TW200831833A - Air blowing device system for air conditioning, heat exhaust conveyance device system, and air conditioning system having the same - Google Patents

Abstract

An object of the present invention is to provide a blowing device for air conditioning that ensures consistent amount of cold air blown into an interior space. The solution of the present invention is an air blowing device system for air conditioning that comprises an air conditioner (21) that draws in air from a suction opening (21a) and blows off cold air from an outlet; an air supply chamber (23) that is formed under a floor and circulates cold air from the air conditioner (21) and at the same time blows off the cold air from a plurality of blowout holes (11a) formed in the floor into an interior space (15); a plurality of blow-off devices (30) that is formed in the floor (11) to draw in the cold air inside the air supply chamber and blow off to the interior space (15); an air flow measuring section that detects a static pressure or a wind speed of the cold air inside the air supply chamber (23); and a blow-off control section that, when the static pressure or the wind speed of the cold air at a given site inside the air supply chamber is below a threshold, operates the blow-off device neighboring the site to have the cold air in the air supply chamber blown off to the interior space according to an output of the air flow measuring section.

Description

200831833 IX. INSTRUCTIONS: ^ Technical Field of the Invention The present invention relates to an electric floor of an underfloor air conditioner (a) a frame of a different machine and uses a blowing device for the air conditioner of the electric machine room to be attached to the upper part of the indoor space.埶 埶 ' a 从 从 从 从 从 ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' Air conditioning system. [Prior Art] A perspective view of the air conditioner system using the underfloor air conditioning system. In the present day's eve, the large-scale computer or the server's large-scale server room, etc., the double-structured floor 11 is often used to enable the wiring benefit machine. In the servo crying chamber having the double-structured floor 11, the air supply chamber 23 is formed under the floor, and the cold air from the air conditioner 21 is supplied to the air supply chamber 23 so that the cold air is provided on the floor. Most of the small blow-out holes 11a are discharged to the indoor space 15, thereby air-conditioning (cold), while the hot air from the feeder rack 17 is returned to the air-conditioner 21 suction port by natural flow along the ceiling 13. 2u's so-called underfloor air conditioning. In the case of using the underfloor air conditioner, the number of wiring strips in the air supply chamber 23 is increased because the height of the system is extremely neutral. Therefore, the flow path in the air supply chamber will be narrowed. The air-conditioning from the air conditioner will be blocked, and there is no way to make the cold air self-feeding the whole room floor area 2111-1 as in the design of the building. 9027-PF; Ahddub 5 200831833 ... question. In this case, in the air conditioner 2, the floor surface blowing hole is blown out by the cold air. Therefore, when the room temperature is away from the air conditioner 21, the floor surface is blown and the temperature is higher. 7 milk will stagnate:, other problems, in recent years because the feeding machine is large, only the cold air from the floor surface can not be fully used in the library... in the increase, there will be local heat concentration or thermal load bias In the field and other problems, 'there is a hot air flow from the upper surface of the frame when the server is discharged, and the hot air flows along the ceiling of the server room. Air conditioner suction port two? In addition, the air conditioner is set to a lower temperature, or an air conditioner is added, and other countermeasures are proposed to introduce the self-feeding suit to the air conditioner suction port. Short (4) (for example, refer to the patent υ. The short-circuiting proposal proposes to provide an air curtain generating unit on the upper surface of the rack to suppress short circuits (see, for example, Patent Document 2). 4, m wood uses a duct to make the air supply chamber; the high temperature part of the person directly supplies air, thereby reducing the local set: (for example, refer to Patent Reading 3). Moreover, using the air conditioner (4) = the case is set The cold air from the air-conditioning unit is distributed to the plurality of blowers, and the temperature of the air-conditioning area is detected by the blow-out motor push-plate from which the air volume of the air outlet is variable, and the control is performed for each zone. A method of fine air conditioning (for example, refer to Patent Document 4). ^ 2111-9027-PF; Ahddub 6 200831833 In addition, other technologies have also proposed a blowing device that is provided with a temperature portion to ensure the delivery to the high temperature portion of the room. Air volume, by this, & Wind The cold air sent by the duct is sent directly to the hand 9, while the suppression: the temperature dependence depends on.

