JP2022089694A - Fixing device - Google Patents

Abstract

To provide a fixing device that can suppress reduction in a fixing temperature at ends of an area through which the largest sheet on which an image forming apparatus can perform printing passes.SOLUTION: A fixing device comprises: a belt; a heater 112; a holder; and a heat conduction member 114. The heater 112 has a substrate 1121, and a heating element 1122. The heat conduction member 114 is located between the heater 112 and the holder, and has a contact part 1141, a first non-contact part 1142A, and a second non-contact part 1142B. The contact part 1141 is located between the first non-contact part 1142A and the second non-contact part 1142B. The first non-contact part 1142A faces an area where the heating element 1122 has one end E21 on the substrate 1121. The second non-contact part 1142B faces an area where the heating element 1122 has the other end E22 on the substrate 1121. The contact part 1141 is in contact with the heater 112, and the first non-contact part 1142A and the second non-contact part 1142B are not in contact with the heater 112.SELECTED DRAWING: Figure 3

Description

The present disclosure relates to a fixing device.

Conventionally, a heating device including a fixing film and a heating heater for heating the fixing film is known. The heating device has a metal plate which is a high thermal conductive member between the heat insulating support member and the heating heater (see Patent Document 1 below).

Japanese Unexamined Patent Publication No. 11-841919

In the heating device described in Patent Document 1 described above, since the metal plate is provided over the entire area of the heating heater, the heat from the heating heater is the region through which the maximum sheet that can be printed by the image forming apparatus passes. It will be transmitted to the outside.

Therefore, the fixing temperature may drop at the end of the region through which the maximum sheet that can be printed by the image forming apparatus passes.

Therefore, an object of the present disclosure is to provide a fixing device capable of suppressing a decrease in the fixing temperature at the end of a region through which the maximum sheet that can be printed by the image forming device passes.

(1) The fixing device of the present disclosure includes a cylindrical belt, a heater, a holder, and a heat conductive member. The heater contacts the inner peripheral surface of the belt. The heater heats the belt. The heater has a plate-shaped substrate and a heating element. The substrate extends in the first direction. The first direction is parallel to the rotation axis direction of the belt. The heating element is located on the substrate. The holder is located inside the belt. The holder supports the heater. The heat conductive member is located between the heater and the holder. The thermal conductivity of the heat conductive member is higher than the thermal conductivity of the substrate.

The heat conductive member has a contact portion, a first non-contact portion, and a second non-contact portion. The contact portion is located between one end of the heating element and the other end of the heating element in the first direction. The contact portion comes into contact with the heater. The first non-contact portion faces a region of the substrate where one end of the heating element is located. The first non-contact portion does not come into contact with the heater. The second non-contact portion faces the region of the substrate where the other end of the heating element is located. The second non-contact portion does not come into contact with the heater.

According to such a configuration, in the heat conductive member, the first non-contact portion and the second non-contact portion do not come into contact with the heater.

Therefore, in the heat conduction member, the heat conduction between the heater and the first non-contact portion and the heat conduction between the heater and the second non-contact portion are the heat between the heater and the contact portion. Compared to conduction, it is suppressed.

The first non-contact portion of the heat conductive member faces the region where one end of the heating element is located on the substrate, and the second non-contact portion of the heat conductive member is located in the region where the other end of the heating element is located on the substrate. opposite.

As a result, the heat of the heater can be suppressed from being transmitted to one side of one end of the heating element by the first non-contact portion, and the heat of the heater can be transferred to the other side of the other end of the heating element. 2 It can be suppressed by the non-contact part.

Therefore, it is possible to suppress a decrease in the fixing temperature near one end of the heating element and near the other end of the heating element.

As a result, it is possible to suppress a decrease in the fixing temperature at one end and the other end of the region through which the maximum sheet that can be printed by the image forming apparatus passes.

(2) Each of the first non-contact portion and the second non-contact portion may face the substrate with a gap between the first non-contact portion and the second non-contact portion.

According to such a configuration, in the heat conductive member, each of the first non-contact portion and the second non-contact portion can be prevented from coming into contact with the heater by having a gap between the first non-contact portion and the second non-contact portion.

