JP2017044811A - Multifunction machine cooling device and air conditioning system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a multifunction machine cooling device and an air conditioning system with excellent cooling efficiency.SOLUTION: A multifunction machine cooling device for cooling a multifunction machine 11 installed on a floor comprises a heat recovery unit 27 provided above the multifunction machine 11 or facing the multifunction machine 11. Cooling piping which is introduced from the floor or the outside of walls erected from the floor and through which a cooling medium circulates is connected to the heat recovery unit 27.SELECTED DRAWING: Figure 2

Description

  The present invention relates to a multifunction machine cooling apparatus and an air conditioning system.

  2. Description of the Related Art Conventionally, there is an all-air system that cools with air as an air conditioning system that removes internal loads caused by indoor electronic devices, lighting fixtures, human body heat generation, etc., and maintains the temperature and humidity of room air in an appropriate state.

  In this all-air system, for example, an outdoor unit with a built-in compressor is installed outside a building, and an indoor unit with a built-in heat source device is installed in the room. The medium is circulated between the compressor of the outdoor unit and the heat source device of the indoor unit to perform a refrigeration cycle, and the heat source device exchanges heat between the medium and the room air, thereby blowing out cold air from the indoor unit to the room. Thus, the internal load, that is, heat is removed (see Patent Document 1).

  By the way, in a room with many electronic devices such as an office, the internal load in the room increases due to heat radiation from the electronic devices.

  In this case, in the conventional all-air-conditioning air conditioning, exhaust heat diffused into the room from the electronic device is removed by the air supplied to the room, so the temperature of the supplied air needs to be lowered. It is inefficient and requires a lot of energy to cool the supply air. In addition, temperature distribution occurs in the room between the part that is directly affected by the low-temperature air and the part that is not affected, and the indoor thermal environment becomes non-uniform. Furthermore, since the exhaust heat is agitated and removed with air, conveyance power such as a fan is applied.

  Therefore, it has been proposed to individually attach a cooling device to a notebook computer (see Patent Document 2). This cooling device includes a cooling table laid under the main body of the notebook computer and a heat exchange device connected to the cooling table by a circulation hose. The circulation hose circulates between the cooling table and the heat exchange device, and water as a medium is accommodated in the circulation hose.

  According to this cooling device, the heat radiation from the lower surface of the main body of the notebook computer is absorbed by the medium in the circulation hose in the cooling table. Then, this medium distribute | circulates a circulation hose, reaches | attains a heat exchange apparatus, and radiates heat with this heat exchange apparatus.

  Examples of other electronic devices that can be installed in an office include a multifunction device having a plurality of functions such as copying, printing, FAX, and a scanner. Multifunction devices are very frequently used in offices and consume a lot of power, that is, they are electronic devices with a large amount of exhaust heat. The effective processing of exhaust heat from a multifunction device has a large effect on the indoor air conditioning efficiency. To do. Therefore, it can be considered that the cooling device of Patent Document 2 is applied to the cooling of the multifunction machine.

JP 2013-152071 A JP 2006-302223 A

  However, in the cooling device of Patent Document 2, the notebook computer cannot recover the exhaust heat even though it is exhausted from the side exhaust port. Moreover, the heat exchange apparatus itself connected with the circulation hose is installed indoors. That is, the cooling device of Patent Document 2 still has to rely heavily on the conventional all-air-conditioning air-conditioning system because the exhaust heat is still diffused indoors. Therefore, the cooling device of Patent Document 2 is poor in cooling efficiency of the air conditioning by the all-air method, requires a lot of energy for cooling the supply air, makes the indoor thermal environment non-uniform, and takes transport power such as a fan. This problem cannot be solved essentially.

  In particular, the multifunction device is larger than a personal computer and has many heat generating portions such as a fixing unit, a developing unit, paper discharge, a liquid crystal, an electrical component, and a drive unit. In the case where the cooling device of Patent Document 2 is applied to a multi-function machine to take measures against heat of the multi-function machine, there are places where it is essentially difficult to mount a cooling unit such as a liquid crystal, Since it is expensive to install a large number of cooling devices in the multifunction machine, a limited number of cooling units are required for the main parts such as the fixing unit and paper discharge. There is no choice but to compromise. That is, there is a heat generating portion that does not have a cooling device and still emits corresponding heat. Therefore, in the case of a multi-function machine, the indoor cooling must be largely reliant on the conventional all-air system air conditioning, more than in the case of a notebook computer.

  In addition, since the shape of each heat generating portion and the installation position in the multifunction device differ depending on the manufacturer and product type of the multifunction device, attaching the cooling device of Patent Document 2 to each heat generating portion is a structure of various types of multifunction devices. If you are not familiar with this, it is difficult and unrealistic.

  The problem to be solved by the present invention is to provide a multi-function machine cooling device and an air conditioning system with good cooling efficiency.

