KR20210153786A - Fuser with reservoir for storing lubricants - Google Patents

Abstract

Disclosed is a fixing device. The present fixing device comprises: a rotatably provided pressure roller; a heating belt disposed to circumscribe the pressure roller; a storage room wherein a lubricant is stored, and disposed outside the heating belt; a nip forming member inscribed in the heating belt to form a fixing nip between the pressure roller and the heating belt; and a duct member provided on one side of the nip forming member, and communicating with the storage room to supply the lubricant to an inner surface of the heating belt.

Description

FUSER WITH RESERVOIR FOR STORING LUBRICANTS

An image forming apparatus is an apparatus that prints an image on a print medium, and includes a printer, a copier, a fax machine, and a multifunction device implemented by integrating their functions. An electrophotographic image forming apparatus uses a fixing device that forms a developer image corresponding to print data on a print medium, and applies predetermined heat and pressure to the developer image to permanently fix the developer image on the print medium. do.

Since the fixing device has a structure in which the heating belt rotates with respect to the stationary nip forming member, friction occurs at the portion where the heating belt and the nip forming member are in contact. Accordingly, a difference in speed between the heating belt and the pressure roller may occur, which may cause a slip phenomenon in which the unfixed toner image slips on the recording medium, and there is a risk that the nip forming member or the heating belt may be abraded and parts may be damaged. . In order to prevent the slip phenomenon and component breakage, a lubricant is applied between the heating belt and the nip forming member to reduce friction between them.

1 is a cross-sectional view schematically illustrating a configuration of an image forming apparatus according to an embodiment of the present disclosure.
2 is a perspective view of a fixing device according to an embodiment of the present disclosure;
3 is a perspective view illustrating a state in which a housing is removed from the fixing device according to an embodiment of the present disclosure;
FIG. 4 is a cross-sectional view taken along line IV-IV shown in FIG. 3 .
5 to 6 are a perspective view and an exploded perspective view showing the configuration of the inside of the heating belt according to an embodiment of the present disclosure.
7 is an enlarged perspective view of one end of the duct member according to an embodiment of the present disclosure.
8 to 9 are views for explaining various modifications of the pipe according to an embodiment of the present disclosure.
10 is an exploded perspective view of an opening/closing device according to an embodiment of the present disclosure;
11 to 12 are cross-sectional views illustrating an operation of an opening/closing device according to an exemplary embodiment of the present disclosure.
13 to 14 are cross-sectional views illustrating operations of a reservoir, a pump, and a pressure control valve according to an embodiment of the present disclosure.
15 is a functional block diagram of a fixing apparatus according to an embodiment of the present disclosure.

Hereinafter, various embodiments will be described in detail with reference to the drawings. The embodiments described below may be modified and implemented in various different forms. In order to more clearly describe the features of the embodiments, detailed descriptions of matters widely known to those of ordinary skill in the art to which the following embodiments belong will be omitted.

On the other hand, in the present specification, when a component is "connected" with another component, this includes not only a case of 'directly connected' but also a case of 'connected with another component interposed therebetween'. In addition, when a certain component "includes" another component, this means that other components may be further included, rather than excluding other components, unless otherwise stated.

In addition, the term "image forming apparatus" refers to an apparatus for printing print data generated by a terminal device such as a computer on a recording print medium. Examples of such an image forming apparatus include a copier, a printer, a facsimile, or a multi-function printer (MFP) that complexly implements these functions through one device.

It should be understood that the embodiments described below are illustratively shown to help the understanding of the present disclosure, and the present disclosure may be variously modified and implemented differently from the embodiments described herein.

However, in the following description of the present disclosure, if it is determined that a detailed description of a related well-known function or component may unnecessarily obscure the gist of the present disclosure, the detailed description and specific illustration thereof will be omitted. In addition, the accompanying drawings are not drawn to scale in order to help understanding of the disclosure, but dimensions of some components may be exaggerated.

The image forming apparatus according to an exemplary embodiment of the present disclosure may include a separate storage for storing a lubricant in order to solve a problem in which parts are damaged due to friction occurring between the nip forming member and the heating belt.

Accordingly, even if the lubricant supplied to the heating belt is exhausted, the heating belt can be continuously supplied with the lubricant from the storage. can

1 is a cross-sectional view schematically illustrating a configuration of an image forming apparatus according to an embodiment of the present disclosure.

Referring to FIG. 1 , an image forming apparatus 1 according to an embodiment of the present disclosure includes a main body 2 , a recording medium supply device 3 , a developing device 4 , a plurality of photosensitive drums 5 , and a transfer device. (6), a recording medium discharging device 7, an optical scanning device (not shown), and a fixing device 10 may be included.

