) a claw disposed on the
immediate portion of the rocking lever to engage withteethof the ratchet wheel, and
for driving to rotate the ratchet wheel in accordance with the swing motion of the
rocking lever. According to the arrangements, it is possible to prevent the undesirable
blocking phenomenon by stirring the developing material in the storage container through
comparatively simple construction, while the developing material accommodated within
the storage container can be supplied by approximately a predetermined amount and
almost without any remainder therein.
[0014] There is provided a presence-detecting device for detecting the developing material
comprising; (1) a detecting member made of non-magnetic material, swingable about
a horizontal axis in a vertical plane with respect to an axis of the developing sleeve
between a first angular position corresponding to a substantially central position
of neighborinq N pole and S pole of the permanent magnet at a vicinity of the developing
sleeve in accordance with the depressing force of the maqnetizable toner attracted
by the permanent magnet and a second angular position far from the developing sleeve
in accordance with the own weight of the detectiong member against the depressing
force of the developing material, disposed between the developing sleeve and an supply
port of a developing material storaae container for storing the developing material
and for supplying the developing material to the developing sleeve,(m) an engaging
member swingable about a hprizontal axis formed integrally the detecting member, and
(n) switching means having an actuator engaging with the engaging member for changing
switching to the first and second angular positions of the detecting member. It is
so arranged that the developing material supplied from the storage container is depressed
as it is attracted by the permanent magnet so that the detecting member is subjected
to the angular displacement between the first angular displacement position and the
second angular displacement position, with the switching state of the switch means
being altered according to the angular displacement of said detecting member, and
therefore, presence or absence of the developing material on the peripheral surface
of the developing sleeve can be readily detected. Furthermore, at the first angular
displacement position, since the detecting member is positioned at approximately the
central portion between the N pole and S pole, said detecting member is readily subjected
to the angular displacement even by the slight depressing force by the developing
material.
[0015] A detailed description of the invention will be made with reference to the accompanying
drawings for a better understanding of the invention. In the drawings:
Fig. 1 is a simplified side sectional view of an electrostatic copying apparatus according
to the invention;
Fig. 2 is a schematic side sectional view of the copying apparatus of Fig. 1 as viewed
from the reverse side thereof for illustrating its driving system;
Fig. 3 is a fragmentary cross sectional view showing, on an enlarged scale, the arrangement
in the vicinity of a developing device 7 employed in the copying apparatus of Fig.
l;
Fig. 4 is a schematic cross sectional view taken along the line IV-IV of Fig. 3;
Fig. 5 is a schematic rear side view of the developing device 7 of Fig. 3;
Fig. 6 is a fragmentary top plan view of a blade member 76;
Fig.7 is a schematic cross sectional view taken along the line VII-VII of Fig 3;
Fig. 8 is a cross sectional view showing the developing device according to another
aspect of the invention; and
Fig. 9 is a cross sectional view showing the developing device according to still
another aspect of the invention.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT
[0016] Referring now to the drawings, there is shown in Fig. 1 a schematic side sectional
view of a transfer type electrostatic copying machine according to one preferred embodiment
of the invention. The copying apparatus of Fig. 1 includes a photosensitive or photoreceptor
drum 4 having a photcsensitive material or photoreceptor 3 provided on the entire
peripheral surface of a drum 2, and rotatably mounted at approximately a central portion
of a machine housing 1. Around the photoreceptor drum 4, there are sequentially disposed,
along the rotational direction indicated by the arrow 5, a charging corona discharger
6 for preliminarily charging the photoreceptor 3, a developing device 7 for visualizing
an electrostatic latent image formed on the photoreceptor 3 into a visible toner image,
a transfer corona discharger 8 for transferring the toner image thus formed on the
photoreceptor 3 onto a copy paper sheet, and a cleaning device 9 for cleaning off
the toner remaining on the photoreceptor 3 after the transfer process.
[0017] Above the photoreceptor drum 4, there is provided an exposure device 10 for projecting
light-wise image of an original to be copied (not shown) onto the photoreceptor 3
in a position between the charging corona discharger 6 and the developing device 7
as shown by the dotted arrows: At the upper portion of the machine housing 1, an original
carrier 11 is provided on which the original to be copied is horizontally placed for
reciprocating movement as indicated by the arrows. In the exposure device 10, a light
projecting means 12 for projecting light onto the original through the original .carrier
11 , further includes an exposure lamp 13, a reflector plate 14a and an auxiliary
reflector plate 14b. The light projected towards the oriainal placed on the original
carrier 11 is focussed onto the photoreceptor 3 through a single focal point lens
15 to form the image of the original thereon, and thus, the electrostatic latent image
is formed on the photoreceptor 3.