The present invention employs the following means in order to solve the above problems. That is, the present invention is a multifunction device cooling apparatus for cooling a multifunction device installed on a floor, wherein a heat recovery unit is provided above the multifunction device or facing the multifunction device, and the heat recovery unit is provided. Provides a cooling device for a multi-function machine, to which a cooling pipe that circulates a cooling medium introduced from the outside of the floor or a wall rising from the floor is connected.
According to the configuration as described above, the heat recovery unit installed above the multi-function device or facing the multi-function device can collectively cool the multi-function device exhaust heat or the multi-function device casing itself. It is possible to do so, and the cooling efficiency is good. In addition, the heat source device that cools the cooling medium can be installed outside the floor or a wall that rises from the floor, that is, outside the room in which the multifunction machine is installed. Therefore, even if the air conditioning in the room depends on the air conditioning by the all-air method, it is not necessary to excessively lower the temperature of the supply air, thereby reducing the energy required for cooling the supply air and the conveyance power. .
Further, since the heat recovery unit is not installed in direct contact with the inside of the multifunction device or outside the housing, the multifunction device cooling device can be easily installed without knowing the internal structure of the multifunction device.

The multifunction peripheral cooling device may further include a box surrounding the multifunction peripheral and an exhaust unit attached to the heat recovery unit, and the heat recovery unit may be installed on an upper portion of the box.
According to the above configuration, the exhaust heat of the multi-function device is once isolated in the box, and discharged to the outside of the box by the exhaust unit while being cooled by the heat recovery unit. That is, even if there are a plurality of heat generating portions, the exhaust heat from each of them is collected in a box, is removed before contacting the heat recovery unit and exhausted into the room, so that the cooling efficiency is good.
In addition, since the multifunction peripheral is surrounded by the box, the box can mitigate the operation noise of the multifunction peripheral.

The multi-function device cooling device further includes a cone with a lower surface opened above the multi-function device so as to cover the multi-function device, and the heat recovery unit is installed near the inner upper end of the cone. May be.
According to the above configuration, since the exhaust heat of the multifunction machine is higher than the room air, it rises once, is collected and stored in the cone, and is sequentially cooled by the heat recovery unit and discharged outside the cone. Is done. That is, even if there are multiple heat generating parts, the exhaust heat from each rises and is collected in a cone, contacts the heat recovery unit, and is removed before the exhaust heat is exhausted into the room. Efficiency is good.

The heat recovery unit is a radiant panel that cools the multifunction peripheral by cooling the cooling medium therein, and the radiant panel may be installed on a wall member facing the multifunction peripheral.
According to the above configuration, the outside of the multi-function peripheral can be uniformly cooled by the radiant panel having a large area, so that the cooling efficiency is good.

An air conditioning system is installed on the outside of the multifunction peripheral cooling device, the floor or the wall rising from the floor, and the other end of the cooling pipe is connected to cool the cooling medium, and May be provided.
According to the configuration as described above, the heat source device to which the other end of the cooling device for the cooling pipe is connected is the floor or the outside of the wall rising from the floor, that is, the multifunction device is installed. Since it is installed outside the room, the heat source device does not act as a heat source for the air conditioning in the room. Therefore, it is not necessary to excessively lower the temperature of the supply air in the air conditioning in the room, and this makes it possible to reduce the energy required for cooling the supply air and the conveyance power.

 According to the present invention, it is possible to provide a multifunction peripheral cooling device and an air conditioning system with good cooling efficiency.

  In a preferred mode, energy saving can be realized.

It is explanatory drawing of the air conditioning system which uses the multi-function device cooling device shown as embodiment of this invention. It is explanatory drawing which shows the installation condition of the multifunction peripheral cooling device shown as the 1st Embodiment of this invention. BRIEF DESCRIPTION OF THE DRAWINGS (a) is a front view, (b) is a rear view of the multi-function device cooling apparatus shown as the first embodiment of the present invention. FIG. 3 is a partial cross-sectional side view of a heat recovery unit and an exhaust unit in the multi-function device cooling apparatus shown as the first embodiment of the present invention. FIG. 5A is a top view and FIG. 5B is a front view of a multifunction machine cooling apparatus shown as the second embodiment of the present invention. (A) is a top view and (b) is a partial cross-sectional front view of the multi-function machine cooling apparatus shown as the third embodiment of the present invention. It is explanatory drawing which shows the installation condition of the multifunction peripheral cooling device shown as the 3rd Embodiment of this invention. FIG. 9A is a top view and FIG. 9B is a partial cross-sectional front view of a multi-function machine cooling apparatus shown as a modification of the third embodiment of the present invention. It is explanatory drawing which shows the installation condition of the compound machine cooling device shown as a modification of the 3rd Embodiment of this invention.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

  FIG. 1 is an explanatory diagram of an air-conditioning system using a multifunction machine cooling apparatus shown as an embodiment of the present invention.

  The air conditioning system 1 in FIG. 1 includes a multifunction machine cooling device 2, a heat source device 3, external cooling pipes 4a and 4b, multifunction machine cooling pipes 5a and 5b, and pipe outlets 6a and 6b. The air conditioning system 1 adjusts the temperature of the interior of the room in which the multifunction peripheral 11 is installed, that is, the temperature of the room 7, which is divided by the floor 12 and the wall 13 rising from the floor 12. The air conditioning system 1 is installed across the room 7 and the outside of the room in which the multifunction machine 11 is installed, that is, the outside 10. Cooling air 8 is supplied to the room 7, and air 9 warmed by a human body or a multifunction machine 11 is discharged. Here, the outdoor 10 means the outside of the room in which the multifunction machine 11 is installed as described above, and is not limited to the outside of the building structure. That is, the outdoor 10 may be a room different from the room in the building structure where the multifunction machine 11 is installed.