The main body 2 forms the exterior of the image forming apparatus 1, and can support various parts installed therein. A part of the main body 2 may be provided to be openable and openable, and a user may replace or repair various parts through the open part of the main body 2 or remove a recording medium jammed in the main body 2 .

The recording medium supply device 3 can supply the recording medium toward the transfer device 6 . For example, the recording medium supply device 3 includes a cassette in which the recording medium is stored, a pickup roller that picks up the recording medium stored in the cassette one by one, and a conveying roller that conveys the picked up recording medium toward the transfer device 6 . may include

The optical scanning device may irradiate the photosensitive drum 5 with light corresponding to image information to form an electrostatic latent image on the surface of the photosensitive drum 5 .

The developing device 4 can supply toner as a developer to the electrostatic latent image formed on the photosensitive drum 5 to form a visible toner image. The developing device 4 may be configured with four developing devices in which developers of different colors, for example, developers of black (K), cyan (C), magenta (M), and yellow (Y) colors are accommodated, respectively. .

In the image forming apparatus 1 according to an embodiment of the present disclosure, an example is shown in which four photosensitive drums 5 are included in each developing unit. It is also possible to configure so as to form an image.

The transfer device 6 can receive the visible image formed on the photosensitive drum 5 and transfer it to a recording medium.

When the image forming apparatus 1 performs a color printing operation, the transfer rollers can be pressed toward each photosensitive drum 5 . Accordingly, each visible image formed on the photosensitive drum 5 is transferred to and superimposed on the transfer belt by the transfer rollers, and the image of the transfer belt is supplied from the recording medium supply device 3 to pass between the transfer roller and the transfer belt. It can be transferred to a recording medium passing through.

The recording medium passing through the transfer device 6 enters the fixing device 10 . The fixing device 10 is configured to apply heat and pressure to the recording medium to fix the unfixed toner image on the recording medium to the recording medium.

The recording medium passing through the fixing device 10 is guided to a recording medium discharging device 7 , which can discharge the recording medium to the outside of the image forming apparatus 1 . The recording medium discharging device 7 may include a discharging roller and a discharging backup roller installed to face the discharging roller.

Hereinafter, the fixing device 10 included in the image forming apparatus 1 according to an embodiment of the present disclosure will be described in detail.

2 is a perspective view of a fixing device according to an embodiment of the present disclosure; 3 is a perspective view illustrating a state in which a housing is removed from the fixing device according to an embodiment of the present disclosure; FIG. 4 is a cross-sectional view taken along line IV-IV shown in FIG. 3 .

2 to 4 , the fixing device 10 includes a housing 11 , a pressure roller 100 , a heating belt 200 , a bush 300 , a pipe 400 , an opening/closing device 500 , and a duct member. 600 and a storage 700 ( FIG. 13 ). The print medium may be introduced into the fixing device 10 in a PI (Paper In) direction, and may be drawn out in a PO (Paper Out) direction through the fixing device 10 .

The PI direction may be a direction from the lower side of the fixing device 10 toward the bottom surface of the housing 11 , and the PO direction may be a direction away from the top surface of the housing 11 to an upper side of the fixing device 10 . Both the PI direction and the PO direction may be directions parallel to the Z axis, but the directions are not limited thereto.

The housing 11 may accommodate the pressure roller 100 , the heating belt 200 , the bush 300 , and the duct member 600 therein. The opening/closing device 500 and the storage 700 are disposed outside the housing 11 , and the pipe 400 is illustrated as passing through the housing 11 , but is not limited thereto, and each configuration is within the housing 11 . may be placed in

The pressure roller 100 is an example of a rotatably provided roller, and may press the recording medium passing through the fixing nip N. The pressure roller 100 may rotate by receiving power from a driving device 104 ( FIG. 15 ) mounted on the main body 2 of the image forming apparatus 1 .

In the process of the recording medium passing through the fixing nip N between the pressure roller 100 and the heating belt 200, the toner image transferred to the recording medium can be fixed to the recording medium by heat and pressure.

The pressure roller 100 may include a shaft 101 , an elastic layer 102 , and a release layer 103 .

The shaft 101 may be disposed at the center of the pressure roller 100 to function as a rotation shaft. The shaft 101 may be formed of a metal such as aluminum or steel.