[Patent Document 1] Japanese Laid-Open Patent Publication No. Hei. No. Hei. No. 2, No. Hei. [Patent Document 4] Japanese Patent Laid-Open Publication No. Hei 2 〇〇 5 -12 7 6 3 6 [Explanation] [The problem to be solved by the invention] However, the air conditioning system proposed in Patent Document 1 is a whole The sexual coverage of the feeding machine group attracts the sputum..., milk, and the hot air is guided to the air intake machine inlet, and the hot air is induced to the household: Aligning the surface on which the exhaust gas π is formed (height alignment) is difficult to set in the servo chamber σ γ mixed with servos of various specifications. Or, because a large guide must be set, the equipment cost becomes high. . Further, in the air conditioning system proposed by the patent document 2, when the helium gas J... and the air intake port of the air conditioner from the server near the ceiling of the server room are induced to be trapped, the air conditioner suction force is induced only. There is a problem that the indoor temperature will rise as the center of the page is near the Tianhua board. Further, in the method of using the air duct of Patent Document 3 to directly supply the cold air of the air supply chamber to the high temperature portion of the room, the cold air can be surely blown to the heat generating machine, and the local concentration or the heat load bias in the server chamber can be reduced, but , 2111-9027-PF; Ahddub 7 200831833 Air duct piping must be implemented for each machine, so there is a problem that equipment costs are high. Further, since the hot air from the server that is stuck in the vicinity of the ceiling of the server room cannot be returned to the air intake of the air conditioner by the device alone, there is a problem that the weather can not be improved in the upper part of the room. Further, in the system for detecting the amount of cold air supplied from the air-conditioning unit by the environmental information such as the temperature of the air-conditioning area in Patent Document 4, the air-conditioning system is controlled by the plurality of blow-out ports that can control the air volume, and the individual areas can be individually controlled.疋 肩 肩 肩 对 各 各 各 各 各 各 各 各 各 各 各 各 各 各 各 各 各 各 各 各 各 各 各 各 各 各 各 各 各 各 各 各 各 各 各 各 各 各 各 各 各 各 各 各 各 各Since the entire area of the surface has a blow-out opening, it is difficult to individually control the flap, and the blower that detects the static pressure signal on the outlet side or controls the rotation speed by the wind speed and performs static pressure control is provided on the air conditioning unit side. At the time of the exit I έ A plus 'so' there is a problem that the individual areas cannot be individually controlled. Moreover, 'the method of detecting the temperature and the moving of each of the blowing devices of the last method is _, the air conditioning balance of the whole room will collapse, and the temperature in the field where the blowing device is not provided may sometimes rise, or only the foregoing The blowing device cannot sufficiently return the hot air remaining in the vicinity of the ceiling of the server room to the suction port of the empty machine, so that there is a problem that the warm environment in the upper part of the room cannot be improved. The present invention is an object developed to solve the above problems, and the object thereof is to reduce the set temperature of the air conditioner to below the required temperature, and to eliminate the air ducts and the like, so that the air blown out into the indoor space can be cooled. The same air-conditioning blow-out device system, the heat-dissipating conveyor system that moves the 2111-9〇27-PF that stays in the upper part of the indoor space, the Ahddub 8 200831833 hot air to the air intake of the air conditioner, and the system and the row that includes these air-conditioning blow-out devices Air conditioning system for a heat conveyor system. [Means for Solving the Problem] In order to solve the above problems and achieve the object, the first air-conditioning blowing device system of the present invention includes an air conditioner that draws in air from a suction port and blows out cold air from a blowing outlet; The cold airflow formed from the floor under the air blower outlet is blown, and at the same time, the cold air is blown into the indoor space from a plurality of blow holes formed in the floor; the plurality of blowout devices are disposed on the floor and suck the cold air in the air supply chamber And blowing out into the indoor space; the air flow measuring unit measures the cold air static pressure or the wind speed in the air supply chamber; and the blowout control unit, corresponding to the output of the air flow measuring unit, when the cold air static pressure or the wind speed is at a predetermined position in the air supply chamber When the threshold value is less than or equal to, the blowing device near the position is operated, and the cold air in the air supply chamber is blown out to the indoor space. Moreover, the air-conditioning blowing device system according to the second aspect of the present invention includes an air conditioner that draws in air from a suction port and blows cold air from the air outlet; the air supply chamber is formed from the floor and blows out from the air-conditioner outlet. The cold air flow passes through the same day, and the cold air is blown into the indoor space from a plurality of blow holes formed in the floor; the plurality of blowout devices are provided on the floor and sucked into the indoor space by the cold air sucked into the air supply chamber; the temperature measuring unit measures the indoor space The air temperature and the blowing control unit correspond to the