[0018] Along a copy paper transport passaqe 16 shown by the dotted line, the copy paper
sheets stacked and accommodated in a paper feeding cassette 17 are fed, one sheet
by one sheet, by a paper feeding roller 18 from the paper feeding cassette 17. The
copy paper sheets are transported by a pair of feeding and transporting rollers 21
and 22 through upper and lower guide plates 19 and 20 in pair. The copy paper sheet
fed into a transfer region 25 through another pair of upper and lower guide plates
23 and 24 is caused to closely adhere to the surface of the photoreceptor drum 4 confronting
the transfer corona charger 8. After the transfer process, the copy paper sheet is
held, at its one edge in the direction of width thereof, between a separating roller
26 and an auxiliary separating roller 27 so as to be peeled off the surface of the
photoreceptor drum 4, and is fed into a heat fixing device 31 having a pair of heat
fixing rollers 29 and 30 through a guide plate 28. In this heat fixing device 31,
the toner image on the surface of the copy paper sheet is fixed. After the fixing
process as described above, the copy paper sheet is discharged onto a copy paper tray
(not shown) through a pair of discharging rollers 32 and 33.
[0019] Referring also to Fig. 2 showing a schematic side sectional view of the copying machine
of Fig. 1 as viewed from the reverse side thereof for illustrating its driving system,
to an output shaft 35 of a motor 34, there is secured a sprocket wheel 36, around
which a first endless chain 37 is directed or passed. The chain 37 is sequentially
passed around a sprocket wheel 38, a sprocket wheel 39 coupled to the feeding and
transporting roller 22 and a sprocket wheel 40 connected to the copy paper feeding
roller 18 along its running direction indicated by the.arrow. Meanwhile, around another
sprocket wheel (not shown) secured to the output shaft 35 so as to be one unit with
the sprocket wheel 36, a second endless chain 41 is passed. The chain 41 is sequentially
passed around sprocket wheels 42 and 43, two sprocket wheels 44 and 45 for driving
the original carrie--P 11, and sprocket wheels 46 and 47 along its running direction
indicated by the arrow. The gear (not shown) to be rotated as one unit with the sprocket
wheel 43 is engaged with a gear 48 connected to the heat fixing roller 29. The sprocket
wheel 44 is connected to a gear 49 through a clutch which is not shown, while the
sprocket wheel 45 is coupled to a gear 50 and a pulley 51 through a clutch which is
not shown, with the gears 49 and 50 being in mesh with each other. A wire 160 connected,
at its one end, to the right side end of the original carrier 11 in Fig. 2 is further
passed around a pulley 51 from a pulley 161, and again around the pulley 161 so as
to be connected at its other end, to the left side end of the original carrier 11
in Fig. 2. By the changeover of a clutch (not shown), the pulley 51 is subjected to
forward or reverse rotation, according to which the original carrier 11 is reciprocated
in the directions shown by the arrows. By the functions of the two clutches as described
above, when the original carrier
[0020] 11 is driven by the driving force from the sprocket wheel 44, said original carrier
11 is caused to run at a comparatively high speed, while when the original carrier
11 is driven by the driving force from the sprocket wheel 45, it is caused to move
at a comparatively low speed.
[0021] A gear 52 mounted on the same shaft as the sprocket wheel 46 is connected to a gear
57 through gears 53, 54, 55 and 56. The gear 56 is secured to a rotary shaft 58 of
the cleaning device 9, while the gear 57 is concentrically fixed to a sleeve 120 of
the cleaning device 9. A gear 60 to be rotated as one unit with the sprocket wheel
47 is connected through a gear 61 to a gear 62 which is coupled to a cylindrical member
128 of the cleaning device 9. Meanwhile, the gear 60 is connected to a near 64 associated
with the separating roller 26 through a gear 63. Furthermore, the gear 60 is connected
to a gear 65 which is integral with the photoreceptor drum 4, while the gear 65 is
engaged with a gear 69 through gears 66, 67 and 68, with the gear 69 being connected
to a developing sleeve 71 of the developing device 7.