(3) The end of the first non-contact portion on the contact portion side and the end of the second non-contact portion on the contact portion side are areas through which the largest sheet that can be printed by the image forming apparatus passes in the first direction. It may be located inside.

According to such a configuration, the heat of the heater can be further suppressed by the first non-contact portion from being transmitted to one side of the region through which the maximum sheet that can be printed by the image forming apparatus passes.

Further, the heat of the heater can be further suppressed by the second non-contact portion from being transmitted to the other side of the region through which the maximum sheet that can be printed by the image forming apparatus passes.

As a result, the decrease in the fixing temperature can be further suppressed at one end and the other end of the region through which the maximum sheet that can be printed by the image forming apparatus passes.

(4) The heating element has a first portion, a second portion, and a third portion. The first portion is the central portion of the heating element in the first direction. The second portion is located on one end side of the first portion in the first direction. The resistance value per unit length of the second portion is lower than the resistance value per unit length of the first portion. The third portion is located on the other end side of the first portion in the first direction. The resistance value per unit length of the third portion is lower than the resistance value per unit length of the first portion. The end of the first non-contact portion on the contact portion side faces one end of the first portion of the heating element. The end of the second non-contact portion on the contact portion side faces the other end of the first portion of the heating element.

According to such a configuration, the end portion of the first non-contact portion on the contact portion side and the end portion of the second non-contact portion on the contact portion side do not face the central portion of the first portion of the heating element.

Thereby, it is possible to prevent the first non-contact portion and the second non-contact portion from inhibiting the conduction of heat from the first portion of the heating element.

Therefore, it is possible to make the fixing temperature uniform in the region where the maximum sheet that can be printed by the image forming apparatus passes.

(5) The heater further has a terminal. The terminal is located in the first direction between one end of the heater and the heating element. The terminals are electrically connected to the heating element by wiring. The heat conductive member may extend from the position between the terminal and the heating element to the other end of the heater in the first direction.

(6) The heat conductive member may extend from one end of the heater to the other end of the heater in the first direction.

(7) The heat conductive member may further have a second contact portion and a third contact portion. The second contact portion is located at one end of the heat conductive member in the first direction. The second contact portion comes into contact with the heater. The third contact portion is located at the other end of the heat conductive member in the first direction. The third contact portion comes into contact with the heater. The first non-contact portion is located between the contact portion and the second contact portion in the first direction. The second non-contact portion is located between the contact portion and the third contact portion in the first direction.

According to such a configuration, when the image forming apparatus continuously prints the sheet, the temperature of the belt in the region where the sheet does not pass becomes high due to the second contact portion and the third contact portion. Can be prevented.

According to the fixing device of the present disclosure, it is possible to suppress a decrease in the fixing temperature at the end of a region through which the maximum sheet that can be printed by the image forming device passes.

FIG. 1 is a schematic configuration diagram of an image forming apparatus. FIG. 2 is a cross-sectional view of the fixing device. FIG. 3 is an explanatory diagram for explaining the positional relationship between the heater and the heat conductive member. FIG. 4 is an explanatory diagram for explaining the contact between the heater and the heat conductive member. FIG. 5 is an explanatory diagram for explaining a modified example.

1. 1. Schematic of the image forming apparatus 1 The outline of the image forming apparatus 1 will be described with reference to FIG.

The image forming apparatus 1 includes a main body housing 2, a sheet accommodating portion 3, a photosensitive drum 4, a charging device 5, an exposure device 6, a developing device 7, a transfer device 8, and a fixing device 9.

1.1 Main body housing 2
The main body housing 2 accommodates a sheet accommodating portion 3, a photosensitive drum 4, a charging device 5, an exposure device 6, a developing device 7, a transfer device 8, and a fixing device 9.

1.2 Seat housing 3
The seat accommodating portion 3 can accommodate the seat S. The sheet S is, for example, printing paper. The sheet S is conveyed from the sheet accommodating portion 3 toward the photosensitive drum 4.