rotation of the temperature measuring unit, and when the air temperature at the predetermined position of the indoor space is higher than the threshold value, the temperature is higher than the higher position. The person exits the device', and the cold air in the air supply chamber is blown out into the indoor space. Further, the air-conditioning blowing device system according to the third aspect of the present invention is the air-conditioning blowing device system of the present invention 2111-9027-PF/Ahddub 9 200831833, and includes the indoor unit When the mouth of the mouth P is turned out, when the temperature of the working space of the indoor space is set to 1, the temperature of the work is below the threshold, and the person who is in the vicinity of the higher temperature is blown out, and the air is blown out to the room. space. Further, the fourth heat-discharging device system of the present invention has a heat-discharging and transporting device which is disposed between the indoor spaces of the air-conditioner and the hot air which is moved to the air-conditioning inlet. Further, the fifth heat-discharging device system according to the present invention is the fourth aspect of the heat-discharging device system of the present invention, and further includes a conveyance control unit that corresponds to the output of the temperature measuring unit, and is set in the indoor space. When the position of the gas is higher than the threshold value, the rail wheel near the higher temperature position is set to be set to I, and the retained hot air is returned to the air intake of the air conditioner. #死, the sixth heat-discharging device system of the present invention is in the present invention: or the fifth-row heat-wheeling device system, which is provided with a frame body for accommodating the computer in the indoor space, and the heat-discharging device is provided In the upper part of the frame. And * the heat transfer device system of the seventh aspect of the present invention is in the heat transfer device system of any one of the fourth to sixth aspects of the present invention, and the heat transfer device is sighed to the frame body to make the frame body The air inside is forcibly discharged, and the air outlet is set to be tilted toward the air conditioner side. Moreover, the ninth heat exhausting wheel system of the present invention is in the seventh or fourth row of heat transfer device system of the present invention. The guide body is provided with an air guide for introducing the hot air discharged from the electric tube machine to the side of the air conditioner. ^ Moreover, the heat transfer device system of the present invention is in the present invention 2lll~9027-PF; Ahddub 10 200831833 • In the eighth heat transfer device system, the air guide device for forcibly discharging the hot air in the rack is provided on the guide. Further, the air conditioner system according to the first aspect of the present invention is included in the present invention. The air-conditioning blowing device system according to any one of the third to ninth, and the heat-discharging device system according to any one of the fourth to ninth aspects of the present invention. [Effect of the Invention] In the server chamber having the above configuration, the air supply chamber is defined When the location (' cold air static pressure or wind speed is lower than the threshold value, it can be predicted from In the air-conditioning blowing device system according to the first aspect of the present invention, when the cold air static pressure or the wind speed is lower than the threshold value, the use of the blowing clothes is mandatory. The cold air of the room is blown out to the indoor space, so that the amount of air blown in the entire room can be the same. When the air blowing device system according to the second aspect of the present invention is used, the air blowing device in the vicinity of the high temperature air is operated. The cold air in the air supply chamber is forcibly blown out into the indoor space, so that it is possible to control the temperature of the indoor space 2 to be the same. Moreover, the air-conditioning blowing device system according to the third invention of the present invention is used for daily maintenance. Where the pressure or wind speed is lower than the threshold value, the blowing is used to force the cold air of the space to be blown out into the indoor space, and at the same time, the blowing device near the air chamber is forced to blow the cold air in the air supply chamber. It is the same as the inner space, so that the air in the indoor space can be the same, and at the same time, the temperature in the indoor space can be controlled to be the same. In addition, when the heat-discharging conveyor system of the fourth invention of the present invention is used, the water is stored in the upper part of the indoor space, and the hot air which is retained in the upper part of the indoor space can be moved to the air-conditioner suction port, and the entire indoor space can be satisfactorily implemented. Further, when the heat-discharging device system according to the fifth aspect of the present invention is used, when the air temperature at a predetermined position in the indoor space is equal to or higher than the threshold value, the heat-dissipating heat is higher in the vicinity of the higher-temperature position. Since the transport device returns the retained hot air to the air intake of the air conditioner, the heat exhaust conveyor operates only when necessary, and can perform temperature management of all the spaces in the room in a good and economical manner. / ' " Moreover, when using the present invention In the case of the exhaust heat transfer device system of