[0022] Referring further to Fig. 3 showing on an enlarged scale from the front side of the
developing device 7, the arranaement in the vicinity of the developing device 7 in
Fia. 1, the developina device 7 further includes a developing roller 72 disposed in
the vicinity of the photoreceptor 3 in a direction parallel with the axis of the photoreceptor
drum 4, a storage container 73 for storing therein the mono-component magnetizable
toner, as a developing material, a stirring and feeding means 74 operably housed in
the storage container 73 for stirring the mono-component magnetizable toner therein
and also for supplying the mono-component magnetizable toner onto the developing roller
72, a bristle cutting member 75 for restricting the length of the magnetic brush bristles
to be formed on the peripheral surface of the developing roller 72, and a blade member
76 for once separating the magnetic brush from the peripheral surface of the developing
roller 72 so as to bring it towards the bristle cutting member 76.
[0023] Reference is also made to Fig. 4 showing a simplified cross section taken along the
line IV-IV of Fig. 3. The developing roller 72 has a permanent magnet member 77 concentrically
secured in the hollow developing sleeve 71 made of non-magnetizable material. One
end of the permanent magnet member 77 extends through corresponding one end of the
developing sleeve 71 through a bearing 82, and is fixed to a support member 81 secured
to a front side plate 79 of a frame 78 of the developing device 7. On the other hand,
the other end of the developing sleeve 71 extends through a rear side plate 80 of
the frame 78 through a bearing 83, and is fixed with the qear 69. The other end of
the permanent nacret member 77 is supported by the developing sleeve 71 through a
bearing 84. The permanent magnet member 77 is magnetized by a plurality of magnetic
poles circumferentially directed at equal intervals, with neighboring magnetic poles
being directed to have alternately opposite polar orientation. As described with reference
to Fig. 2, by the transmission of the driving force to the gear 69, and consequent
rotation of the developing sleeve 71 in the direction shown by the arrow 85, the mono-component
magnetizable toner supplied from the storage container 73 forms the magnetic brush
on the developing sleeve 71. At the developing position 86, the peripheral surface
of the photoreceptor 3 is rubbed against the magnetic brush, whereby the electrostatic
latent image on the photoreceptor 3 is developed into the visible image.
[0024] Referring to Fig. 5 showing a rear side view of the developing device
7, the storage container 73 includes an arcuate portion 87 having an arcuate shape in
a vertical plane and extending in a direction parallel to the developing roller 72,
and a conical portion 88 connected to the upper portion of the arcuate portion 87
at the side opposite to the developing roller 72 with respect to the central axis
of the arcuate portion 87 and open upwardly as shown, and is formed into one unit
with a frame 78. At the side remote from the developing position 86 with respect to
the developing roller 72, the arcuate portion 87 is formed with a supply port 89 for
supplying the mono-component magnetizable toner onto the developing sleeve 72. The
above supply port 89 is defined above the developing roller 72 so that the mono-component
magnetizable toner may be supplied onto the peripheral surface of the developing roller
72.
[0025] On the other hand, the stirring and supplyinq means 74 further includes a rotary
shaft 92 journalled to the front and rear side plates 79 and 80 on the central axis
of the arcuate portion 87 through bearings 90 and 91, a stirring and supplying member
93 integrally provided with the rotary shaft 92, a ratchet wheel 94 secured to one
end of the rotary shaft 92, a rocking lever 96 pivotally supported at its end by a
pin 95 provided on the rear side plate 80 and connected, at the other end thereof,
to the gear 69 for rocking motion about said pin 95 following the rotation of the
gear 69, a claw member 98 pivotally connected to an intermediate portion of the rocking
lever 96 by a pin 97 for engagement with the teeth of the ratchet wheel 94, and a
spring 99 which urges the claw member 98 towards the ratchet wheel 94.
[0026] The stirrina and feedina member 93 extends in parallel with and adjacent to an inner
wall 87a of the arcuate portion 87 between the front and rear side walls 79 and 80,
with its opposite end portions being bent at right angles so as to be pressed into
the rotary shaft 92 for securing. At a position deviated from the axis of the gear
69, a pin 100 is provided, while an elongated opening 101 is formed at the other end
of the rocking lever 96 for engagement with the pin 100. The spring 99 is provided
to surround the pin 97, with one end of the spring 99 being engaged with the rocking
lever 96 and the other end thereof, with the claw member 98. By the spring force of
this spring 99, the claw member 98 is urged about the pin 97 in the direction shown
by the arrow 102. The rocking lever 96 is provided with a stopper piece 103 for restricting
the rotation of the claw member 98.