The elastic layer 102 is disposed to cover the periphery of the shaft 101 , and elastically deforms when the pressure roller 100 and the heating belt 200 are pressed against each other while forming a fixing nip N between the heating belt 200 . can be formed A release layer 103 that prevents the recording medium from sticking to the pressure roller 100 may be formed on the outer surface of the elastic layer 102 . The release layer 103 may be, for example, one or a mixture of two or more of Perfluoroalkoxy (PFA), Polytetrafluoroethylenes (PTFE), Fluorinated Ethylene Prophylene (FEP), or a copolymer thereof. .

The heating belt 200 may be passively rotated by the pressure roller 100 by circumscribing the pressure roller 100 . The heating belt 200 may have an endless shape, but is not limited thereto, and may have a film shape having an end and a structure wound by a pair of rollers.

The heating belt 200 may be heated by a heat source 205 to be described later to transfer heat to the print medium passing through the fixing nip N between the heating belt 200 and the pressure roller 100 . The heating belt 200 may be formed of a single layer of metal or heat-resistant polymer, or may be configured by adding an elastic layer and a protective layer to a base layer formed of metal or heat-resistant polymer.

A pair of bushes 300 are respectively disposed at both ends of the heating belt 200 , support the inner surfaces of both ends of the heating belt 200 , and move in the longitudinal direction (Y-axis direction) of the heating belt 200 . can be limited The bush 300 may include a support member 301 and a rotation ring 302 .

The support member 301 is formed to protrude toward the heating belt 200 with respect to the sidewall of the bush 300 , and may support the inner surface of the heating belt 200 so that the heating belt 200 can rotate smoothly. .

The support member 301 may have a plurality of projections formed on one surface facing the heating belt 200 in the longitudinal direction (Y-axis direction) of the heating belt 200 . Accordingly, the contact area between the support member 301 and the heating belt 200 is reduced, so that abrasion occurring on the inner surface of the heating belt 200 can be reduced.

The rotating ring 302 is disposed between the support member 301 and the heating belt 200 and may have a ring shape with a hollow center. The rotating ring 302 rotates together with the heating belt 200 when the heating belt 200 rotates, thereby eliminating frictional resistance caused by the heating belt 200 being in direct contact with the supporting member 301, and the heating belt (200) can be maintained in a shape close to a circle.

The pipe 400 may connect the reservoir 700 ( FIG. 13 ) in which the lubricant O is stored and the duct member 600 to provide a movement path of the lubricant O. The pipe 400 may pass through the housing 11 and the bush 300 to communicate with the duct member 600 disposed inside the heating belt 200 . However, the arrangement of the pipe 400 is not limited thereto, and it is sufficient if the storage 700 and the duct member 600 can be connected. Various arrangement structures of the pipe 400 will be described later in detail.

The lubricant O may be composed of oil in a fluid state and grease in a semi-solid state. The oil may be silicone or fluorine as the main raw material.

The opening/closing device 500 may be disposed between the storage 700 and the duct member 600 to selectively open and close the flow path between the storage 700 and the duct member 600 . A detailed configuration of the opening and closing device 500 will be described later.

The reservoir 700 stores the lubricant O, and may be disposed on the outside of the heating belt 200 . Since the reservoir 700 communicates with the duct member 600 , the lubricant O may move from the reservoir 700 to the duct member 600 .

The lubricant O may be moved by a pump 800 ( FIG. 13 ) disposed between the reservoir 700 and the duct member 600 . In addition, the lubricant O may move from the storage 700 to the duct member 600 located below the storage 700 by its own weight. A detailed configuration of the storage 700 will be described later.

Inside the heating belt 200 , a nip forming member 201 , a nip plate 202 , an impregnating member 203 , a pressing member 204 , a heat source 205 , a reflecting plate 206 , and a duct member 600 are disposed. can be

The nip forming member 201 may be inscribed with the heating belt 200 to form a fixing nip N between the pressure roller 100 and the heating belt 200 . The nip forming member 201 may guide the heating belt 200 so that the heating belt 200 can run smoothly in the vicinity of the fixing nip N.

The nip forming member 201 is formed in the shape of a channel having a substantially flat bottom U-shape in cross section, and the pressing member 204 may be disposed therein. However, the shape of the nip forming member 201 is not limited thereto, and it is sufficient if one surface has a flat shape to form the fixing nip N.

The nip plate 202 may be disposed between the nip forming member 201 and the heating belt 200 . The nip plate 202 prevents direct contact between the nip forming member 201 and the heating belt 200, thereby preventing excessive frictional resistance from occurring between the nip forming member 201 and the heating belt 200. have. The detailed shape of the nip plate 202 will be described later.