1.3 Photosensitive drum 4
The photosensitive drum 4 is rotatable about the drum shaft A1. The drum shaft A1 extends in the first direction. The photosensitive drum 4 extends in the first direction.

1.4 Charging device 5
The charging device 5 charges the surface of the photosensitive drum 4. In this embodiment, the charging device 5 is a charging roller. The charging device 5 may be a scorotron type charging device.

1.5 Exposure device 6
The exposure device 6 exposes the surface of the photosensitive drum 4 charged by the charging device 5. Specifically, the exposure apparatus 6 is a laser scan unit. The exposure apparatus 6 may be an LED array.

1.6 Developer 7
The developing device 7 supplies toner on the photosensitive drum 4. Specifically, the developing device 7 supplies toner on the surface of the photosensitive drum 4 exposed by the exposure device 6. The developing device 7 has a developing housing 71 and a developing roller 72.

1.6.1 Development housing 71
The developing housing 71 can accommodate toner.

1.6.2 Development roller 72
The developing roller 72 can supply the toner in the developing housing 71 to the surface of the photosensitive drum 4. In this embodiment, the developing roller 72 comes into contact with the photosensitive drum 4. The developing roller 72 may be separated from the photosensitive drum 4 at a predetermined interval. The developing roller 72 is rotatable about the developing shaft A2. The development axis A2 extends in the first direction. The developing roller 72 extends in the first direction.

1.7 Transfer device 8
The transfer device 8 transfers the toner on the photosensitive drum 4 to the sheet S. In this embodiment, the transfer device 8 has a transfer roller 81. The transfer roller 81 comes into contact with the photosensitive drum 4. The transfer roller 81 may be separated from the photosensitive drum 4 at a predetermined interval. The sheet S in the sheet accommodating portion 3 passes between the photosensitive drum 4 and the transfer roller 81, and is conveyed to the fixing device 9. The transfer roller 81 transfers the toner on the photosensitive drum 4 to the sheet S passing between the photosensitive drum 4 and the transfer roller 81. The transfer roller 81 is rotatable about the transfer shaft A3. The transfer axis A3 extends in the first direction. The transfer roller 81 extends in the first direction. The transfer device 8 may have a transfer belt.

1.8 Fixing device 9
The fixing device 9 heats and pressurizes the sheet S on which the toner is transferred to fix the toner on the sheet S. The sheet S that has passed through the fixing device 9 is discharged to the upper surface of the main body housing 2.

2. 2. Details of the Fixing Device 9 Next, the details of the fixing device 9 will be described with reference to FIGS. 2 and 3.

As shown in FIG. 2, the fixing device 9 includes a heating unit 11 and a pressure roller 12.

2.1 Heating unit The heating unit 11 heats the sheet S to which the toner is transferred. The heating unit 11 includes a belt 111, a heater 112, a holder 113, and a heat conductive member 114. In other words, the fixing device 9 includes a belt 111, a heater 112, a holder 113, and a heat conductive member 114.

2.1.1 Belt 111
The belt 111 heats the sheet S to which the toner is transferred. The belt 111 has a cylindrical shape. In other words, the belt 111 is an endless belt. The belt 111 extends in the first direction. The belt 111 is rotatable about the rotation shaft A4. The rotation axis A4 extends in the first direction. That is, the first direction is parallel to the rotation axis direction of the belt 111. The belt 111 has an inner peripheral surface S1 and an outer peripheral surface S2.

2.1.2 Heater 112
The heater 112 heats the belt 111. The heater 112 is located inside the belt 111. The heater 112 comes into contact with the inner peripheral surface S1 of the belt 111. The heater 112 extends in the first direction. The heater 112 has an elongated flat plate shape.

As shown in FIG. 3, the heater 112 has a substrate 1121, a heating element 1122, terminals 1123, and wiring 1124.

2.1.2.1 Substrate 1121
The substrate 1121 has an elongated flat plate shape. The substrate 1121 extends in the first direction. The substrate 1121 is made of, for example, a metal such as stainless steel. The surface of the substrate 1121 is covered with an insulating layer. The substrate 1121 is made of a heat-resistant insulating material such as ceramic.