[0027] Throuqh one rotation of the
qear 69, i.e. by one rotation of the developing sleeve 71, the rocking lever 96 guided
by the pin 100 engaged with the elongated opening 101 performs one reciprocating movement
laterally in Fig. 5 about the pin 95, whereby the ratchet wheel 94 pushed by the claw
member 98 connected to the rocking lever 96 is subjected to the angular displacement
in the direction of the arrow 104. According to the angular displacement of the ratchet
wheel 94, the rotary shaft 92 is also subjected to the angular displacement by the
same amount, with consequent angular displacement of the stirring and supplying member
93 integral with the rotary shaft 92. Therefore', the stirring and supply member 93
is rotated about the rotary shaft 92 following the rotational movement of the developing
sleeve 71, whereby the mono-component magnetizable toner in the arcuate portion 87
is agitated, and is also brought to the supply port 89 through a longitudinal portion
93a of the stirring and supply member 93. The mono-component magnetizable toner thus
brought to the supply port 89 is fed from said supply port 89 onto the peripheral
surface of the developing sleeve 71. By stirring the mono-component magnetizable toner
in the arcuate portion 87 through rotation of the stirring and supplying member 93,
not only the blocking phenomenon of the mono-component magnetizable toner within the
storage container 73 is prevented, but a predetermined amount of the toner is always
fed onto the peripheral surface of the developing sleeve 71 from the supply port 89.
The number of revolutions of the stirring and supplying member 93 is so selected that
the toner will not be absent on the peripheral surface of the developing sleeve 71,
and in the embodiment described so far, it is arranged so that the stirring and supplying
member 93 completes one rotation, while the developing sleeve 71 makes 30 rotations,
which may be achieved by suitably selecting the number of teeth of the ratchet wheel
94 and rocking distance of the claw member 94.
[0028] Additionally, for preventing reverse rotation of the ratchet wheel 94, there is fixed,
on the frame 78, a reverse rotation preventing member 105, which is arranqed to contact
with the teeth of the ratchet wheel 94 at the downstream side of the rotational direction
104.
[0029] Referring again to Fig. 3, in a position at the u
p- stream side with respect to the developing position 86 along the rotational direction
85 of the developing sleeve 71, there is secured, to the frame 78, the bristle cutting
member 75 closely confronting the peripheral surface of the developing sleeve 71.
By the above bristle cutting member 75, the magnetic brush on the developing sleeve
71 is always restricted to have a predetermined bristle length so as to be brought
to the developing position 86, but at the upstream side immediately before the bristle
cutting member 75, there may be a case where the mono-component magnetizable toner
cut off by the bristle cutting member 75 remains to be solidified, thus giving rise
to the so-called blocking phenomenon, which takes place due to depression of the mono-component
magnetizable toner moving over the developing sleeve 71 by the bristle cutting member
75, and tends to occur more frequently as the force of the depression increases, i.e.
as the number of revoltuions of the developing sleeve 71 increases. Upon occurrence
of the blocking phenomenon as described above, the ma
qnetic bruch on the developing sleeve 71 is blocked by the mono-component magnetizable
toner subjected to the blocking so as not to be fed to the developing position 86,
thus making it impossible to effect the developing at the portion. Meanwhile, at the
developing position 86, the base portion of the magnetic brush does not contribute
to the development, and remains on the peripheral surface of the developing sleeve
71 as it is so as to continue rotation together with the developing sleeve 71. Accordingly,
the toner on the developing sleeve 71 is lowered in its fluidity, with alteration
in the state of formation of the brush bristles, and thus, the developing efficiency
is correspondingly reduced.
[0030] Therefore, the blade member 76 is provided at the upstream side of the bristle cutting
member 75 along the rotational direction 85. The blade member 76 described above is
so inclined as to be spaced from the developing sleeve 71 towards the downstream side
along the rotational direction 85, with its base portion 76a being secured to the
frame 78, and the free end 76b thereof is arranged to be slid on the developing sleeve
71 over its entire length. It is to be noted here that, in the permanent magnet member
77, the position thereof corresponding to the bristle cuttina member 75 and the position
which is in sliding contact with the free end 76b of the blade member 76, are magnetized
by the neighboring magnetic poles having mutually different polar orientation. In
this embodiment as shown in Fig. 3, the position correspondinq to the bristle cutting
member 75 is magnetized with the N pole, while the position corresponding to the blade
member 76 is magnetized with
S pole.