the invention, the frame body for accommodating the computer is provided in the indoor space, and the heat transfer device is disposed at the upper portion of the frame body, so that the hot air discharged from the frame body can be efficiently ventilated to the air conditioner. The movement of the suction port of the machine enables good and economical temperature management of all the spaces in the room. Further, when the heat exhausting conveyor system according to the seventh aspect of the present invention is used, the heat exhausting conveying device is provided to forcibly discharge the air I in the frame, and the air outlet is provided to the air conditioner side. Since it is inclined, the hot air in the frame can be moved to the air intake of the air conditioner more efficiently, and the temperature management of the entire room can be performed in a good and economical manner. Further, when the heat exhausting conveyor system according to the eighth aspect of the present invention is used, the guide body is provided with an air guide for introducing the hot air discharged from the computer to the air conditioner side, so that the hot air discharged from the frame body can be suppressed. Backflow to the frame body enables the hot air in the frame to move more efficiently to the air intake of the air conditioner, and the temperature management of all the indoor spaces can be implemented in a good and economic manner. Moreover, when the heat-dissipating conveyor system of the ninth invention of the present invention is used, 2111-9027-PF; Ahddub 12 200831833

Bxr is equipped with a 牟 牟 肉 肉 肉 在 , , , , , , 肉 肉 肉 肉 肉 肉 肉 肉 肉 肉 肉 肉 肉 肉 肉 肉Make the hot air in the rack more efficiently to the air intake of the air conditioner. The temperature management of all the indoor spaces is implemented in a good and economical manner. Further, when the first embodiment of the present invention is used, the air blower system of any of the first to third embodiments of the present invention is provided, and the blow-out device system is used. In this case, any one of the hot wheels in the gth is sent to the room, * {set, and charge'. Therefore, for the cold rolling static pressure or the wind speed is lower than the threshold value, the human steam is used in the mouth. The device makes the 矾 矾 矾 矾 矾 矾 矾 矾 矾 矾 矾 矾 矾 矾 矾 矾 矾 矾 矾 矾 矾 矾 矾 矾 矾 矾 矾 矾 矾 矾 矾 矾 矾 矾 矾 矾 矾 矾 矾 矾 矾 矾 矾 矾 矾 矾 矾 矾Therefore, the indoor space can be bolted to the R. The 4th is scared and the person is out of the same position. The target control makes the temperature of the indoor space ^ ^ ^ ^ ^ Μ. Moreover, it is possible to make the heat of the stagnation in the upper part of the inner king to the air conditioner and the sputum-into the entrance, and to apply the temperature management to all the spaces. [Embodiment] The steam-shaped air-conditioner of the present invention will be described in detail with reference to the drawings. In the following embodiments, an electric nose machine room is provided with an air-conditioning blowing device system, a + lichens system, and a heat-discharging device system. The server room is taken as an example. Moreover, the present invention is not limited to the following embodiments. (Embodiment 1) Fig. 1 is a schematic diagram of a server room for air-conditioning in accordance with the air-conditioning type of the present invention. The server room (computer room) has an indoor space 15 formed between the floor u and the ceiling 攸. The floor panel 11 is made of a double-structured floor. In the -1 1" service room, the whole column is set to 2111-9027-PF; Ahddub 13 200831833 is provided with a plurality of servo racks (frames) for storing the server (computer) internally and 1 7 ° and 'the aforementioned plurality of servo racks The server rack groups arranged in 1 7 are arranged in a plurality of columns (only one column is shown in Fig. 1). Each of the servo racks 17 draws in air from the suction ports formed on the bottom surface and the front surface, and discharges hot air as indicated by an arrow A from the air outlet formed on the upper surface.

An air conditioner 2 is provided along the side wall surface of the server room. The air conditioner 2 draws air from the suction port 213 formed on the upper surface, and blows air (air-cooled air) from the air outlet (not shown) formed on the bottom surface. An air supply chamber 23 is formed below the floor 11 which is formed into a double structure. The air conditioner (21) blows cold air into the air supply chamber (23). The portion sandwiched by the two column servo frames in the floor 11 serves as a passage portion. In the floor u of the passage portion, a plurality of small-diameter blow holes ιι& are formed on the entire floor surface. The air which has been discharged from the air-conditioning unit 21 into the air supply chamber is circulated into the air supply chamber 23 as indicated by an arrow B, and then blown from the respective blowing holes 11a into the indoor space 15 as indicated by an arrow c. The air supply chamber 23' under the double floor is also used as a wiring space for each server. The wiring chamber 2 5 extending to the respective servos is filled in the air supply chamber 23. * A plurality of blows are placed at equal intervals from the floor of the access section of the air conditioner 21: 30. The blowing device 30' sucks the cold air in the air supply chamber 23 and blows it into the indoor space 15 as indicated by an arrow D. The air blown from the air outlet hole Ua formed in the floor u and the blowing device 30 lowers the temperature of the indoor space π. Further, the air which is warmed by the servo rises, and the natural flow flows along the ceiling 13 as indicated by the arrow, and moves to the suction port 21a of the air conditioner 21 by natural flow. 2111-9027-PF; Ahddub 14 200831833 The brother 2 picture shows a side view of blowing a dream out of clothes. 