2.1.2.2 Heating element 1122
The heating element 1122 is located on the substrate 1121. Specifically, the heating element 1122 is patterned on the insulating layer of the substrate 1121. The heating element 1122 is a resistance heating element made of a silver-palladium alloy or the like. The heating element 1122 generates heat when energized. The heating element 1122 extends in the first direction. The heating element 1122 has a plate shape. The heating element 1122 is located in the first direction between one end E1 of the heater 112 and the other end E2 of the heater 112. One end E21 of the heating element 1122 is located at one end of a region A through which the largest sheet S printable by the image forming apparatus 1 passes in the first direction. The other end E22 of the heating element 1122 is located at the other end of the region A in the first direction. The heating element 1122 has a first portion 1122A, a second portion 1122B, and a third portion 1122C.

The first portion 1122A is the central portion of the heating element 1122 in the first direction. The first portion 1122A extends in the first direction.

The second portion 1122B is located on one end side of the first portion 1122A in the first direction. The second portion 1122B is located at one end of the heating element 1122 in the first direction. The size of the second portion 1122B in the width direction is wider than the size of the first portion 1122A in the width direction. In other words, the cross-sectional area of the second portion 1122B is larger than the cross-sectional area of the first portion 1122A. Therefore, the resistance value per unit length of the second portion 1122B is lower than the resistance value per unit length of the first portion 1122A. Therefore, the calorific value of the second portion 1122B is lower than the calorific value of the first portion 1122A.

The third portion 1122C is located on the other end side of the first portion 1122A in the first direction. The third portion 1122C is located at the other end of the heating element 1122 in the first direction. The size of the third portion 1122C in the width direction is wider than the size of the first portion 1122A in the width direction. In other words, the cross-sectional area of the third portion 1122C is larger than the cross-sectional area of the first portion 1122A. Therefore, the resistance value per unit length of the third portion 1122C is lower than the resistance value per unit length of the first portion 1122A. Therefore, the calorific value of the third portion 1122C is lower than the calorific value of the first portion 1122A.

2.12.3 Terminal 1123
The terminal 1123 is located between one end E1 of the heater 112 and the heating element 1122 in the first direction. Terminal 1123 is located away from the heating element 1122 in the first direction. The terminal 1123 is a terminal for supplying electricity to the heating element 1122, and is connected to a power source in the main body housing 2 via a connector (not shown).

2.12.4 Wiring 1124
The wiring 1124 is located between the terminal 1123 and the heating element 1122 in the first direction. One end of the wiring 1124 is connected to the terminal 1123. The other end of the wiring 1124 is connected to the heating element 1122. The wiring 1124 is made of silver or the like. The wiring 1124 electrically connects the terminal 1123 and the heating element 1122. In other words, the terminal 1123 is electrically connected to the heating element 1122 by wiring 1124.

2.1.3 Holder 113
As shown in FIG. 2, the holder 113 supports the heater 112. The holder 113 is located inside the belt 111. The holder 113 extends in the first direction. The holder 113 is made of resin. The holder 113 has a support portion 1131 and two belt guides 1132A and 1132B.

2.1.3.1 Support part 1131
The support portion 1131 supports the heater 112 and the heat conductive member 114. The support portion 1131 is located at the center of the holder 113 in the width direction of the heater 112. The width direction of the heater 112 intersects the first direction and the thickness direction of the heater 112. Preferably, the width direction of the heater 112 is orthogonal to the first direction and the thickness direction of the heater 112. The support portion 1131 is located between the belt guide 1132A and the belt guide 1132B in the width direction of the heater 112. The support portion 1131 has a support surface 1131A and side surfaces 1131B and 1131C.

The support surface 1131A is located on the opposite side of the pressurizing roller 12 with respect to the heater 112 in the thickness direction of the heater 112. The support surface 1131A supports the heater 112 and the heat conductive member 114. The support surface 1131A extends in the width direction of the heater 112 and in the first direction.

The side surface 1131B is located at one end of the support portion 1131 in the width direction of the heater 112. The side surface 1131B faces one edge E11 of the heater 112 in the width direction of the heater 112. The side surface 1131B extends in the thickness direction of the heater 112 and in the first direction.