The impregnated member 203 is disposed between the duct member 600 and the heating belt 200, and the lubricant O provided from the duct member 600 is impregnated and supplied to the inner surface of the heating belt 200. have. Accordingly, it is possible to prevent the excessive discharge of the lubricant (O) from the duct member 600 within a short time.

The impregnating member 203 may be formed of a porous material capable of impregnating the lubricant (O). For example, the impregnating member 203 may be formed of felt or fabric. The impregnated member 203 may have a curved or rounded outer surface in contact with the heating belt 200 . Accordingly, since the impregnated member 203 has a large contact area with the heating belt 200 , the lubricant O can be efficiently supplied to the heating belt 200 .

In addition, in order to prevent the impregnated member 203 from being separated from the duct member 600 by the continuous contact external force of the heating belt 200 , the impregnated member 203 may be fixed to one surface of the duct member 600 . A fixing member (not shown) may be provided. The fixing member may have a clip shape having an elastic force, but is not limited thereto, and a shape capable of fixing the impregnating member 203 to the duct member 600 is sufficient.

The pressing member 204 has both ends supported by the bushes 300 formed at both ends of the heating belt 200 , and passes through the central portion of the heating belt 200 in the longitudinal direction of the heating belt 200 . The shape of (200) can be maintained.

The pressing member 204 reinforces the nip forming member 201 to minimize bending deformation of the nip forming member 201 . The pressing member 204 is formed in a channel shape having a substantially flat U-shaped cross-section, and may be installed inside the nip forming member 201 . In addition to the U-shape with a flat bottom, the pressing member 204 may be formed in a structure having a large cross-sectional moment of inertia, such as an I-beam or an H-beam.

The heat source 205 may be disposed on a side opposite to the side on which the pressure member 204 faces the pressure roller 100 . The heat source 205 is a component that generates heat required for image fixing, and may be provided as a heat lamp (eg, a halogen lamp) or a heating resistor. The heat source 205 may be disposed along the rotation axis of the heating belt 200 inside the heating belt 200 .

The reflective plate 206 may be disposed between the heat source 205 and the pressing member 204 and may be formed to surround the pressing member 204 . Accordingly, since the heat source 205 and the pressing member 204 do not come into direct contact, the pressing member 204 is not excessively heated by the heat source 205 , and damage can be prevented.

In addition, since the lubricant O contained in the duct member 600 is also located on the opposite side to the heat source 205 with respect to the reflector 206, the lubricant O is vaporized at a high temperature or has a low viscosity, so that the heating belt ( 200) can prevent leakage to both ends.

The reflector 206 may reflect heat radiated from the heat source 205 toward the heating belt. Accordingly, since most of the heat generated from the heat source 205 is used to heat the heating belt 200 , the heating efficiency of the heat source 205 can be increased.

The duct member 600 is provided on one side of the nip forming member 201, stores a lubricant, and communicates with a storage 700 disposed outside the heating belt 200 to provide a lubricant on the inner surface of the heating belt 200 (O) can be supplied.

The duct member 600 may have a length corresponding to the nip forming member 201 , and may be formed integrally with the nip forming member 201 , but is not limited thereto, and may be formed separately.

The duct member 600 may form a closed inner space in which the lubricant O can move along the longitudinal direction (Y-axis direction). One side of the duct member 600 is open and has an approximately U-shape, and the opened side may be closed by the sealing member 601 . However, the present invention is not limited thereto, and the duct member 600 may be integrally formed in the shape of a channel.

The lubricant O flows from the storage 700 to the inner space of the duct member 600 along the pipe 400 passing through the opening/closing device 500 , the housing 11 , the bush 300 and the sealing member 601 in sequence. can move

The duct member 600 may include a plurality of supply holes 602 in the longitudinal direction (Y-axis direction). The plurality of supply holes 602 may be formed on one surface of the duct member 600 in contact with the heating belt 200 or the impregnating member 203 .

The lubricant O located in the inner space of the duct member 600 may be supplied to the inner surface of the heating belt 200 through the plurality of supply holes 602 . Accordingly, wear of the inner surface of the heating belt 200 can be reduced.

In addition, even if the lubricant (O) inside the duct member 600 is exhausted, since the lubricant (O) can be continuously supplied from the storage 700 to the duct member 600, the nip forming member 201 and the heating belt Damage due to the mutual friction of 200 is reduced, and the life of the fixing device 10 can be increased.