[0031] In Fig. 6 showinq the fragmentary top plane view of the blade member 76, a plurality
of passing holes 106 are formed in the blade member 76 at a predetermined interval
therebetween in the direction of width of said blade member 76 (i.e. in the direction
perpendicular to the paper surface in Fig. 3). These passing holes 106 are each formed
at approximately the central portion between the N pole (or S pole) corresponding
to the bristle cutting member 75 and the S pole (or N pole) corresponding to the blade
member 76.
[0032] On the assumption that the mono-component magnetizable toner attracted onto the developing
sleeve 71 by the magnetic force of the permanent magnet member 77 is brought to the
position of the blade member 76 following rotation of the developing sleeve 71, since
the blade member 76 is in sliding contact with the developing sleeve 71, the mono-component
magnetizable toner on the developing sleeve 71 is peeled off or scraped off therefrom.
Furthermore, owing to the inclination of the blade member 76 towards the rotational
direction 85, the mono-component magnetizable toner thus scraped off advances over
the blade member 76 up to the position of the passing holes 106. Since the passing
holes 106 are each formed at approximately the central portion between the N pole
and S pole as described earlier, the magnetic attracting force exerting on the mono-component
magnetizable toner at the passing holes 106 is directed in a direction normal to the
magnetic lines of force, i.e. in a radial inner direction of the developing sleeve
71. Accordingly, the toner is readily supplied towards the inner side of the radial
direction of the developing sleeve 71 from the passing holes 106 through the above
described magnetic attracting force.
[0033] In the manner as described above, by the action of the blade member 76, the mono-component
magnetizable toner, after being once separated from the peripheral surface of the
developing sleeve 71, is caused to fall through the passing holes 106 to be fed onto
the developing sleeve 71, and therefore, the toner is always fluidized immediately
before the bristle cutting member 75, with the possibility of occurrence of the undesirable
blocking being advantageously prevented. Moreover, since the mono-component magnetizable
toner on the developing sleeve 71 is loosened or softened by the blade member 76 at
every rotation of the developing sleeve 71, the bristles of the magnetic brush at
the developing position 86 are formed in the same state at all times, with consequent
improvements on the developing efficiency.
[0034] Referring further to Fig.7 showinq a simplified cross section taken along the line
VII-VII in Fig. 3, the developing apparatus 7 is provided with a detecting device
110 for detecting the presence of the toner (refer to both Figs. 7 and 3). The detecting
device 110 further includes a detecting member 111 extending vertically between the
supply port 89 of the storage container 73 and the developing roller 72, and pivotable
in a plane at right angles with respect to the axis of the developing roller 72, an
engaging member 112 extending in parallel relation with respect to the axis of the
developing roller 72 and rotatably supported by the side plates 79 and 80, and a microswitch
113 as a switching means whose switched state is varied in response to the angular
displacement of the engaging member 112.
[0035] The detecting member 111 extends vertically via a through-opening 114 defined in
the frame 78 for restricting the range of angular displacement of said detecting member
lll, while the engaging member 112 is disposed above the through-opening 114. One
end portion of the engaging member 112 is bent at right angles at the outer side of
the side plate 79, and the bent portion 112a thus formed is engaged with an actuator
115 of the microswitch 113, which is coupled, for example, to a toner replenishing
instruction means such as a pilot lamp or the like (not shown).
[0036] On the assumption that the mono-component magnetizable toner is being supplied onto
the developing roller 72 through the supply port 89 of the storage container 73, since
the mono-component magnetizable toner is attracted onto the peripheral surface of
the developing sleeve 71 of the developing roller 72 by the attracting force of the
permanent magnet member 77, the detecting member 111 is rotated in the direction approaching
the developing roller 72 through depression by the mono-component magnetizable toner
as shown by the imaginary line in Fig. 3. At the first angular displacement position
116 of the detecting member 111, the free end of the detecting member 111 corresponds
to the approximately central position of the N pole and S pole of the permanent magnetic
member 77, whereby the detecting member 111 comes to be readily subjected to the angular
displacement through a slight depressing force by the mono-component magnetizable
toner. Following the angular displacement of the detecting member 111 to the first
angular displacement position 116, the engaging member 112 is also subjected to the
angular displacement, according to which the microswitch 113 is cut off. Accordingly,
the pilot lamp as described earlier is kept de-energized at the first angular displacement
position 116.