The side surface 1131C is located at the other end of the support portion 1131 in the width direction of the heater 112. The side surface 1131C is located away from the side surface 1131B in the width direction of the heater 112. The side surface 1131C is located on the opposite side of the side surface 1131B with respect to the heater 112 in the width direction of the heater 112. The side surface 1131C faces the other edge E12 of the heater 112 in the width direction of the heater 112. The side surface 1131C extends in the thickness direction of the heater 112 and in the first direction.

21.3.2 Belt guides 1132A, 1132B
The belt guide 1132A is located at one end of the holder 113 in the width direction of the heater 112. The belt guide 1132A comes into contact with the inner peripheral surface S1 of the belt 111. The belt guide 1132A guides the rotation of the belt 111.

The belt guide 1132B is located at the other end of the holder 113 in the width direction of the heater 112. The belt guide 1132B is located on the opposite side of the belt guide 1132A with respect to the heater 112 in the width direction of the heater 112. The belt guide 1132B contacts the inner peripheral surface S1 of the belt 111. The belt guide 1132B guides the rotation of the belt 111.

2.1.4 Heat conduction member 114
The heat conductive member 114 transfers the heat from the heater 112 in the first direction. The heat conductive member 114 is located between the heater 112 and the holder 113. Specifically, the heat conductive member 114 is located between the back surface of the heater 112 and the support surface 1131A of the holder 113. The thermal conductivity of the heat conductive member 114 is higher than that of the substrate 1121 (see FIG. 3) of the heater 112. The heat conductive member 114 is made of a metal such as aluminum.

As shown in FIG. 3, the heat conductive member 114 extends in the first direction. The heat conductive member 114 extends from a position between the terminal 1123 and the heating element 1122 to the other end E2 of the heater 112 in the first direction. One end E31 of the heat conductive member 114 is located between the terminal 1123 and the heating element 1122 in the first direction. The other end E32 of the heat conductive member 114 is located in the vicinity of the other end E2 of the heater 112 in the first direction. The heat conductive member 114 has a contact portion 1141, a first non-contact portion 1142A, a second non-contact portion 1142B, a second contact portion 1143A, and a third contact portion 1143B.

2.1.4.1 Contact 1141
The contact portion 1141 is the central portion of the heat conductive member 114 in the first direction. The contact portion 1141 is located in the first direction between one end E21 of the heating element 1122 and the other end E22 of the heating element 1122. The contact portion 1141 extends in the first direction. As shown in FIG. 4, the contact portion 1141 comes into contact with the heater 112.

2.1.4.2 First non-contact part 1142A
The first non-contact portion 1142A is located between the one end portion E31 of the heat conductive member 114 and the contact portion 1141 in the first direction. The first non-contact portion 1142A is located between the contact portion 1141 and the second contact portion 1143A in the first direction.

As shown in FIG. 4, the first non-contact portion 1142A does not come into contact with the heater 112. The first non-contact portion 1142A has a gap between the heater 112 and the substrate 1121 in the thickness direction of the heater 112. Therefore, the heat conduction between the first non-contact portion 1142A and the heater 112 is suppressed as compared with the heat conduction between the contact portion 1141 and the heater.

As shown in FIG. 3, the first non-contact portion 1142A extends in the first direction. The first non-contact portion 1142A has an outer end portion E41 and an inner end portion E42 in the first direction. The outer end portion E41 is the end portion of the first non-contact portion 1142A opposite to the contact portion 1141. The outer end E41 is located away from the contact 1141 in the first direction. The inner end portion E42 is the end portion of the first non-contact portion 1142A on the contact portion 1141 side. The inner end E42 is located between the outer end E41 and the contact 1141 in the first direction.