5 to 6 are a perspective view and an exploded perspective view showing the configuration of the inside of the heating belt according to an embodiment of the present disclosure. 7 is an enlarged perspective view of one end of the duct member according to an embodiment of the present disclosure.

5 to 6, on the inside of the heating belt 200, the pipe 400, the sealing member 601, the duct member 600, the impregnating member 203 and the nip plate 202 in the X-axis direction Accordingly, they may be sequentially stacked.

The nip plate 202 may include an opening 202a penetrating in the thickness direction at a position corresponding to the duct member 600 . Accordingly, the lubricant O may be supplied to the inner surface of the heating belt 200 from the duct member 600 through the opening 202a without being interfered with by the nip plate 202 .

For example, the impregnating member 203 covering the supply hole 602 formed in the duct member 600 may be exposed toward the inner surface of the heating belt 200 through the opening 202a. Accordingly, the lubricant O can be easily supplied to the heating belt 200 without interference from the nip plate 202 .

One end 400a of the pipe 400 may communicate with the storage 700, and the other end 400b may be inserted into the hole 601a formed in the sealing member 601 to communicate with the duct member 600. .

For example, the other end 400b of the pipe 400 may be connected in the middle with respect to the longitudinal direction of the duct member 600 . Accordingly, the lubricant O may move symmetrically with respect to the other end 400b of the pipe 400 of the duct member toward both ends of the duct member 600 . That is, the lubricant O may be uniformly supplied to the inner surface of the heating belt 200 along the longitudinal direction of the heating belt 200 .

Since the supply hole 602 has a circular shape with a cross-section having a diameter equal to or less than a predetermined size, a predetermined capillary force may be applied to the lubricant O located in the supply hole 602 . The capillary force is due to the surface tension of the fluid, and may be a kind of resistive force that prevents the fluid located in the capillary from being discharged out of the capillary in order to maintain a small surface area.

For example, in the lubricant O located in the supply hole 602 in the intermediate region adjacent to the other end 400b of the pipe 400 , the lubricant O is the farthest from the other end 400b of the pipe 400 . It may not be discharged to the outside of the duct member 600 due to capillary force while moving to the supply hole 602a.

That is, as the duct member 600 has the supply hole 602 having a fine diameter, the lubricant O is not discharged only to the supply hole 602 in a specific area, but the entire supply hole 602 Since it can be uniformly discharged throughout, it is possible to prevent a phenomenon in which the lubricant O is supplied only to a limited area of the heating belt 200 .

In addition, the supply hole 602 may be disposed so that the diameter of the cross-section thereof increases in a direction away from the other end 400b of the pipe 400 or the interval between the adjacent supply holes 602 becomes narrower. That is, as the supply hole 602 has the above-mentioned size or spacing of the diameter, the lubricant O is adjacent to the other end 400b of the pipe 400 among the duct members 600 and a region with high pressure, It is disposed far from the other end 400b of the pipe 400 and may be uniformly supplied to the heating belt 200 in an area where the pressure is small.

Referring to FIG. 7 , at least one of the plurality of supply holes 602 may be disposed above the other supply holes 602 . For example, the supply hole 602a furthest from the other end 400b of the pipe 400 may be disposed higher than the remaining supply holes 602 by a predetermined height h.

When the lubricant O moves from the other end 400b of the pipe 400 to both ends of the duct member 600, the air remaining in the inner space of the duct member 600 is pushed by the lubricant O to the duct It can move to both ends of the member 600 . Since air is less dense than the lubricant (O), it may be located above the lubricant (O).

Until the lubricant O fills the inner space of the duct member 600, the remaining air inside the duct member 600 passes through the other end 400b of the pipe 400 and the furthest supply hole 602a. Through the air flow path (A) can be easily discharged to the outside of the duct member (600).

Accordingly, the lubricant O is supplied to the heating belt 200 at a uniform pressure from all the supply holes 602 of the duct member 600 without being interfered with by the air expanded by the heat generated from the heat source 205 . can

8 to 9 are views for explaining various modifications of the pipe according to an embodiment of the present disclosure.

Referring to FIG. 8 , the other end 400b of the pipe 400 may be connected to one end 600a of the duct member 600 . Accordingly, the pipe 400 can be connected to the duct member 600 while minimizing interference with components disposed inside the heating belt 200, and the pipe 400 and the lubricant ( O) is less affected by the heat generated from the heat source 205, so the lifespan can be increased.

In addition, the supply hole 602a disposed above the remaining supply hole 602 among the plurality of supply holes 602 is the other of the duct member 600 in consideration of the movement direction of the remaining air in the duct member 600 . It may be disposed adjacent to the stage 600b.