30, having a motor 31 and a loyalty, a person's clothing, a fan Cj? on the drive shaft of the motor 31, a suction port formed on the lower surface, 2' is sucked into the air supply chamber 23 from the port 33 The upper surface is blown out of the milk, and the population 34 is blown out into the indoor space. j. The device is provided at the side of the device. The side is provided with a shovel. A is blown out and has a control device (blowing portion) 40 of the technical blowing device 30.詈 / 出 &; 剌 剌 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 The above-mentioned pressure detection 4' (airflow 4 soil knife detection state 41 is a control device 4 for measuring the cold air static pressure of the air supply chamber and outputting the result to the control device 4.), which corresponds to the rotation of the pressure detector 41 When the cold air block at a predetermined position in the cavity 23 is lower than the threshold value, the blowout device 30 of the action section = the cold air in the air supply chamber 23 is blown out to the chamber: 15. And the 'control device' is corresponding to the pressure. Detector 4 ι wheel: When the static pressure in the air supply chamber 23 is substantially lower than the threshold value, the fan & speed is accelerated to increase the air volume, and at the same time 'when only a little lower than the threshold value, make = fan 3 (2) When the air-conditioning blowing device system of the present embodiment is used, the air conditioner 21 takes in air from the suction port 21a and blows out the cold air from the air outlet. 23, the cold air flow formed from the bottom of the floor and blown out from the air outlet 21, and at the same time, the cold air is blown into the indoor space 1 from the plurality of blow holes 1 la formed in the floor u; the plurality of blowout devices 3〇, Blowing out the cold air in the air supply chamber 23 on the floor 11 To the indoor space 15; the pressure detector 41, the cold air static pressure in the air supply chamber 23, and the control device 40, corresponding to the output of the pressure detector 41, the cold air static pressure at a predetermined position in the air supply chamber 23. When the threshold value is lower than the threshold value, the blowout device 30 in the vicinity of the Ahddub 15 200831833 is operated, and the cold air in the air supply chamber 23 is blown out to the indoor space 15 .

Each of the blowing devices 30 is provided with a pressure detector (airflow measuring unit) 41 that measures the airflow static pressure flowing in the air supply chamber 23, and a measurement result by the pressure sensor 41 to control the blowing. The static pressure control device (blowing control. 卩) 40 'the air conditioning airflow pressure loss in the lower air supply chamber 23 is detected by the C force detector 41, and the control result is blown out by the control. The rotation speed of the fan 32 of the device 30 is adjusted to be blown out from the air supply chamber 23, and the amount of cold air blown to the inner space 15 is the same. By the 21st to the inside: the temperature of the room 15 is not biased, and the air conditioner 21 can be efficiently mobilized and the control of the pressure loss in the gas supply chamber 23 can be performed without the need to strictly perform the control of the pressure loss in the gas supply chamber 23. Strong, medium, weak, etc., set eight to make a certain amount of air. The form of a person who is out of the 30th is not limited to the fact that the small imprisonment is limited to the brother 2, and the 孓J孓 screw% paddle fan can be arranged side by side to form a wing fan t^ to take the fan, or it can be equipped with Objects of many different papers can also be used to secure objects with turbulence fans. Further, in the present embodiment, when the pressure is determined in the portion of the air supply chamber 23, the blowout device is operated at the position, and the static pressure is lower than the door target investigation. The retention of cold air is determined by the measurement of static pressure, which can be measured in cold air, and can also be measured when cold air = cold air is retained. When the air-conditioning wind speed is used to control the blow-out and the control is performed according to the result, the position is blown and set to 3 〇%, when the wind speed is lower than the threshold - 3 〇. The form 2 2111-9027 ~pP/Ahddub 16 200831833 The 3rd embodiment of the air conditioner of the present invention is a bottom view of the feeding device 2 of the floor air conditioner of the present invention. In the present embodiment, the ejecting device 30B is formed by the elongate flow of the W-shaped body. j: The composition is the same as that of the first embodiment. , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , The air-conditioning retention in the chamber is more:: reduction, so the amount of air-cooled air is the same for all the spaces, so the father and the teenager have less power, so that the indoor implementation mode is 3, the figure 4 is the air-conditioning unit of the present invention. ...the servo of the mode 3 is applied to the perspective view. In the present embodiment, as shown in FIG. 4, a temperature measuring unit α α σσ is detected (the temperature detecting unit 43 is connected to the blowing device 30 by the electric wire 44. The blowing device 3 is connected to the air conditioner 21 by a wire 45. The blowing device 3 is provided with a blowing control unit (not shown) similar to that of the embodiment. The other configuration is the same as that of the first embodiment. In the embodiment, the amount of cold air blown by the air conditioner 21 and the temperature information of the plurality of indoor spaces are transmitted through the electric wires 44 and 45 to the unillustrated and blown control unit. Further, the blowout control unit corresponds to the air conditioner of the air conditioner 21. And the output of the temperature detector 43 is such that when the air temperature of the predetermined position of the indoor space 15 is greater than the threshold value, the blowing device 30' near the higher operating temperature position blows the cold air in the air supply chamber 23 to the indoor space. 