The first non-contact portion 1142A faces a region of the substrate 1121 where one end E21 of the heating element 1122 is located. Thereby, the heat of the heater 112 can be suppressed from being transmitted to one side of the one end portion E21 of the heating element 1122 by the first non-contact portion 1142A. As a result, it is possible to suppress a decrease in the fixing temperature near one end E21 of the heating element 1122. The inner end E42 of the first non-contact portion 1142A is located in the first direction within the region A through which the largest sheet S printable by the image forming apparatus 1 passes. Thereby, the heat of the heater 112 can be further suppressed from being transferred to one side of the region A by the first non-contact portion 1142A. As a result, the decrease in the fixing temperature can be further suppressed at one end of the region A. The inner end E42 of the first non-contact portion 1142A faces one end of the first portion 1122A of the heating element 1122. In other words, the inner end E42 of the first non-contact portion 1142A does not face the central portion of the first portion 1122A of the heating element 1122. Thereby, it is possible to prevent the first non-contact portion 1142A from inhibiting the conduction of heat from the first portion 1122A of the heating element 1122. Therefore, it is possible to make the fixing temperature uniform in the first direction in the region A.

The outer end portion E41 of the first non-contact portion 1142A is located between the terminal 1123 and the heating element 1122 in the first direction. The outer end portion E41 of the first non-contact portion 1142A is located on one side of the region A in the first direction.

2.1.4.3 Second non-contact part 1142B
The second non-contact portion 1142B is located between the other end portion E32 of the heat conductive member 114 and the contact portion 1141 in the first direction. The second non-contact portion 1142B is located between the contact portion 1141 and the third contact portion 1143B in the first direction.

As shown in FIG. 4, the second non-contact portion 1142B does not come into contact with the heater 112. The second non-contact portion 1142B has a gap between the heater 112 and the substrate 1121 in the thickness direction of the heater 112. Therefore, the heat conduction between the second non-contact portion 1142B and the heater 112 is suppressed as compared with the heat conduction between the contact portion 1141 and the heater 112.

As shown in FIG. 3, the second non-contact portion 1142B extends in the first direction. The second non-contact portion 1142B has an outer end portion E51 and an inner end portion E52 in the first direction. The outer end portion E51 is the end portion of the second non-contact portion 1142B opposite to the contact portion 1141. The outer end E51 is located away from the contact 1141 in the first direction. The inner end portion E52 is the end portion of the second non-contact portion 1142B on the contact portion 1141 side. The inner end E52 is located between the outer end E51 and the contact 1141 in the first direction.

The second non-contact portion 1142B faces the region of the substrate 1121 where the other end E22 of the heating element 1122 is located. Thereby, the heat of the heater 112 can be suppressed by the second non-contact portion 1142B from being transmitted to the other side of the other end portion E22 of the heating element 1122. As a result, it is possible to suppress a decrease in the fixing temperature near the other end E22 of the heating element 1122. The inner end E52 of the second non-contact portion 1142B is located within the region A in the first direction. Thereby, the heat of the heater 112 can be further suppressed from being transferred to the other side of the region A by the second non-contact portion 1142B. As a result, the decrease in the fixing temperature can be further suppressed at the other end of the region A. The inner end E52 of the second non-contact portion 1142B faces the other end of the first portion 1122A of the heating element 1122. In other words, the inner end E52 of the second non-contact portion 1142B does not face the central portion of the first portion 1122A of the heating element 1122. Thereby, it is possible to prevent the second non-contact portion 1142B from inhibiting the conduction of heat from the first portion 1122A of the heating element 1122. Therefore, it is possible to make the fixing temperature uniform in the first direction in the region A.

The outer end portion E51 of the second non-contact portion 1142B is located between the other end portion E2 of the heater 112 and the heating element 1122 in the first direction. The outer end E51 of the second non-contact portion 1142B is located on the other side of the region A in the first direction.

2.14.4 Second contact part 1143A
As shown in FIG. 4, the second contact portion 1143A is located at one end portion E31 of the heat conductive member 114 in the first direction. The second contact portion 1143A comes into contact with the heater 112. The second contact portion 1143A is located on one side of the region A in the first direction. On one side of the area A, the sheet S does not pass during printing. Therefore, when the image forming apparatus 1 continuously prints the sheet S, one side of the belt 111 with respect to the region A tends to become hot due to the heat of the heater 112. In the present embodiment, the second contact portion 1143A conducts the heat of the heater 112 on one side of the region A to the other side in the first direction. This makes it possible to prevent the temperature of the belt 111 in the region where the seat S does not pass from becoming high.