In addition, the plurality of supply holes 602 may have an increased cross-sectional diameter from one end 600a of the duct member 600 toward the other end 600b, or a distance between adjacent supply holes 602 may be narrowed. . Accordingly, as described above, the lubricant O may be supplied to the heating belt 200 at a uniform pressure in all the supply holes 602 of the duct member 600 .

Referring to FIG. 9 , the fixing device 10 according to an embodiment of the present disclosure connects the storage 700 and one end 600a of the duct member 600 to form a first pipe 410 to form a supply passage. and a second pipe 420 connecting the storage 700 and the other end 600b of the duct member 600 to form a recovery passage.

The lubricant O is supplied from the reservoir 700 to the inner space of the duct member 600 along the first pipe 410 and from the inner space of the duct member 600 along the second pipe 420 to the reservoir 700 . ) can be recovered. Accordingly, since the supply flow path and the recovery flow path of the lubricant O do not overlap with each other, the lubricant O may move to the duct member 600 or the storage 700 more easily.

In addition, since both ends 600a and 600b of the duct member 600 are open, the remaining air in the duct member 600 is the second pipe 420 connected to the other end 600b of the duct member 600 . It can be easily discharged to the outside of the duct member 600 through.

10 is an exploded perspective view of an opening/closing device according to an embodiment of the present disclosure; 11 to 12 are cross-sectional views illustrating an operation of an opening/closing device according to an exemplary embodiment of the present disclosure.

Referring to FIG. 10 , the opening/closing device 500 according to an embodiment of the present disclosure may be disposed between the duct member 600 and the storage 700, and one end 500a and the other end 500b are piped. It may be connected to the storage 700 and the duct member 600 through 400 , respectively.

The opening and closing device 500 includes first and second bodies 510a and 510b, first and second springs 520a and 520b, first and second opening and closing members 530a and 530b, and first and second rubbers ( 540a and 540b) and a pressing member 550 may be included.

The first body 510a may include a hole penetrating in the longitudinal direction, and a first spring 520a, a first opening/closing member 530a, and a first rubber 540a may be sequentially disposed inside the hole.

The first spring 520a has one end fixed to the inner surface of the first body 510a to contract and stretch in parallel with the longitudinal direction of the first body 510a, and the other end to be connected to the first opening and closing member 530a. can

The first opening/closing member 530a may have a spherical shape, but is not limited thereto.

The first rubber 540a may have a shape through which the center is penetrated in the longitudinal direction, and the inner diameter of the through-section may have a size corresponding to the diameter of the opening/closing member.

The pressing member 550 may include a plate at the center, and may include a pressing protrusion 551 and a coupling protrusion 552 protruding from the front and rear surfaces of the plate.

The pressing protrusion 551 may have a cross-section having a diameter corresponding to the inner diameter of the first rubber 540a, and may include a hole 551a having a center penetrated in the longitudinal direction. One end of the coupling protrusion 552 has a wedge shape, so that it is possible to prevent an unintentional release of the coupling between the first and second bodies 510a and 510b.

The second body 510b, the second spring 520b, the second opening/closing member 530b, and the second rubber 540b are respectively a first body 510a, a first spring 520a, and a second opening/closing member 530a. ) and the first rubber 540a may have the same shape and be symmetrically disposed with respect to the pressing member 550 .

11 and 12 may be views illustrating a case in which the storage 700 and the duct member 600 are connected and separated, respectively. The first and second opening/closing members 530a and 530b may open the flow path between the storage 700 and the duct member 600 at a first position and close it at a second position. The first and second opening/closing members 530a and 530b may be spaced apart from each other without contacting the first and second rubbers 540a and 540b, respectively, in the first position to form a gap therebetween, respectively, and in the second position, respectively. A gap may not be formed in contact with the first and second rubbers 540a and 540b.

For example, as the first body 510a and the second body 510b are connected to each other, when the storage 700 and the duct member 600 are connected, the first and second opening and closing members 530a and 530b are As the first and second springs 520a and 520b are compressed by being pushed by the pressing protrusion 551 , they may move from the second position to the first position. Accordingly, the lubricant O flows in the F1 direction through the gap between the first and second opening and closing members 530a and 530b and the first and second rubbers 540a and 540b and the hole 551a of the pressing protrusion 551 . may be supplied to or recovered in the F2 direction.