  The multifunction machine cooling device 2 is any one of the later-described first, second, and third embodiments, and the multifunction machine cooling devices 20, 40, 60, and 80 shown as modifications of the third embodiment. Installed to cool the multifunction machine 11 itself or its exhaust heat. As will be described later, the multifunction machine cooling devices 20, 40, 60, and 80 are configured to collect the exhaust heat of the multifunction machine 11 on the spot without exhausting it into the room 7. In FIG. 1, one MFP cooling device 2 is described. However, a plurality of MFP cooling devices 2 may exist, each of which has a different MFP cooling device 20, 40, 60, 80. It may be.

  The multi-function peripheral cooling device 2 includes a heat recovery unit (not shown), and the heat recovery unit 5 is a multi-function peripheral cooling pipe 5a that is introduced from the outside 10, that is, from the outside of the floor 12 or the wall 13 and circulates a cooling medium. 5b are connected. The multi-function machine cooling pipes 5 a and 5 b include an input pipe 5 a and an output pipe 5 b, and one end of each is connected to the heat recovery unit of the multi-function machine cooling device 2. The other ends of the input pipe 5a and the output pipe 5b are connected to piping outlets 6a and 6b described later.

  Piping outlets 6 a and 6 b are installed at the boundary between the indoor 7 and the outdoor 10. Each of the pipe outlets 6a and 6b is formed in, for example, a tubular shape in which a valve portion is installed, and one end is exposed to the indoor 7 and the other end is exposed to the outdoor 10 so that the valve portion is in an open state. Sometimes, the indoor 7 and the outdoor 10 are installed so as to communicate with each other through the pipe outlets 6a and 6b. The piping outlets 6a and 6b include an input outlet 6a and an output outlet 6b. The end of the input outlet 6a on the indoor 7 side is connected to the input pipe 5a of the multi-function machine cooling pipe. The end of the output outlet 6b on the indoor 7 side is connected to the output pipe 5b of the multi-function machine cooling pipe.

  Each of the ends on the outdoor 10 side of the pipe outlets 6a and 6b is connected to one end of the external cooling pipes 4a and 4b. The external cooling pipes 4a and 4b include an input pipe 4a and an output pipe 4b. One end of each of the input pipe 4a and the output pipe 4b is connected to an end of the input outlet 6a and the output outlet 6b on the outdoor 10 side, respectively. The other end of each of the input pipe 4a and the output pipe 4b is connected to a heat source device 3 to be described later. The input pipe 4a and the input outlet 6a, and the output pipe 4b and the output outlet 6b may be integrated respectively. That is, the ends of the external cooling pipes 4a and 4b may be installed as pipe outlets 6a and 6b exposed to the room 7 and connected to the multifunction machine cooling pipes 5a and 5b.

  The heat source device 3 is installed outside the floor 12 or the wall 13, and the other end of the cooling pipe is connected to cool the cooling medium. That is, the heat source device 3 is installed outside the room 10 and cools the cooling medium by heat exchange, and the other end of each of the input pipe 4a and the output pipe 4b of the external cooling pipe is connected to the heat source device 3. Has been.

  With the configuration as described above, the heat source device 3, the input pipe 4a of the external cooling pipe, the input outlet 6a, the input pipe 5a of the multi-function machine cooling pipe, the heat recovery unit of the multi-function machine cooling device 2, and the output of the multi-function machine cooling pipe The pipe 5b, the output outlet 6b, and the output pipe 4b of the external cooling pipe form a circulation path through which the cooling medium circulates. That is, the cooling medium cooled by the heat source device 3 is input to the MFP cooling device 2 through the input pipe 4a of the external cooling pipe, the input outlet 6a, and the input pipe 5a of the MFP cooling pipe. The multifunction machine cooling device 2 cools the multifunction machine 11 with the input cooling medium. The cooling medium that has recovered the heat by cooling the multifunction machine 11 is output from the multifunction machine cooling device 2, and is connected to the heat source device via the output pipe 5 b of the cooling pipe for the multifunction machine, the output outlet 6 b, and the output pipe 4 b of the external cooling pipe. 3 is supplied. The heat source device 3 cools the supplied cooling medium from which the heat has been recovered, and supplies it again to the multifunction device cooling device 2.

  As the cooling medium, water or a refrigerant (such as chlorofluorocarbon) can be used, but is not limited thereto.

  In the air conditioning system 1 as described above, the multifunction peripheral cooling device 2 collects the exhaust heat of the multifunction peripheral 11 on the spot without exhausting it into the room 7, so the multifunction peripheral cooling device 2 is not installed and the multifunction peripheral 11 is not installed. Cooling efficiency is better than a system in which the heat is exhausted into the room as it is. Moreover, since the heat source device 3 is installed outside the room 10, the exhaust heat from the heat source device 3 does not affect the indoor air conditioning. It is not necessary to make the temperature of the supply air 8 excessively low as compared with the all-air-type air conditioning in which the indoor air conditioning stirs and removes the exhaust heat from the electronic equipment with air. It is possible to reduce energy required for cooling and transport power.

  Next, the MFP cooling device 20 shown as the first embodiment will be described with reference to FIGS. The multifunction machine cooling device 20 can be used as the multifunction machine cooling device 2 in the air conditioning system 1 described with reference to FIG.

  FIG. 2A is an explanatory diagram showing an installation state of the multi-function peripheral cooling device 20 shown as the first embodiment. The MFP cooling device 20 includes a box 21, a heat recovery unit 27, and an exhaust unit 28 shown in FIG.