5. The blowing control unit (not shown) may be configured to correspond to the temperature detection 2111-9027-pp; Ahddub 17 200831833 and the implementation of (4) 1 by static pressure; Indoor space The temperature dependence of the established field in the room 15: the temperature can be set to 'the local air conditioning of the hot gas or the thermal load is adjusted to the indoor air volume. The side can't implement the high efficiency and the shape of the blowing device 30, which is the same as the embodiment. The ground is limited to the objects shown in Fig. 2, Lennon & 、,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,, The object can also be attached to the article with the cross-flow fan. Embodiment 4 Figure 5 is the bottom of the drainage floor of the present invention... ',,,,,,,,,,,,,,,,,,,,,,,,,,,,, In the present embodiment, as shown in Fig. 5, in the indoor air (4) heat exhausting device 50 of the air conditioner 21, the heat exhausting device 50, the heat gas in the vicinity of the board 13 is sent to the air conditioner. The machine 21 sucks the population...moving. In the server room, the Gongnv. The rack body of the server is 17.7, in order to reduce the temperature in the frame, so that the internal system is lowered in the form, so that the frame body is Discharged. In the present embodiment 2! The suction port 21a. The heat exhaust wheel ', , and return to the ceiling 13 of the air-conditioner road section in an efficient manner... The \ 系 is attached to the passage 13 surrounded by the frame group, and is attached to the shelf by the adjacent rack. When the heat-dissipating heat transfer device is set to 5 feet and the upper surface is still 0.5 meters high, the field door degree is used. In addition, it is more effective than the wood body in July to restrain the frame body 1 7 near 2lll-9027-PF; Ahddub The temperature rises in 200831833. At this time, the generated airflow f of the heat-discharging and conveying device 5 is formed in the direction in which the hot air is trapped in the upper portion of the passage space, and is formed in the direction of the air-conditioning machine suction port 21a. Moreover, the air conditioner 21 at the destination is reached. The airflow velocity near the suction port "a" is adjusted to a wind speed of 〇.5m/s~l.〇m/s in the absence of external disturbance. Can be formed from the air conditioner 21 a

Further, when the airflow to the destination is weak, the first heat-discharging device 5 of the machine 21 is inhaled between the first air-conditioning unit 21 and the air-conditioning unit 21, and one or more heat-discharging devices 5, and the air flow of the intensity is provided. The passage of the .......... and the ceiling 13 near the ceiling π are arranged to be placed in the vicinity of the ceiling 13 for 5 minutes. In this case, the heat stored in the vicinity of the upper portion of the frame 17 can be effectively (four) To the empty words: Machine 21 suction port 21 a. By the sacred corpse, ° „ 钱 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕Embodiment 5 In addition to the system of the heat-discharging system system of the heat-discharging device system of the present embodiment, the m " Φ 4 4 heat is entitled to return to the position of the air conditioner 21 and the temperature of the double-out temperature is not shown. The detection device and the control device (the transmission control unit) of the 0N-0FF of the day 4 50 are detected according to the temperature of the Lishu, and the temperature control is performed. ^ When the degree of measurement reaches a value of more than the fixed value, the heat transfer device 50 of one or more of the arrays of the objects that are located in the wide area of the object is operated. 1 Upper 21 Although it is not moving, it is, A,, for the workers with the machine (9) the temperature detected by the temperature detection unit reaches a 2lll-9027-PF; Ahddub 19 200831833 fixed value above the day, it can be judged that there is an air conditioner 21 In the vicinity, the air conditioner is tied into a short circuit, and when the air conditioner 21 is in the vicinity However, when the temperature measured by the temperature detecting unit reaches a value equal to or greater than a 疋 value, it can be judged that the heat generated by the frame equipped with the f server is large, so that the servo is mounted from any position. The hot air of the frame body j 7 is returned to the air inlet 21 of the air conditioner 21 to improve the air conditioning efficiency. In this way, the air conditioning condition can be judged from the indoor temperature, and the heat exhausting device 50 can be operated, thereby being more efficient. [Embodiment 6] Fig. 6 is a perspective view of a server room in accordance with a sixth embodiment of the present invention. (4) The upper part of the (4) 17 is provided with a heat-dissipating conveyor and the second and third heat-dissipating units are provided between the farthest from the air conditioner 21帛i heat-discharging device 5〇β to the air-conditioner 21 suction port. The conveying device 50 is capable of transporting hot air. The hot air inside the frame 17 is blown upward from the upper portion of the frame body 17 on which the servo is mounted, but the heat-discharging device 50 is disposed at a predetermined interval to overcome the blow-up. Hot air The hot air remaining between the upper portion of the server and the ceiling is forcibly returned to the suction port 21a of the air conditioner 21. Further, the heat transfer device 5〇β can be installed after the wood body 17 is placed in the servo room. The rack body having the heat exhausting and transporting device may be installed in the servo chamber during the manufacture of the frame body. Embodiment 7 FIG. 7 is a system of the heat exhausting conveyor system according to the present invention. 