[0037] When the supply of the mono-component magnetizable toner from the supply port 89
of the storage container 73 is suspended, with further disappearance of the toner
on the peripheral surface of the developing sleeve 71, the depressing force by the
mono-component magnetizable toner is reduced, whereby the detecting member 111 is
returned through rotation back to the second angular displacement position 117 shown
by the solid line in Fig. 3, by its own weight and the restoring force of the actuator
115 of the microswitch 113. By the angular displacement of the engaging member 112
following the rotational returning of the detecting member 111 to the second angular
displacement position 117, the microswitch 113 is rendered conductive, with consequent
illumination of the pilot lamp, and thus, it is indicated that the toner in the storage
container 73 has been used up, with simultaneous absence of the toner on the peripheral
surface of the developing sleeve 71.
[0038] It is to be noted here that the detecting member 111 and engaging member 112 should
preferably be made to be light in weight as far as practicable so that they may be
subjected to the angular displacement even by the slight depressing force of the toner.
[0039] Reference is made to Fig. 8 showing a cross sectional view of a developing apparatus
according to another embodiment of the present invention, by which the developing
apparatus 7 of the embodiment of Figs. 1 to 7 may be replaced.
[0040] In the embodiment of Fig. 8, the permanent magnet member 77 is magnetized by a pair
of magnetic poles (S poles in this embodiment) having the same polarity in a position
corresponding to the position of sliding contact of the blade member 76 with the developing
sleeve 71. By the experiments carried out by the present inventors, remarkable effect
has been obtained when the magnetic poles are disposed at intervals of 2 to 6 mm on
the circumferential surface of the permanent magnet member 77. Meanwhile, in a position
corresponding to the bristle cutting member 75, the magnet member 77 is magnetized
by the magnetic pole neighboring said two magnetic poles (S poles in this embodiment)
and having polarity opposite thereto (N pole in this embodiment). Since other constructions
of the developing device of Fig. 8 are generally similar to those of the arrangement
of Fig 3, detailed description thereof is omitted here for brevity.
[0041] By magnetizing the permanent magnet member 77 with the pair of magnetic poles of
the same polarity at the position for sliding contact of the blade member 76, the
attracting force for attracting the mono-component magnetizable toner onto the developing
sleeve 71 at the sliding contact position of the blade member 76 is weakened. Moreover,
since the magnetic lines of force from the magnetic poles of the same polarity are
directed in the radial direction of the developing sleeve 71, the mono-component magnetizable
toner is subjected to the magnetic attracting force in the tangential direction of
the developing sleeve 71. Therefore, the mono-component magnetizable toner on the
developing sleeve 71 is separated from the surface of the developing sleeve 71 at
a position before the sliding contact position of the blade member 76, and jumps over
the sliding contact position to be transferred to the blade member 76, and thus, reaches
the passing holes 106. Accordingly, in the above arrangement, it is not necessary
to cause the blade member 76 to strongly contact the sleeve 71, and therefore, the
undesirable blocking of the toner by the blade member 76 can be prevented.
[0042] Referring to Fig. 9, there is shown, on an enlaraed scale, a cross section of a developing
apparatus according to a further embodiment of the invention, in which like parts
corresponding to those in Fig. 3 are designated by like reference numerals.
[0043] In the embodiment of Fig. 9, the permanent magnet member 77 is magnetized by a pair
of magnetic poles having the same polarity (N poles in this embodiment) in the range
from the developing position 86 to the blade member 76 along the rotational direction
85 of the developing sleeve 71. These magnetic poles are arranged, for example, at
intervals of 2 to 6 mm on the circumferential surface of the permanent magnet member
77. Since other constructions are generally similar to those of the arrangement of
Fig. 3, detail description thereof is also omitted here for brevity.
[0044] By the arran
qement of Fig. 9 as described above, the mono-component magnetizable toner of the magnetic
brush formed on the surface of the developing sleeve 71 not contributing to the developing,
and rotated together with the developing sleeve 71 from the developing position 86
is temporarily displaced when it passes the position at which said magnetic poles
of the same polarity are disposed close to each other. The above displacement takes
place because, in the region between the developing position 86 and the position at
which said magnetic poles of the same polarity are disposed, the regular variation
of the chain structure of the magnetic brush owing to the alternate arrangement of
the N poles and S poles is shifted towards irregular variation. Accordingly, since
the mono-component magnetizable toner whose magnetizing function is thus weakened
is transported up to the position of the blade member 76, the toner may be easily
peeled off or scraped off from the peripheral surface of the developing sleeve 71.