  The box 21 is installed so as to surround the multifunction machine 11. Specifically, the box 21 includes a front panel 22a, left and right side panels 22b, an upper back panel 22c, a lower back panel 22d, an upper panel 22e, and a frame 23 shown in FIG. The upper back panel 22c and the lower back panel 22d form a single back panel. The multi-function device 11 has a front face and a front panel 22a, side faces and side panels 22b, a back face and upper and lower back panels 22c and 22d, and an upper face and an upper face panel 22e facing each other inside the box body 21. So that it is installed. The bottom surface of the box 21 does not have a panel and is open. That is, the box body 21 is a three-dimensional solid body, and the multifunction machine 11 is directly installed on the floor.

  The frame 23 is manufactured by combining members processed by extrusion molding of metal, for example, aluminum, but is not limited thereto, and may be manufactured by cutting wood. The front panel 22a, the left and right side panels 22b, the lower back panel 22d, and the top panel 22e are connected to the frame 23 by a hinge 25 on one side. A handle 24 is connected to the side of these panels 22a, 22b, 22d, 22e opposite to the side connected to the frame 23 by the hinge 25. Accordingly, the front panel 22a, the left and right side panels 22b, the lower back panel 22d, and the top panel 22e can be opened to expose the multifunction machine 11 to the outside. FIG. 2B shows a state in which the front panel 22a is opened.

  A locking member (not shown) such as a magnet is installed on the back side of the side of the panels 22a, 22b, 22d, and 22e to which the handle 24 is connected. This locking member cooperates with a locking member similarly installed at a corresponding position of the frame 23, and maintains the closed state when the panels 22a, 22b, 22d, and 22e are closed.

  A leg portion 26 is fixed to the bottom of the frame 23. When the MFP cooling device 20 is installed on the floor, a gap 31 corresponding to the length of the leg portion 26 is formed between the bottom surface of the frame 23 and the floor surface. The space outside the multi-function peripheral cooling device 20, that is, the indoor space and the internal space of the box body 21 communicate with each other through the gap 31.

  3A is a front view, and FIG. 3B is a rear view of the MFP cooling device 20. As described above, the upper back panel 22c and the lower back panel 22d form a single back panel, and the lower back panel 22d is connected to the frame 23 so as to be openable and closable. The upper back panel 22 c is fixed to the frame 23. The central portion of the upper back panel 22c has an opening, and two exhaust units 28 are installed so as to close the opening.

  FIG. 4 is a cross-sectional view taken along the line AA ′ of FIG. A heat recovery unit 27 is installed on the upper part of the box body 21, and an exhaust unit 28 is installed alongside the heat recovery unit 27 to exhaust the air inside the box body 21 to the outside. More specifically, the exhaust unit 28 is installed inside the box body 21 so as to close the opening of the upper back panel 22c, and the exhaust unit 28 is overlapped with the exhaust unit 28 further inside. In addition, a heat recovery unit 27 having the same area as the exhaust unit 28 is installed. The heat recovery unit 27 and the exhaust unit 28 are fastened and fixed to the box body 21 by a fixing member 29 and bolts and nuts 30.

  As the heat recovery unit 27, for example, a drone cup type heat recovery device can be used. That is, the heat recovery unit 27 is formed by laminating a plurality of plates having grooves inside, which are produced by bonding metal plates with grooves, and the cooling medium passes through the grooves. Thus, a structure that cools the air passing between the plates is used. It goes without saying that a heat recovery device having another structure may be used.

  As shown in FIG. 1, the heat recovery unit 27 is connected to cooling pipes that are introduced from the outside of the floor 12 or the wall 13 and in which the cooling medium circulates, that is, the cooling pipes 5 a and 5 b for the multifunction machine. . The heat recovery unit 27 cools the air passing through the heat recovery unit 27 with the cooling medium cooled by the heat source device 3 input from the input pipe 5a of the multi-function apparatus cooling pipe. The cooling medium whose temperature has been recovered by cooling the air and whose temperature has risen is output from the output pipe 5b of the multi-function machine cooling pipe.

  The exhaust unit 28 may be, for example, an exhaust fan. The exhaust unit 28 sends the air inside the box body 21 to the outside of the box body 21.

  Next, the operation and effect of the above-described MFP cooling device 20 will be described.

  When the multifunction machine 11 installed in the box 21 of the multifunction machine cooling device 20 is operated, the temperature in the vicinity of the heat generating part of the multifunction machine 11 rises.

  The air whose temperature has risen moves upward of the box body 21, and the temperature inside the box body 21, particularly the upper part, rises.

  Here, when the exhaust unit 28 is operated, the exhaust unit 28 is provided on the upper portion of the box body 21, and therefore, from the inside of the box body 21, in particular, from the portion having a high temperature to the outside of the box body 21, Air flow is generated.

  At this time, since the heat recovery unit 27 is provided in the exhaust unit 28, the high temperature air discharged to the outside of the box body 21 is cooled by the cooling medium flowing inside the heat recovery unit 27. pass. Thereby, when the air inside the box 21 is discharged to the outside, it is cooled to a temperature of about room temperature, for example.

  Through the gap 31 provided at the bottom of the box body 21, the same amount of external room temperature air as the air discharged to the outside is supplied to the inside of the box body 21.