20 2111-9027-PF; Ahddub 200831833 Weekly server room perspective view. In the present embodiment, the upper portion of the wooden body 17 is covered with a cover 53 and the opening 53 of the cover 53 is provided. There is a heat exhausting device 50c. Further, the heat-dissipating conveyor 5c is configured to be "slanted at a predetermined angle" so that the air-discharging direction of the heat-discharging device 50C provided in the opening faces the air-conditioning unit 2i suction port. Therefore, the inside of the rack ", oxygen will be lured, this exhaust air will be sucked toward the air conditioner 21

Since the inlet 21a can suppress the flow of hot air around the frame body 17, it is possible to implement a more efficient indoor air conditioner. Embodiments 8 and 8 show a perspective view of the chamber using the heat transfer device system of the present invention. In the present embodiment, as shown in Fig. 8, as a function of arranging the heat-dissipating fan functions normally mounted on the upper portion of the frame body 17, and the fan-use heat-discharging and conveying device, the heat-discharging and conveying device is disposed in The upper part of the frame body 17. The heat-discharging and conveying device 5)] causes the inside of the frame body 17 to be blown upward from the frame body 17 obliquely upward. Further, the blown hot air is supplied to the air intake port 21 of the air conditioner 21. Thereby, it is not necessary to separately provide a heat exhaust conveying device, and it can be an inexpensive structure. The embodiment 9 is a perspective view of the feeding device chamber of the embodiment of the present invention using the heat-dissipating conveyor system of the present invention. In the present embodiment, as shown in Fig. 9, the keeper is attached with an introducer 57 on the upper portion of the wooden body 17 to guide the hot milk in the frame η to be blown upward obliquely. Moreover, in the upper part of the frame body 17, there is a combined exhaust ventilating wind: In this way, it is used for installation: the discharge conveyor 5〇ε of the upper exhaust fan of the wood version 1 7 is set to operate in cooperation with 2lU-9〇27-PF; Ahddub 21 200831833 ^, thereby eliminating the need to additionally set The exhaust heat transfer device, the moon raft becomes an inexpensive structure. (Embodiment 1) FIG. 10 is a perspective view of a server room using an underfloor air-conditioning system according to Embodiment 10 of the air conditioning system of the present invention. In the air conditioning system of the present embodiment, as shown in Fig. 10, the configuration shown in Fig. 1, the air conditioner user outlet system, and the fourth embodiment heat exhaust conveyor system shown in Fig. 5 are combined. As a result, it is possible to forcibly generate the gas catching percentage across the entire area of the server room. Therefore, it is possible to suppress the cold air short circuit in the vicinity of the air conditioner 21, and to eliminate the shortage of the cold air blowing in the field of the air conditioner 21, thereby preventing the frame from being prevented. The upper part of the crucible 7 is retained by the hot air, so that the hot air in the vicinity of the frame body 17 can be suppressed, and the air conditioner 21 can be operated efficiently. In the server room of the air conditioning system of the present embodiment, when the system is stopped, when the system is stopped, the temperature of the actual test system is at the average temperature of 29.9 < t 26.2t: It can reduce 3 3.8t~25.rc, and 'when the system is stopped, the indoor space 15 can be well air-conditioned when the system is stopped, and it can be confirmed that the hot air is not retained. [Industrial Applicability] As described above, the air-conditioning blowing device system of the present invention is very suitable for, for example, a server room provided with a frame for housing a computer and using an underfloor air-conditioning system, and is particularly suitable for use with With the advancement of the system's high concentration, the number of wiring strips arranged in the air supply chamber to the server machine is increased, and the flow path in the air supply chamber is narrowed. Further, the heat-dissipating conveyor of the present invention 2111-9027-PF; Ahddub 22 200831833 is a system which is very suitable for a rack body provided with a plurality of storage computers, for example, and a server chamber having a hot air retention in the inner space. