TW461953B - Partition slab type air-conditioning module - Google Patents

Abstract

This invention of partition slab type air-conditioning module is designed as an individual basis air-conditioning module for free assembling the personal working corner in office space by collecting heat exchange machine and fanner inside an erected screen. The module will be connected to the supplying system of heat transfer medium to provide cooling or heating air conditioning function according to the situation of the personal working corner with energy saving effect.

Description

461953 V. Description of the invention (i) [Scope of application of the invention] The present invention relates to an air-conditioning equipment, in particular, a combination of components such as a partition-screen, a heat exchanger, a heat transfer medium pipe, and a blower, which can be used indoors. The partition screen, and the partition type that meets the air-conditioning function required by the personal work area; air-conditioning module. [Background of the invention] Most of the traditional refrigerating and air-conditioning systems are designed to distribute cold air to every corner of the room through the air outlets scattered in the cold room. This design has the following problems: _ 1 Regardless of the actual number of people in the cold room or the demand, the goal is to make the cold room reach a preset temperature as the operating goal of the refrigeration air-conditioning system. If the actual number of cold rooms is small, it will undoubtedly cause waste of energy. 2. The temperature difference between the return air and the return air is relatively low. Therefore, the temperature of the return water of the ice water is lower, or the evaporation temperature of the refrigerant is lower, and the efficiency of the refrigeration system is relatively low. 3. The air-conditioning vents installed on the ceiling, due to the introduction of more lamps, the radiant heat from the roof and walls, will increase the unnecessary cooling room load of the refrigeration and air-conditioning system, causing waste of energy. [Objective and Summary of the Invention] The object of the present invention is to provide a modular partition-type air-conditioning module. One of them is to provide a partition that can be flexibly combined and can meet the air-conditioning function required by the personal work area. Air-conditioning module. Another object of the present invention is to provide a partition-type air-conditioning module that can provide the air-conditioning function required by the personal work area according to the air-conditioning requirements of the actual number of users, so as to achieve a 9 s avoidance of energy waste.

461953 V. Description of the invention a) The partition-type air-conditioning module disclosed in the present invention includes at least one heat exchanger, a thin blower and other components, and is collectively installed in a vertically-mounted screen to form a so-called partition. Type air-conditioning module, this partition-type air-conditioning module adopts the module design, it can be used alone, or it can easily combine several same-type partition and plate-type air-conditioning modules, and the wiring of the transmission pipeline of the heat transfer medium is composed The office partition screen can be combined with the desktop to become an office partition furniture. Using this partition type air-conditioning module can separate the personal work area in the office, and then connect it to the heat medium supply system through the heat transfer pipe to provide a cold room or personal work area. It is the air-conditioning function of the greenhouse. One of the preferred embodiments of the partition-type air conditioning module disclosed in the present invention further includes a filter, an air filter material (such as activated carbon), or an ozone air cleaner provided in the air flow path inside the screen hollow. And other equipment used to purify the air, so as to filter out larger particles such as dust or remove some harmful substances in the air, to achieve the effect of air purification. The detailed technical content and embodiments of the present invention are described below with reference to the drawings: [Detailed description of the embodiments of the invention] As shown in "Figures 1 and 2", the partition-type air conditioning module designed by the present invention includes There are: a screen 1 〇, having a frame 1 〇 丨 which forms the four sides of the screen 10, and upright surfaces 11 a, 11 b located on opposite sides of the screen 10, respectively, by the upright surfaces 11 a, 11 b and the four-sided frame Surrounded by 1 0 1 to form a hollow screen

461953

V. Description of the invention (3) 10 'The screen 10 also has at least an air outlet 12 and an air return 13 and communicates through a gas flow channel defined in the screen 10; a sweat-heating medium supply pipe 20 is used for Heat transfer medium (such as refrigerant, ice water or hot water) is introduced into the partition-type air-conditioning module. The two ends of the supply pipe 2 are one inlet, the inlet 201 and a series of ends 2 02, and the inlet 2 〇1 is used to connect to the supply source of the media, and the serial connection 2 〇2 can be connected to the inlet 2 〇a of the same type of partition-type air-conditioning module.

"Figure 15"), so that another partition-type air conditioning module of the same type can share the heat transfer medium of the same source; a suction pipe 21 of the heat transfer medium is used to return the heat transfer medium back to the heat transfer medium The recycling source is recycled. The two ends of the suction tube 2 are an output end 211 and a recovery series end 212, and the wheel output end 211 is connected to the source 2 of the heat transfer medium. The heat transfer medium that is exchanged is brought back to the supply side of the heat medium η, and the recovery serial end 2 1 2 can be used with the suction end 2 of the same type of partition-type air conditioning module. Connection (see Γ # j5, ^ A "), so that the heat transfer medium that completes the heat transfer in another partition-type air-conditioning module of the same type can be taken back to the supply source of the heat transfer medium; the heat transfer The changer 30 ′ is arranged within the screen 10, and its inlet end 301 is connected to 2 = guan 2 0, while the outlet end 3 2 is connected to the suction pipe 21, and the heat transfer provided by = 1 2 0 is used. The medium heat-exchanges the air flowing through the heat exchanger 30, and then flows out through the suction pipe 21; and a fan 40 for future use Shu pushed through the return air from the air just above the heat exchanger 30, and then released from the outlet 12 to the chamber 3. ^ Please refer to "Figure 3" again, which shows the partition type air conditioner of the present invention.