  Thus, the exhaust heat of the multifunction machine 11 is once isolated in the box body 21, particularly in the upper part, and is discharged to the outside of the box body 21 by the exhaust unit 28 while being cooled by the heat recovery unit 27. That is, even if there are a plurality of heat generating parts, the exhaust heat from each of them is collected in the box 21 and is removed before contacting the heat recovery unit 27 and exhausted into the room, so that the cooling efficiency is good.

  The temperature of the air discharged into the room is cooled to about room temperature. Therefore, the multifunction device 11 is unlikely to be a factor that raises the indoor temperature, and the human body in the room is less affected by the heat generated by the multifunction device 11. Thereby, it is possible to raise the temperature of the cooling air supplied indoors. Therefore, energy saving can be realized.

  Further, the heat recovery unit 27 is not installed so as to be in direct contact with the inside of the multifunction machine 11 or the outside of the housing, but may be disposed so that the box 21 surrounds the multifunction machine 11. Therefore, it is easy to install the multifunction machine cooling device 20.

  When the exhaust unit 28 is an exhaust fan, the amount of air discharged from the box 21 to the outside can be easily controlled by adjusting the air volume of the fan. Therefore, it is easy to control the heat recovery amount.

  Further, since the multifunction machine 11 is surrounded by the box body 21, the box body 21 can relieve the operation sound of the multifunction machine 11.

  Each of the front panel 22a, the left and right side panels 22b, the lower back panel 22d, and the top panel 22e of the box 21 can be opened and closed. It can be exposed to the outside. As a result, it is possible to suppress a decrease in user convenience during normal use or operation, such as taking out printed matter, replenishing paper, and handling paper jams.

  Next, the MFP cooling device 40 shown as the second embodiment will be described with reference to FIG. The multifunction machine cooling device 40 can be used as the multifunction machine cooling device 2 in the air conditioning system 1 described with reference to FIG.

  FIG. 5A is a top view and FIG. 5B is a front view of the multi-function peripheral cooling device 40 shown as the second embodiment of the present invention. The multi-function peripheral cooling device 40 includes a radiating panel 41 that is installed to face the multi-function peripheral and cools the multi-function peripheral by cooling the cooling medium therein.

  The radiation panel 41 is configured by bonding two metal plates having high thermal conductivity such as aluminum. A groove is formed on the surface of one of the metal plates so as to reciprocate a plurality of times in a zigzag manner. Both end portions 41b and 41c of the groove extend to the side of the metal plate and terminate. By attaching the other metal plate to the surface where the groove is formed, an internal path 41a that terminates at the other end 41c from the side edge 41b of the radiation panel 41 through the inside of the radiation panel 41. Is formed.

  Plugs 42 and 43 are fixed to the respective end portions 41b and 41c of the internal path 41a. In each of the plugs 42 and 43, as shown in FIG. 1, a cooling pipe introduced from the outside of the floor 12 or the wall 13 through which a cooling medium circulates, that is, an input pipe 5a of a cooling pipe for a multifunction machine is combined. The output pipe 5b of the machine cooling pipe is connected.

  The radiation panel 41 is fixed to, for example, a commercially available partition. In the second embodiment, two radiating panels 41 are installed, one for each of the back wall members 44. Side wall members 45 are joined to both sides of the two back wall members 44 joined adjacently so as to be orthogonal to the back wall member 44.

  In the space surrounded by the back wall member 44 and the side wall member 45, the multi-function device 11 is arranged so that the back surface faces the back wall member 44 and both side surfaces face each of the side wall members 45. The The radiation panel 41 is installed at the same height as the exhaust port from which heat is exhausted from the multifunction machine 11. The radiation panel 41 has an area large enough to sufficiently cover the exhaust port of the multifunction machine 11.

  The radiant panel 41 is cooled by the cooling medium cooled by the heat source device 3 input from the input pipe 5a of the cooling pipe for the multifunction machine shown in FIG. The exhaust heat from the multifunction machine 11 is removed by the radiation and the convection component. The cooling medium is output to the output pipe 5b of the multi-function machine cooling pipe.

  Next, the operation and effect of the above-described MFP cooling device 40 will be described.

  When the multi-function device 11 is operated, the temperature in the vicinity of the heat generating portion increases with the exhaust port of the multi-function device 11 as the center.

  When the multi-function device cooling device 40 is activated, the radiating panel 41 is cooled by the cooling medium flowing through the radiating panel 41.

  Exhaust heat from the multifunction machine 11 is removed by radiation and convection components from the radiation panel 41.

  As described above, since the heat generating portion of the multifunction machine 11 can be uniformly cooled by the radiation panel 41 having a large area, the cooling efficiency is good.

  The radiating panel 41 is not installed directly in contact with the inside of the multi-function device 11 or outside the housing of the multi-function device 11, but the partition already installed around the multi-function device 11 or the rear surface of the multi-function device 11. Since it suffices to install it on the wall, it is easy to install the MFP cooling device 40.

  Further, since the multifunction machine 11 is installed in an exposed state in the room, the convenience for the user is not impaired.

  Next, referring to FIGS. 6 and 7, the multi-function device cooling apparatus 60 shown as the third embodiment will be described. The multi-function peripheral cooling device 60 can be used as the multi-function peripheral cooling device 2 in the air conditioning system 1 described with reference to FIG.