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a perspective view showing a first embodiment of a system for blowing an air conditioner according to the present invention. Fig. 2 is a side view showing the details of the blowing device of Fig. 1. Fig. 3 is a perspective view showing a second embodiment of the air-conditioning blowing device system of the present invention. Fig. 4 is a perspective view showing a third embodiment of the air-conditioning blowing device system of the present invention. Fig. 5 is a perspective view showing a fourth embodiment of the heat exhausting conveyor system of the present invention. Fig. 6 is a perspective view showing a sixth embodiment of the heat exhausting conveyor system of the present invention. Fig. 7 is a perspective view showing a seventh embodiment of the heat exhausting conveyor system of the present invention. Fig. 8 is a perspective view showing an eighth embodiment of the heat exhausting conveyor system of the present invention. Fig. 9 is a perspective view showing an embodiment of the heat-discharging conveying device system of the present invention. Fig. 10 is a perspective view showing an embodiment of the air-conditioning blowing device system of the present invention. Figure 11 is a previous server rack stereo 2111-9027-PF placed in the underfloor air conditioning mode; Ahddub 23 200831833. [Main component symbol description] 11 ~ floor; 11 a ~ blow out hole; 13 ~ ceiling; 15 ~ indoor space; 17 ~ server rack; 21 ~ air conditioner; 2la ~ air conditioner suction port; 23 ~ air supply chamber; 25~wiring; 30, 30B~ blowing device; 31~motor; 3 2~fan; 33~ blowing device suction port; 34~ blowing device blowing outlet; 44, 45~ wire; 40~ control device (blowing control part); 53~cover body; 41~pressure detector (airflow measuring unit) 57~guide; 43~temperature detector (temperature measuring unit) 50, 50B, 50C, 50D, 50E, - heat exhausting device. 2111-9027-PF; Ahddub 24

Claims (1)

200831833, X. Patent application scope: 1 · Air blower system, characterized by: air conditioner, inhaling air from the suction port, blowing cold air from the air outlet; air supply chamber 'self-formed under the floor And the cold airflow blown out from the air outlet of the air conditioner passes through the plurality of blow holes formed in the floor to blow cold air into the indoor space; the plurality of people are placed in the rain floor and are sucked into the air supply chamber. Cooling air is blown out into the indoor space; the airflow measuring unit measures the cold air static pressure or the wind speed in the air supply chamber; and the blowout control unit corresponds to the output of the airflow measuring unit, and the cold air is static at a predetermined position in the air supply chamber When the pressure or the wind speed is below the threshold value, the blowing device near the position is operated to blow the cold air in the air supply chamber into the indoor space. 2. An air blowing device system for air conditioning, comprising: an air conditioner that draws in air from a suction port, and blows out a cold air from a blowing outlet; and supplies a gas chamber to be self-formed under the floor and blown out from the air outlet of the air conditioner The cold air flow passes through, and at the same time, many of the blow holes formed in the floor blow cold air into the indoor space; the plurality of blow-out devices are installed on the floor and are inhaled before the inhalation, and the air is blown out to the indoor space. The temperature measuring unit measures the air temperature and/or the blowing control unit in the indoor space, and corresponds to the rotation of the temperature measuring unit, and when the air temperature at the predetermined position of the indoor space is higher than the threshold value, The blowing device having a temperature higher than that of the 2111-9027-PF and the Ahddub 25 200831833 is blown to the indoor space of the air supply chamber 1 . 3. The air blower system for an air conditioner according to claim 1, further comprising: measuring a temperature sound of the indoor space, and a degree measuring unit, wherein the blowing control unit corresponds to the temperature measuring unit When the wheel is out, the air temperature at the predetermined position of the aforementioned indoor space is higher than the threshold value. The aforementioned blowing means in the vicinity of the higher temperature position blows the cold air in the air supply chamber into the indoor space. 4. A heat removal conveyor system disposed in an upper portion of an indoor space of an air conditioner to move stagnant hot air toward a suction port of the air conditioner. 5. The heat-discharging wheel-sending system according to claim 4, wherein 'and a conveying control unit, wherein the conveying control unit corresponds to an output of the temperature measuring unit, and the air in the predetermined position of the indoor space When the temperature is below the threshold value, the heat exhausting device in the vicinity of the higher temperature position is operated, and the retained hot gas is returned to the air inlet of the air conditioner. • The heat-dissipating conveyor system according to item 4 or 5 of the patent scope of the present invention, and the frame body in which the enemy computer is housed in the indoor space, and the heat-discharging device is disposed on the upper portion of the frame body. * 7· The heat-discharging device system described in item 5 of the patent application scope, wherein the heat-discharging device is installed in the frame body, and the air in the frame body is forced to The discharge is performed, and the outlet is set to be inclined toward the second adjustment machine side. The heat transfer conveyor system 2Hl-9〇27-pF described in the sixth paragraph of the patent scope is called Ahdub 26 200831833, wherein the frame body is The heat-discharging device system for introducing the hot air discharged from the computer to the air conditioner side, wherein the heat-discharging device system according to claim 8 is provided on the guide The air supply system for forcibly discharging the hot air in the rack. The air conditioning system is characterized in that: the air-conditioning blow-out device system described in claim 3 and the heat-dissipation described in claim 9 Conveyor system 2111-9027-PF; Ahddub 27