On the other hand, as the first body 510a and the second body 510b are separated from each other, when the storage 700 and the duct member 600 are separated, the pressing protrusion 551 is no longer the first and second opening and closing members As the first and second springs 520a and 520b are tensioned to their original free lengths because they do not push the 530a and 530b, the first and second opening and closing members 530a and 530b move from the first position to the second position. can be moved to

Accordingly, even if the user separates the first and second bodies 510a and 510b for reasons such as filling the storage 700 with the lubricant O or replacing parts of the fixing device 10 , the first and second 2 Since the opening/closing members 530a and 530b close the flow path between the reservoir 700 and the duct member 600 in the second position, the lubricant O is transferred between the reservoir 700 and the duct member 600 in the image forming apparatus It is possible to prevent leakage into the inside of (1).

13 to 14 are cross-sectional views illustrating operations of a reservoir, a pump, and a pressure control valve according to an embodiment of the present disclosure.

The storage 700 has an opening 710 formed at the lower side, so that the lubricant O can enter and exit the storage 700 through the opening 710 . The storage 700 may have a vent hole (not shown) formed on the upper side to communicate with the outside. Accordingly, even if the lubricant (O) stored in the storage (700) decreases, the internal pressure does not increase and can be maintained the same as the outside, so that the lubricant (O) can be stably supplied and recovered.

The pump 800 may selectively supply the lubricant O from the reservoir 700 to the duct member 600 in the S direction, and may selectively recover the lubricant O from the duct member 600 to the reservoir 700 in the R direction. . Accordingly, the pump 800 recovers the lubricant O when the pressure in the duct member 600 is high, and supplies the lubricant O when the pressure in the duct member 600 is low, the pressure in the duct member 600 . This can be done to keep it uniform.

That is, the pump 800 is properly driven as needed, and the lubricant O in the duct member 600 is excessively supplied and flows to the outside of the heating belt 200, or is supplied less so that the heating belt 200 and the nip are supplied. It is possible to prevent damage to parts due to friction between the forming members 201 .

In addition, a pressure control valve 900 communicating with the pipe 400 and the inside of the storage 700 may be installed on the upper surface 720 of the storage 700 . For example, the pressure regulating valve 900 has a first port 901 communicating with the duct member 600 and a second port 902 communicating with the reservoir 700 , and one end 910a has a second A spring 910 connected to the port 902, a ball 920 that is connected to the other end 910b of the spring 910 to selectively open and close the first port 901, and the center are formed to penetrate in the longitudinal direction, It may include a rubber 930 that selectively contacts the ball 920 .

When the pressure in the duct member 600 is smaller than a preset value, the opening/closing member may maintain a state in contact with the rubber 930 to close the first port 901 . Accordingly, the lubricant O may be stably supplied from the storage 700 toward the duct member 600 in the S direction.

However, when the pressure in the duct member 600 is greater than a preset value, the opening and closing member is pressed and the spring 910 is compressed, so that it is spaced apart from the rubber 930 to form a gap therebetween.

That is, when the lubricant (O) is excessively supplied to the inside of the duct member 600 and is in a high pressure state, even when the pump 800 is operated, the lubricant (O) is opened in the first port 901 and the second port ( 902) and may be recovered into the storage 700.

Accordingly, the inside of the duct member 600 can be controlled so as not to exceed a preset pressure at all times, and a phenomenon that the lubricant O is excessively supplied and leaks to the outside of the heating belt 200 can be prevented.

15 is a functional block diagram of a fixing apparatus according to an embodiment of the present disclosure.

Referring to FIG. 15 , the fixing apparatus 10 according to an embodiment of the present disclosure may include a sensor 1100 and a processor 1000 . The sensor 1100 detects a load torque of the driving device 104 rotating the pressure roller 100, and the processor 1000, when the load torque detected by the sensor 1100 exceeds a preset value, the lubricant ( O) may be controlled such that the pump 800 is supplied from the storage 700 to the duct member 600 .

For example, when the supply amount of the lubricant O is insufficient, as friction increases between the nip forming member 201 and the inner surface of the heating belt 200 , the heating belt 200 is compared to the pressure roller 100 . Since it rotates slowly, a higher load torque may be applied to the pressure roller 100 .

The sensor 1100 may detect a load torque according to a current value of the driving device 104 (eg, a motor) and transmit it to the processor 1000 . When the load torque value of the driving device 104 transmitted from the sensor 1100 exceeds a preset value, the processor 1000 may control the pump 800 to supply the lubricant O.