  FIG. 6A is a top view and FIG. 6B is a partial cross-sectional front view of a multi-function machine cooling device 60 shown as the third embodiment of the present invention. The MFP cooling device 60 includes a cone 61, a heat recovery unit 64, and an exhaust unit 65.

  The cone 61 includes a frame 62 and a surface portion 63. The frame 62 is formed of a metal such as aluminum, but may be formed of wood or the like. The frame 62 includes an upper rectangular portion 62a and a lower rectangular portion 62b, each of which is formed by four rod members and has an open center. The upper rectangular portion 62a is formed to be smaller than the lower rectangular portion 62b. The upper rectangular portion 62a and the lower rectangular portion 62b are positioned so that their centers are on substantially the same vertical line and are parallel to each other.

  The vertices at the corresponding positions of the upper rectangular portion 62a and the lower rectangular portion 62b are connected by a connecting rod member 62c. Further, the midpoint of the long side of the upper rectangular portion 62a and the midpoint of the long side of the lower rectangular portion 62b are also connected by the connecting rod member 62c.

  On the side surface of the trapezoidal shape of the frame 62 surrounded by the bar member at the corresponding position of each of the upper rectangular part 62a and the lower rectangular part 62b and the connecting bar member 62c connected to the vertex that is the end point of the bar member A surface member is pasted to form a surface portion 63. Examples of the material of the surface portion 63 include polyester, fluorine film, glass, plastic, and wood, but are not limited thereto. No surface member is attached to the upper rectangular portion 62a and the lower rectangular portion 62b of the frame 62, and an upper opening 61a and a lower opening (not shown) are formed. Thus, the frame 61 and the surface portion 63 make the cone 61 have a substantially square pyramid shape with a hollow upper end cut.

  Two exhaust units 65 are arranged in the lateral direction in the upper opening 61 a of the cone 61. The upper opening 61 a is formed to have a size that two exhaust units 65 are arranged side by side, and thus the upper opening 61 a is closed by the two exhaust units 65.

  Under each of the two exhaust units 65, a heat recovery unit 64 having an area approximately the same as that of the exhaust unit 65 is installed so as to overlap the exhaust unit 65. The exhaust unit 65 is fixed to the upper rectangular portion 62a by a fixing member (not shown) and bolts / nuts. Thereby, the heat recovery unit 64 is installed in the vicinity of the inner upper end of the cone 61.

  The exhaust unit 65 and the heat recovery unit 64 may be the same as the exhaust unit 28 and the heat recovery unit 27 shown in FIG. 4 as described in the first embodiment. The exhaust unit 65 exhausts the air inside the cone 61 to the outside through the upper opening 61a. As shown in FIG. 1, the heat recovery unit 64 is connected to cooling pipes that are introduced from the outside of the floor 12 or the wall 13 and circulate through the cooling medium, that is, the cooling pipes 5a and 5b for the multifunction machine. . The heat recovery unit 64 cools the air passing through the heat recovery unit 64 with the cooling medium cooled by the heat source device 3 input from the input pipe 5a of the multi-function apparatus cooling pipe. The cooling medium whose temperature has been increased by cooling the air is output from the output pipe 5b of the multi-function machine cooling pipe.

  As shown in FIG. 7, the multi-function device cooling device 60 is installed above the multi-function device 11 so that the lower surface of the cone 61, that is, the lower opening 61b covers the multi-function device 11. Thus, the heat recovery unit 64 is located above the multifunction machine 11. The lower opening 61 b is formed sufficiently larger than the multifunction machine 11. The lower surface of the cone 61 is supported by a partition 66 or the like.

  Next, the operation and effect of the above-described multifunction peripheral cooling device 60 will be described.

  When the multifunction machine 11 installed below the cone 61 of the multifunction machine cooling device 60 is operated, the temperature in the vicinity of the heat generating part of the multifunction machine 11 is increased to be room temperature or higher.

  The air whose temperature has increased moves upward and is accommodated in the lower opening 61 b of the cone 61.

  The air accommodated in the lower opening 61 b further rises while following the inside of the surface portion 63 and approaches the heat recovery unit 64.

  By operating the exhaust unit 65 of the multi-function device cooling device 60, the air that has approached the heat recovery unit 64 passes through the heat recovery unit 64, thereby being cooled to a temperature of about room temperature, for example. It is discharged outside, that is, indoors.

  As described above, even if there are a plurality of heat generating parts of the multifunction machine 11, the exhaust heat from each heat generating part is collected in the cone 61, is sequentially cooled by the heat recovery unit 64, and is discharged outside the cone 61. Therefore, the cooling efficiency is good.

  The temperature of the air discharged into the room is cooled to about room temperature. Therefore, the multifunction device 11 is unlikely to be a factor that raises the indoor temperature, and the human body in the room is less affected by the heat generated by the multifunction device 11. Thereby, it is possible to raise the temperature of the cooling air supplied indoors. Therefore, energy saving can be realized.

  Further, the cone 61 is not installed inside the multifunction device 11 or directly in contact with the outside of the housing of the multifunction device 11, but by using a partition 66 or the like already installed around the multifunction device 11, Since it suffices to install it on the upper part of the multifunction machine 11, it is easy to install the multifunction machine cooling device 60.

  When the exhaust unit 65 is an exhaust fan, the amount of air discharged to the outside from the upper opening 61a of the cone 61 can be easily controlled by adjusting the air volume of the fan. Therefore, it is easy to control the heat recovery amount.