[0045] It should be noted that the position at which the pair of magnetic poles of the same
polarity close to each other are to be magnetized is not limited to be one position
as described in the above arrangement of Fig. 13, but may be further modified to be
provided at a plurality of spots in the range from the developing position 86 to the
blade member 76 along the rotational direction 85.
1. A developing device for an electrostatic copying apparatus in which a permanent
magnet having a plurality of magnetic poles magnetized at each equal space in a peripheral
direction of the permanent magnet is coaxially secured in a hollow developing sleeve
made of non-magnetic material and driven to rotate, a one-component magnetizable toner
is supplied on the developing sleeve so as to form a magnetic brush, and a bristle
cutting member restricts a length of the magnetic brush, characterized in that there
is provided a blade member made of non-magnetic material, disposed upstream along
the rotational direction of the developing sleeve at the vicinity of the bristle cutting
member, inclining to separate from the peripheral surface of the developing sleeve
downstream along the rotational direction, and contacting with the peripheral surface
of the developing sleeve.
2. A developing device for an electrostatic copying apparatus according to claim 1,
in which the neighboring magnetic poles are directed to have alternately opposite
polar orientation, the magnetic poles formed at a magnetized position facing the bristle
cutting member and a magnetized position contacting with the blade member are neighboring
and opposite polarization to each other, the blade member has a construction so as
to allow the one-component magnetizable toner to pass at about central position between
the magnetic pole facing the bristle cutting member and the magnetic pole contacting
with the blade member.
3. A developing device for an electrostatic copying apparatus according to claim 1
or 2, in which the magnetized position contacting with the blade member has a pair
of neighboring magnetic poles with the same polarization.
4. A developing device for an electrostatic copying apparatus according to claim 3
or 4, a single of magnetized position of the permanent magnet has a pair of neighboring
magnetic poles with the same polarization in an area from a developing zone to the
blade member along the rotational direction of the developing sleeve.
5. A developing device for an electrostatic copying apparatus according to claim 1
or 2, plurality of magnetized positions of the permanent magnet has a pair of neiqhboring
magnetic poles with the same polarization in an area from the developing zone to the
blade member along the rotational direction of the developing sleeve.
6. A developing device for an electrostatic copying apparatus accordin
q to claim 1, in which the developing material is supplied onto a developing roller
having the developing sleeve disposed in the vicinity of a photosensitive material,
there are further provided,
a storage container having a bottom formed in an arcuate-shape and extending downwardly,
and having a supply port opening for supply the developing material onto a peripheral
surface of the developing roller,
a rotary shaft provided rotatably around the center of the arcuate bottom of the storage
container,
a stirring and feeding means for stirrinq the developing material in the storage container
to supply to the supply port, and extending radially from the rotary shaft to the
vicinity of the inner surface of the bottom of the storaae container,
a ratchet wheel secured to the rotary shaft axially,
a rocking lever having one end supported by a pin parallel to the rotary shaft, having
the other end engaging to associate with the developing roller, and swingable around
the pin in accordance with the rotational motion of the developing roller, and
a claw disposed on the immediate portion of the rocking lever to engage with teeth
of the ratchet wheel, and for driving to rotate the ratchet wheel in accordance with
the swing motion of the rocking lever.
7. A developing device for an electrostatic copying apparatus according to claim 1,
in which there is provided a presence-detectina device for detecting the developing
material comprising;
a detecting member made of non-magnetic material, swingable about a horizontal axis
in a vertical plane with respect to an axis of the developing sleeve between a first
angular position corresponding to a substantially central position of neighboring
N pole and S pole of the permanent magnet at a vicinity of the developing sleeve in
accordance with the depressing force of the magnetizable toner attracted by the permanent
magnet and a second angular position far from the developing sleeve in accordance
with the own weight of the detectiong member aqainst the depressing force of the developing material, disposed between the developing
sleeve and an supply port of a developing material storaae container for storing the
developing material and for supplying the developing material to the developing sleeve,
an engaging member swingable about a horizontal axis formed integrally the detecting
member, and
switching means having an actuator engaging with the engaging member for changing
switching modes in responsive to the first and second angular positions of the detecting
member.