RU2013156622A - HEAT-INSULATING AND HEAT-DISSECTING ELEMENT, AND ALSO THE IMAGE FORMING DEVICE - Google Patents

Abstract

1. A heat-insulating and heat-dissipating element installed between the exposure unit and the fixing unit of the image forming apparatus and configured to at least block the heat flow generated by the fixing unit to the exposure unit and removing heat outward through two air vents installed facing each other on the housing of the imaging device, and the heat insulating and heat dissipating element contains: two end parts, respectively connected to two air water; and at least two heat removal paths configured to provide heat flux to the two air vents in opposite directions, respectively. 2. The heat insulating and heat dissipating element according to claim 1, further comprising: a first heat insulating layer provided next to the exposure unit; a second heat insulating layer provided next to the fixing unit; a part of the flow direction located between the first heat-insulating layer and the second heat-insulating layer and connected as a whole with the first heat-insulating layer and the second heat-insulating layer, respectively, and the part of the flow direction has at least two ribs of the flow direction, gradually separated from each other from the bottom up, and the two lower end parts of the two ribs of the flow direction are connected as a whole with each other; the first heat-insulating layer and the upper cover are fitted to each other; two end parts and and two side walls of the housing, including two air vents, respectively, are fitted to each other; the aforementioned at least two-way tap

Claims (19)