  Further, since the multifunction machine 11 is installed in an exposed state in the room, the convenience for the user is not impaired.

  Next, a modified example of the multi-function device cooling apparatus shown as the third embodiment will be described with reference to FIGS. The MFP cooling device 80 which is this modified example can be used as the MFP cooling device 2 in the air conditioning system 1 described with reference to FIG.

  FIG. 8A is a top view and FIG. 8B is a partial cross-sectional front view of a multi-function machine cooling apparatus 80 shown as a modification of the third embodiment of the present invention. The difference between the multi-function device cooling device 80 and the multi-function device cooling device 60 shown as the third embodiment is that the cone 81 of the multi-function device cooling device 80 is not open at the top and has an exhaust unit 65. Is not to.

  Specifically, the cone 81 includes a frame 82 and a surface portion 83. The frame 82 includes a lower rectangular portion 82b that is formed by four rod members and that is open at the center. One end of a connecting rod member 82c is connected to each vertex of the lower rectangular portion 82b and an intermediate point between the long sides of the lower rectangular portion 82b. The other ends of the connecting rod members 82c are connected to each other at the apex 82a of the cone 81 that is positioned vertically upward from the center of the lower rectangular portion 82b.

  On the side surface of the frame 82 surrounded by each bar member of the lower rectangular portion 82b and the connecting rod member 82c, a surface portion 83 is formed by sticking a surface member. A surface member is not affixed to the lower rectangular portion 82b of the frame 82, and a lower opening (not shown) is formed. Thus, due to the frame 82 and the surface portion 83, the cone 81 has a hollow quadrangular pyramid shape.

  In the vicinity of the inner upper end of the cone 81, that is, in the vicinity of the apex 82a, two heat recovery units 84 are installed side by side in the horizontal direction.

  One end of each of the plurality of rod-like members 85 is connected to the inside of the frame 82 near the apex 82a by a C link and an eye nut. The rod-shaped member 85 is installed so that the other end of the rod-shaped member 85 faces downward. On the upper surface of the heat recovery unit 84, a plurality of bar members 86 are installed so as to correspond to the bar members 85. One end of each rod-shaped member 86 is connected to the heat recovery unit 84 by a C link, an eye nut, or the like. The rod-shaped member 86 is installed so that the other end of the rod-shaped member 86 faces upward. Male screw portions are respectively formed at the other ends of the rod-shaped members 85 and 86, and the other ends of the corresponding rod-shaped members 85 and 86 are fastened together by a turnbuckle 87, whereby the heat recovery unit 84 is It is fixed inside the cone 81.

  The height of the heat recovery unit 84 to the apex 82a can be adjusted by the turnbuckle 87. As will be described later, the exhaust heat of the multifunction machine 11 stays near the apex 82a of the cone 81. It is desirable that the height of the heat recovery unit 84 be set so high that uncooled air does not stay in the upper portion of the cone 81.

  The heat recovery unit 84 may be the same as the heat recovery unit 27 shown in FIG. 4 as described in the first embodiment. In the heat recovery unit 84, as shown in FIG. 1, a cooling pipe that is introduced from the outside of the floor 12 or the wall 13 and circulates a cooling medium, that is, a cooling pipe for a multifunction machine as shown in FIG. 5a and 5b are connected. The heat recovery unit 84 cools the air passing through the heat recovery unit 84 with the cooling medium cooled by the heat source device 3 input from the input pipe 5a of the multi-function apparatus cooling pipe. The cooling medium whose temperature has been increased by cooling the air is output from the output pipe 5b of the multi-function machine cooling pipe.

  As shown in FIG. 9, the multifunction machine cooling device 80 is installed above the multifunction machine 11 so that the lower surface of the cone 81, that is, the lower opening 81 b covers the multifunction machine 11. Thus, the heat recovery unit 84 is located above the multifunction machine 11. The lower opening 81 b is formed sufficiently larger than the multifunction machine 11. The lower surface of the cone 81 is supported by a partition 86 and the like.

  Next, the operation and effect of the above-described MFP cooling device 80 will be described.

  When the multifunction machine 11 installed below the cone 81 of the multifunction machine cooling device 80 is operated, the temperature in the vicinity of the heat generating part of the multifunction machine 11 is increased to be room temperature or higher.

  The air whose temperature has increased moves upward and is accommodated in the lower opening 81 b of the cone 81.

  The air accommodated in the lower opening 81 b further rises while following the inside of the surface portion 83 and stays in the upper portion of the cone 81.

  The air staying in the upper part of the cone 81 comes into contact with the heat recovery unit 84, thereby being cooled to a temperature of about room temperature, for example, and lowered toward the multifunction machine 11. Natural convection is generated by the upward movement of the air whose temperature has risen and the fall of the cooled air, and the exhaust heat is removed.

  As described above, even if there are a plurality of heat generating portions of the multifunction machine 11, the exhaust heat from each heat generating portion is collected in the cone 81, and is sequentially cooled by the heat recovery unit 84 and discharged to the outside of the cone 81. Therefore, the cooling efficiency is good.

  The temperature of the air discharged into the room is cooled to about room temperature. Therefore, the multifunction device 11 is unlikely to be a factor that raises the indoor temperature, and the human body in the room is less affected by the heat generated by the multifunction device 11. Thereby, it is possible to raise the temperature of the cooling air supplied indoors. Further, since the exhaust unit is not used, power for operating the exhaust unit is unnecessary. Therefore, energy saving can be realized.