Accordingly, the fixing device according to an embodiment of the present disclosure can not only continuously supply the lubricant to the heating belt, but also supply the lubricant at an appropriate time to prevent leakage of lubricant due to excessive supply of lubricant or damage to parts due to insufficient supply. can be prevented

In addition, when at least one of the driving time of the fixing device 10 or the number of prints exceeds a preset value, the processor 1000 pumps the lubricant O from the storage 700 to the duct member 600 ( 800) can also be controlled.

Accordingly, at a time before the lubricant (O) in the duct member 600 is depleted, a certain amount of the lubricant (O) is supplied by the pump 800, so the heating belt 200 does not dry out, Part breakage can be prevented.

However, the above-described method of controlling the pump 800 of the processor 1000 is not limited thereto, and the sensor 1100 senses the level or pressure of the lubricant O in the duct member 600, and the processor 1000 is The supply time of the lubricant may be determined based on the water level value or the pressure value detected by the sensor 1100 .

The present disclosure has been described above in an exemplary manner. The terms used herein are for the purpose of description and should not be construed in a limiting sense. Various modifications and variations of the present disclosure are possible according to the above contents. Accordingly, unless otherwise stated, the present disclosure may be practiced freely within the scope of the claims.

1: image forming apparatus 10: fixing apparatus
100: pressure roller 200: heating belt
300: bush 400: pipe
500: switchgear 600: duct member
700: storage 800: pump
900: pressure regulating valve 1000: processor
1100: sensor

Claims (15)

a pressure roller provided rotatably;
a heating belt disposed to circumscribe the pressure roller;
a reservoir in which lubricant is stored and disposed outside the heating belt;
a nip forming member inscribed in the heating belt to form a fixing nip between the pressure roller and the heating belt; and
and a duct member provided on one side of the nip forming member and communicating with the storage to supply a lubricant to the inner surface of the heating belt. According to claim 1,
and the duct member has a length corresponding to the nip forming member and includes a plurality of supply holes along the longitudinal direction. 3. The method of claim 2,
At least one of the plurality of supply holes is disposed above the other supply holes. According to claim 1,
and an impregnating member disposed between the duct member and the heating belt and capable of impregnating the lubricant. According to claim 1,
Further comprising; a nip plate disposed between the nip forming member and the heating belt,
The nip plate fixing device including an opening at a position corresponding to the duct member. The method of claim 1,
Further comprising; an opening and closing device disposed between the storage and the duct member;
The opening and closing device is
an opening/closing member for opening a flow path between the storage and the duct member at a first position and closing it at a second position; and
and a pressing member for pushing the opening/closing member from a first position to a second position when the storage and the duct member are connected. According to claim 1,
Further comprising; a pipe connecting the storage and the duct member to provide a movement path of the lubricant,
The pipe is a fixing device connected in the middle based on the longitudinal direction of the duct member. According to claim 1,
Further comprising; a pipe connecting the storage and the duct member to provide a movement path of the lubricant,
The pipe is a fixing device connected to one end of the duct member. According to claim 1,
a first pipe connecting one end of the storage and the duct member to form a supply passage; and
and a second pipe connecting the storage and the other end of the duct member to form a recovery passage. The method of claim 1,
Further comprising; a pressure regulating valve having a first port in communication with the duct member and a second port in communication with the reservoir;
The pressure regulating valve,
a spring having one end connected to the second port; and
and a ball connected to the other end of the spring to selectively open and close the first port. According to claim 1,
The fixing device further comprising a; pump for selectively supplying the lubricant from the storage to the duct member. 12. The method of claim 11,
and the pump selectively recovers the lubricant from the duct member to the reservoir. 12. The method of claim 11,
a driving device for rotating the pressure roller;
a sensor for detecting a load torque of the driving device; and
and a processor controlling the pump so that lubricant is supplied from the storage to the duct member when the load torque detected by the sensor exceeds a preset value. 12. The method of claim 11,
and a processor controlling the pump to supply lubricant from the storage to the duct member when at least one of a driving time of the fixing device or the number of prints exceeds a preset value. An image forming apparatus comprising:
a photosensitive drum on which an electrostatic latent image is formed;
a developing device for supplying toner to the electrostatic latent image to form a toner image on a print medium; and
a fixing device for pressing the print medium;
The fixing device is
a pressure roller provided rotatably;
a heating belt disposed to circumscribe the pressure roller;
a reservoir in which lubricant is stored and disposed outside the heating belt;
a nip forming member inscribed in the heating belt to form a fixing nip between the pressure roller and the heating belt;
and a duct member provided on one side of the nip forming member and communicating with the storage to supply a lubricant to an inner surface of the heating belt.

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