2.1.4.5 Third contact part 1143B
The third contact portion 1143B is located at the other end portion E32 of the heat conductive member 114 in the first direction. The third contact portion 1143B comes into contact with the heater 112. The third contact portion 1143B is located on the other side of the region A in the first direction. On the other side of the area A, the sheet S does not pass during printing. Therefore, when the image forming apparatus 1 continuously prints the sheet S, the temperature of the other side of the belt 111 with respect to the region A tends to be high due to the heat of the heater 112. In the present embodiment, the third contact portion 1143B conducts the heat of the heater 112 on the other side of the region A to one side in the first direction. This makes it possible to prevent the temperature of the belt 111 in the region where the seat S does not pass from becoming high.

2.2 Pressurizing roller As shown in FIG. 2, the pressurizing roller 12 comes into contact with the outer peripheral surface S2 of the belt 111. The pressurizing roller 12 sandwiches the belt 111 with the heater 112 to form a nip portion for heating and pressurizing the sheet S to which the toner is transferred.

3. 3. Action Effect (1) According to the fixing device 9, as shown in FIG. 4, in the heat conductive member 114, the first non-contact portion 1142A and the second non-contact portion 1142B do not come into contact with the heater 112.

Therefore, in the heat conduction member 114, the heat conduction between the first non-contact portion 1142A and the heater 112 and the heat conduction between the second non-contact portion 1142B and the heater 112 are the contact portion 1141 and the heater. Compared to heat conduction between and, it is suppressed.

Then, as shown in FIG. 3, the first non-contact portion 1142A of the heat conductive member 114 faces the one end portion E21 of the heating element 1122, and the second non-contact portion 1142B of the heat conductive member 114 is the heating element 1122. It faces the other end E22.

As a result, the heat of the heater 112 can be suppressed from being transmitted to one side of the heating element 1122 to one side of the other end E21 by the first non-contact portion 1142A, and the heat of the heater 112 can be suppressed from the other end E22 of the heating element 1122. The transmission to the side can be suppressed by the second non-contact portion 1142B.

Therefore, it is possible to suppress a decrease in the fixing temperature near one end E21 of the heating element 1122 and near the other end E22 of the heating element 1122.

As a result, it is possible to suppress a decrease in the fixing temperature at one end and the other end of the region A through which the maximum sheet S that can be printed by the image forming apparatus 1 passes.

(2) According to the fixing device 9, as shown in FIG. 4, each of the first non-contact portion 1142A and the second non-contact portion 1142B has a gap between the first non-contact portion 1142A and the second non-contact portion 1142B and faces the substrate 1121. ing.

Therefore, in the heat conductive member 114, each of the first non-contact portion 1142A and the second non-contact portion 1142B can be prevented from coming into contact with the heater 112 by having a gap between the first non-contact portion 1142A and the second non-contact portion 1142B.

(3) According to the fixing device 9, as shown in FIG. 3, the inner end portion E42 of the first non-contact portion 1142A and the inner end portion E52 of the second non-contact portion 1142B are images in the first direction. The forming device 1 is located in the area A through which the maximum printable sheet S passes.

Therefore, the heat of the heater 112 can be further suppressed by the first non-contact portion 1142A from being transmitted to one side of the region A through which the maximum printable sheet S can pass.

Further, the heat of the heater 112 can be further suppressed by the second non-contact portion 1142B from being transmitted to the other side of the region A through which the maximum sheet S that can be printed by the image forming apparatus 1 passes.

As a result, the decrease in the fixing temperature can be further suppressed in one end and the other end of the region A through which the maximum printable sheet S can be passed by the image forming apparatus 1.

(4) According to the fixing device 9, as shown in FIG. 3, the inner end portion E42 of the first non-contact portion 1142A faces one end portion of the first portion 1122A of the heating element 1122. The inner end E52 of the second non-contact portion 1142B faces the other end of the first portion 1122A of the heating element 1122.