1. A heat-insulating and heat-dissipating element installed between the exposure unit and the fixing unit of the image forming apparatus and configured to at least block the heat flow generated by the fixing unit to the exposure unit and removing heat outward through two air vents installed facing each other on the body of the image forming apparatus, the heat insulating and heat dissipating element comprising: two end parts respectively connected to two air vents; and at least two heat removal paths configured to provide heat flux to the two air vents in opposite directions, respectively. 2. The heat-insulating and heat-dissipating element according to claim 1, further comprising: a first heat insulating layer provided adjacent to the exposure unit; a second heat insulating layer provided adjacent to the fusing unit; and a part of the flow direction located between the first heat-insulating layer and the second heat-insulating layer and connected as a whole with the first heat-insulating layer and the second heat-insulating layer, respectively, moreover part of the flow direction has at least two ribs of the direction of flow, gradually separated from each other from the bottom up, and the two lower end parts of the two ribs of the flow direction are connected as a whole with each other; the first heat insulating layer and the top cover are fitted to each other; two end parts and two side walls of the housing, including two air vents, respectively, are fitted to each other; and the aforementioned at least two heat removal paths extend to the upper cover along two ribs of the flow direction, and then continue, respectively, to two air outlets along the upper cover. 3. The heat-insulating and heat-dissipating element according to claim 2, in which: a part of the flow direction is provided in a central position between the first heat insulating layer and the second heat insulating layer; two flow direction ribs are installed as two central flow direction ribs; the flow direction part further has a horizontal rib connecting the two upper end parts of the two central flow direction ribs; and the horizontal rib and two central ribs of the flow direction are arranged in the shape of an inverted triangle. 4. The heat-insulating and heat-dissipating element according to claim 2, in which: a part of the flow direction is provided in a central position between the first heat insulating layer and the second heat insulating layer; two flow direction ribs are installed as two central flow direction ribs; the flow direction part further has a horizontal rib connecting the two upper end parts of the two central flow direction ribs; and the horizontal rib and two central ribs of the flow direction are arranged in the form of an inverted trapezoid. 5. The heat-insulating and heat-dissipating element according to claim 2, in which: a part of the flow direction is provided in a central position between the first heat insulating layer and the second heat insulating layer; two flow direction ribs are installed as two central flow direction ribs; the flow direction part further has a horizontal rib connecting the two upper end parts of the two central flow direction ribs; and the horizontal rib and two central ribs of the flow direction are arranged in the form of an inverted semicircle. 6. The heat insulating and heat dissipating element according to any one of paragraphs. 3, 4 and 5, in which: the flow direction part has at least one auxiliary flow direction rib located between the two central flow direction ribs and the two end parts of the heat insulating and heat dissipating element; and said at least two heat removal paths are formed between two central flow direction ribs and an auxiliary flow direction rib, as well as between an auxiliary flow direction rib and two end parts of a heat insulating and heat dissipating element, respectively. 7. The heat-insulating and heat-dissipating element according to claim 6, in which: an auxiliary flow direction rib parallel to the two central flow direction ribs. 8. The heat insulating and heat dissipating element according to claim 2, in which: the lower edge part of the first heat insulating layer is in contact with the image processing unit, which is located under the exposure unit in the image forming apparatus and is configured to receive an optical signal from the exposure unit in order to form a toner image. 9. An image forming apparatus configured to form a toner image on a recording medium and fixing in relation to the toner image so that an image is formed on the recording medium, wherein the image forming apparatus comprises: housing; an exposure unit provided on one side of the housing and configured to provide an optical signal to form a toner image; a fusing unit mounted on the other side in the housing and configured to heat and fix in relation to the toner image; and a heat insulating and heat dissipating element provided between the exposure unit and the fixing unit and configured to at least block the heat flow generated by the fixing unit to the exposure unit and removing heat outward from the housing, moreover the housing has two air vents connected to two end parts of the heat insulating and heat dissipating element, respectively; and both the heat-insulating and heat-dissipating element and the housing form at least two heat removal paths, through which heat flows, respectively, to the two air vents. 10. The imaging device according to claim 9, in which: heat insulating and heat dissipating element contains a first heat insulating layer provided adjacent to the exposure unit; a second heat insulating layer provided adjacent to the fusing unit; and a part of the flow direction located between the first heat-insulating layer and the second heat-insulating layer and connected as a whole with the first heat-insulating layer and the second heat-insulating layer, respectively, moreover part of the flow direction has at least two ribs of the direction of flow, gradually separated from each other from the bottom up; and the two lower end parts of the two ribs of the flow direction are connected as a whole with each other, case contains a top cover fitted to the first heat insulating layer; and two side walls fitted to the two end parts of the heat insulating and heat dissipating element, respectively, two air vents are located on two mating nodes of two side walls and two end parts of the heat insulating and heat dissipating element, respectively; and the aforementioned at least two heat removal paths extend to the top cover along two ribs of the flow direction and then continue, respectively, to two air vents along the top cover. 11. The image forming apparatus of claim 10, wherein: a part of the flow direction is provided in a central position between the first heat insulating layer and the second heat insulating layer; two flow direction ribs are installed as two central flow direction ribs; the flow direction part further has a horizontal rib connecting the two upper end parts of the two central flow direction ribs; and the horizontal rib and two central ribs of the flow direction are arranged in the shape of an inverted triangle. 12. The image forming apparatus of claim 10, wherein: a part of the flow direction is provided in a central position between the first heat insulating layer and the second heat insulating layer; two flow direction ribs are installed as two central flow direction ribs; the flow direction part further has a horizontal rib connecting the two upper end parts of the two central flow direction ribs; and the horizontal rib and two central ribs of the flow direction are arranged in the form of an inverted trapezoid. 13. The imaging device according to p. 10, in which: a part of the flow direction is provided in a central position between the first heat insulating layer and the second heat insulating layer; two flow direction ribs are installed as two central flow direction ribs; the flow direction part further has a horizontal rib connecting the two upper end parts of the two central flow direction ribs; and the horizontal rib and two central ribs of the flow direction are arranged in the form of an inverted semicircle. 14. The imaging device according to any one of paragraphs. 11, 12 and 13, characterized in that: the flow direction part has at least one auxiliary flow direction rib located between the two central flow direction ribs and the two end parts of the heat insulating and heat dissipating element; and said at least two heat removal paths are formed between two central flow direction ribs and an auxiliary flow direction rib, as well as between an auxiliary flow direction rib and two end parts of a heat insulating and heat dissipating element, respectively. 15. The image forming apparatus of claim 14, wherein: an auxiliary flow direction rib parallel to the two central flow direction ribs. 16. The image forming apparatus of claim 10, further comprising: an image processing unit located under the exposure unit and configured to receive an optical signal from the exposure unit to form a toner image; and the lower end portion of the first heat insulating layer is in contact with the image processing unit. 17. The image forming apparatus of claim 10, wherein: two outlets of two air outlets are made upward. 18. The image forming apparatus of claim 10, wherein: part of the outer surface of the top cover is used to lay the recording medium on which the image is formed; and the protruding part is provided on a part of the inner surface of the upper cover, and the protruding part is fitted to the first heat insulating layer. 19. The imaging device according to p. 18, in which: the protruding portion further includes a sealing material in contact with the first heat insulating layer.