  Further, the cone 81 is not installed inside the multifunction device 11 or directly in contact with the outside of the housing of the multifunction device 11, but by using a partition 86 or the like already installed around the multifunction device 11, Since it suffices to install it on the upper part of the multifunction machine 11, it is easy to install the multifunction machine cooling device 80.

  Further, since the multifunction machine 11 is installed in an exposed state in the room, the convenience for the user is not impaired.

  In the first embodiment, each panel other than the top panel 22e of the box 21 may be provided with an opening that is always open to the outside. For example, the opening may be provided at a position on the front panel 22a corresponding to a paper discharge unit from which printed matter is discharged. Thereby, the printed matter can be easily taken out from the opening as in the case where the multifunction peripheral cooling device 20 is not installed. By not providing this opening in the upper part of the box 21, it is possible to prevent the exhaust heat that has risen above the box 21 from leaking to the outside.

  Moreover, in said 1st Embodiment, as FIG. 2 shows, each panel of the box 21 is being fixed to the flame | frame 23 so that opening and closing is possible with the hinge 25, However, instead of this, each panel of each panel is fixed. A magnet may be fixed to each end on the back side, and the panel may be detachably fixed to the frame 23 by a magnetic force with the magnet similarly fixed to a corresponding position of the frame 23. This improves the convenience when the panel is opened over a long period of time such as maintenance. A part of the plurality of panels may be fixed by a hinge so as to be opened and closed, and the other may be detachably fixed by a magnetic force.

  In the second embodiment, as shown in FIG. 5, two rear wall members 44 are located on the rear surface of the multifunction machine 11, and one radiating panel 41 is provided on each of the rear wall members 44. Although installed, the number of the back wall members 44 and the radiating panels 41 is not limited to this configuration, and may be determined according to the size of the multifunction machine 11 and the amount of exhaust heat. For example, when the multifunction machine 11 is small, one back wall member 44 may be installed, and one radiation panel 41 may be installed there. Three or more back wall members 44 may be used, and a plurality of radiation panels 41 may be installed on one back wall member 44.

  Moreover, in said 2nd Embodiment, although the radiation panel 41 is installed in the back wall member 44, you may make it install in the side wall member 45 and remove the waste heat from a side surface.

  Moreover, in said 2nd Embodiment, although the radiation panel 41 is formed by bonding two metal plates in which the groove | channel was formed in one surface, it is not restricted to this. For example, you may form by attaching metal or resin piping to plates, such as aluminum.

  Moreover, in said 3rd Embodiment and its modification, the cones 61 and 81 shown by FIGS. 6-9 are carrying out the shape of the square pyramid whose cross-sectional shape of a horizontal direction is a rectangle, The shape is not limited to a rectangle, and may have other shapes so as to match the installation environment of the multifunction machine 11.

  Moreover, you may use said 1st, 2nd, 3rd embodiment and modification example in combination with each other. For example, in the third embodiment and the modification, the radiating panel 41 used in the second embodiment may be installed in the partitions 66 and 86 shown in FIGS.

  The preferred embodiments of the present invention have been described in detail above. However, those skilled in the art will understand that various modifications and equivalent embodiments are possible from this. .

  Therefore, the scope of rights of the present invention is not limited to this, and various modifications and improvements of those skilled in the art using the basic concept of the present invention described in the claims are also included in the present invention.

DESCRIPTION OF SYMBOLS 1 Air conditioning system 2, 20, 40, 60, 80 MFP cooling device 3 Heat source equipment 4 External cooling pipe 5 MFP cooling pipe 6 Pipe outlet 7 Indoor 10 Outdoor 11 Multifunction machine 21 Box 22 Panel 23 Frame 24 Handle 25 Hinge 26 Leg 27 Heat recovery unit 28 Exhaust unit 41 Radiation panel 42, 43 Plug 44 Rear wall member 45 Side wall member 61, 81 Conical body 62, 82 Frame 63, 83 Surface 64, 84 Heat recovery unit 65 Exhaust unit 85, 86 Rod-shaped member 87 Turnbuckle

Claims (5)

A multifunction device cooling device for cooling a multifunction device installed on a floor,
A heat recovery unit is provided above the multifunction device or facing the multifunction device,
The multi-function device cooling apparatus, wherein the heat recovery unit is connected to a cooling pipe that circulates a cooling medium introduced from the outside of the floor or a wall rising from the floor. A box that surrounds the multi-function peripheral, and an exhaust unit that is attached to the heat recovery unit;
The multi-function peripheral cooling device according to claim 1, wherein the heat recovery unit is installed on an upper portion of the box. Above the multi-function machine, further comprising a cone that is installed so as to cover the multi-function machine and whose lower surface is opened,
The multi-function device cooling apparatus according to claim 1, wherein the heat recovery unit is installed in the vicinity of an inner upper end of the cone.   The heat recovery unit is a radiant panel that radiates and cools the multifunction peripheral by cooling the cooling medium therein, and the radiant panel is disposed to face the multifunction peripheral. The multifunction device cooling device according to any one of the above. A multi-function device cooling device according to any one of claims 1 to 4,
A heat source device that is installed outside the floor or the wall rising from the floor, the other end of the cooling pipe is connected, and cools the cooling medium;
Air conditioning system equipped with.

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