In other words, the inner end E42 of the first non-contact portion 1142A and the inner end E52 of the second non-contact portion 1142B do not face the central portion of the first portion 1122A of the heating element 1122.

Thereby, it is possible to prevent the first non-contact portion 1142A and the second non-contact portion 1142B from inhibiting the conduction of heat from the first portion 1122A of the heating element 1122.

Therefore, it is possible to make the fixing temperature uniform in the region A through which the maximum sheet S that can be printed by the image forming apparatus 1 passes.

(5) According to the fixing device 9, as shown in FIG. 4, the second contact portion 1143A and the third contact portion 1143B come into contact with the heater 112.

Therefore, when the image forming apparatus 1 continuously prints the sheet S, the temperature of the belt 111 in the region where the sheet S does not pass becomes high due to the second contact portion 1143A and the third contact portion 1143B. Can be prevented.

4. Modification example Next, a modification will be described with reference to FIG. In the modified example, the same members as those in the above-described embodiment are designated by the same reference numerals, and the description thereof will be omitted.

As shown in FIG. 5, the heat conductive member 114 may extend from one end E1 of the heater 112 to the other end E2 of the heater 112 in the first direction.

9 Fixing device 111 Belt 112 Heater 113 Holder 114 Heat conduction member 1121 Substrate 1122 Heating element 1122A 1st part 1122B 2nd part 1122C 3rd part 1123 terminal 1124 Wiring 1141 Contact part 1142A 1st non-contact part 1142B 2nd non-contact part 1143A 2nd contact part 1143B 3rd contact part A area A4 rotating shaft S sheet S1 inner peripheral surface

Claims (7)

A heater that comes into contact with the tubular belt and the inner peripheral surface of the belt to heat the belt, and is located on the plate-shaped substrate extending in the first direction parallel to the rotation axis direction of the belt and the substrate. With a heater, with a heating element,
A holder located inside the belt and supporting the heater,
A heat conductive member located between the heater and the holder and having a higher thermal conductivity than the substrate.
Equipped with
The heat conductive member is
A contact portion located between one end of the heating element and the other end of the heating element in the first direction and in contact with the heater.
A first non-contact portion facing the region of the substrate where one end of the heating element is located and not in contact with the heater.
A fixing device having a second non-contact portion facing a region of the substrate where the other end of the heating element is located and not in contact with the heater. The fixing device according to claim 1, wherein each of the first non-contact portion and the second non-contact portion faces the substrate with a gap between the first non-contact portion and the second non-contact portion. The end of the first non-contact portion on the contact portion side and the end of the second non-contact portion on the contact portion side are the largest sheets that can be printed by the image forming apparatus in the first direction. The fixing device according to claim 1 or 2, which is located in a passing area. The heating element is
The first part, which is the central part in the first direction, and
A second portion located on one end side of the first portion in the first direction and having a lower resistance value per unit length than the first portion.
A third portion located on the other end side of the first portion in the first direction and having a lower resistance value per unit length than the first portion.
Have,
The end portion of the first non-contact portion on the contact portion side faces the one end portion of the first portion of the heating element.
The fixing device according to any one of claims 1 to 3, wherein the end portion of the second non-contact portion on the contact portion side faces the other end of the first portion of the heating element. .. The heater is
Further having a terminal located between one end of the heater and the heating element in the first direction and electrically connected to the heating element by wiring.
The fixing device according to any one of claims 1 to 4, wherein the heat conductive member extends from a position between the terminal and the heating element to the other end of the heater in the first direction. The fixing device according to any one of claims 1 to 4, wherein the heat conductive member extends from one end of the heater to the other end of the heater in the first direction. The heat conductive member is
A second contact portion located at one end of the heat conductive member in the first direction and in contact with the heater.
A third contact portion located at the other end of the heat conductive member in the first direction and in contact with the heater.
Have more
The first non-contact portion is located between the contact portion and the second contact portion in the first direction.
The fixing device according to any one of claims 1 to 6, wherein the second non-contact portion is located between the contact portion and the third contact portion in the first direction.

Images