461953 V. Another preferred embodiment of the description of the invention (4) 'It is based on the structure of "Figure 1", and a water collecting plate 31 is arranged below the heat exchanger 30, and a condensation is formed. -Water drain pipe 3 2 'Due to the dehumidification effect when the cold room function is provided, water vapor will condense on the surface of the heat exchanger 30, and the collected and condensed water drained through the water collecting tray 31 1 < pipe 3 2 guide, you can drain the condensed water. The structure of the screen 10 is composed of four sides of the frame 1 0. The screen 10 has two upright surfaces 1 1 a, 1 1 b located on opposite sides, and can stand on the ground by a tripod 14 provided at the bottom thereof. (Such as "Picture 2"), or stand upright on the ground through other fixing methods such as nailing. Of course, if necessary, the screen 10 can also be fixed to the wall, or set close to the wall. The air outlet 12 and the air return 13 are basically openings used to connect the interior and exterior of the screen 10, and their setting positions can have various implementation forms, for example: The first feasible implementation form is to output The air outlet 12 and the return air outlet 13 are arranged on the upright surfaces 1 1 a, 1 1 b of the screen 10, and they can be located on the upright surface 11 a on the same side of the screen 10 (such as "picture 4"), or The upright surfaces 1 1 a, 1 1 b located on opposite sides (eg, "Figure 5"). In the second feasible implementation mode, the design of the return air opening 13 is as shown above, and the air outlet 12 is provided on the top edge of the screen 10, for example, on the top edge frame 10 that forms the screen 10 1 a, for exhausting the airflow upward (eg "Figure 6"). The design of the return air outlet 13 of the third feasible implementation mode is still the same as that of the first embodiment, and the air outlet 12 is disposed at two planes adjacent to each other at the top of the screen 10, that is, the screen 1 0 of the two upright faces lla, llb

461953 V. Description of the invention (5) Edge ′ and the top edge frame 1 〇 1 a of the screen 10, so that the airflow is discharged in the direction of radiation (see “Figure 7”). If the main purpose is to provide the air-conditioning function of the cold room, the better position is that the air outlet 12 is up and the air return 13 is down, so that the supplied air can be discharged from the top to the bottom. The principle of downward convection can diffuse it indoors. On the other hand, if the air-conditioning function of the heating room is mainly used, the better configuration is designed with the air outlet 1 2 down and the return air 1 3 up (such as " Figure 8 "). Another preferred embodiment of the air outlets 12 and the air return outlets 13 is a panel design of the air outlets 12 and the air return outlets 13, that is, the air outlets 12 and the air return outlets 13 are arranged on a flat plate. Let the flat plate be a type of the air outlet panel 12a and the return air panel 13a installed on the vertical surface 11a, lib of the screen 10, respectively. (Installed by screws or buckles) to facilitate later removal and cleaning (such as "Figure 9"). At the air outlet 12 or the return air outlet 13, wind guide blades 15 can also be installed. Just like the air outlet of a general air conditioner, it can be an automatic air guide driven by a small motor 16 and a worm device 16 2 The blades (such as "Figures 10A and 10B") can also be manual wind guide blades that are completely adjusted by the user. This not only allows the user to determine the direction of the wind, but also prevents the airflow from directly blowing the human body and causing discomfort. sense. The blower 40 is basically a fan, which can be a centrifugal fan or an axial flow fan. It uses the hollow interior of the screen 10 as the air flow channel to push the air from the return air port 13 through the screen 10 Hollow interior

Page 8 d 6 1 95 3 5'Instruction of the invention ¢ 6) Heat exchanger 3 0 ′ After the heat exchange action of heat exchanger 30, it is released into the room from 12 air outlets. A better design also includes a filter screen Π, an air filter material (such as activated carbon) or an ozone air cleaner 18, such as a screen 10 hollow-inner air flow channel, such as equipment for purifying air (such as "Figure 7"), so as to filter out larger particles such as dust or remove some harmful substances in the air, to achieve the effect of air purification. Among them, the filter 17 is best installed at the air inlet (especially the location near the return air outlet 13) (such as "Figure 11") to ensure the cleanness of the internal parts of the screen 10, of course. It can be installed near the air outlet 12 (such as "Figure 12"). If it is used with the air outlet panel 12a or the return air panel 13a in the panel design, you can also remove the air outlet panel 12a or the return air. The panel 13a can be easily replaced or cleaned afterwards. The structure shown in "Figures 1 3 A, 1 3 B" is another preferred embodiment of the partition-type air conditioning module designed in the present invention; in this embodiment, we are inside the screen 10 Add an outdoor air supply pipe 19, and arrange the outdoor air delivery pipe 50 and necessary air supply devices such as blowers 51 and air filters 52 in the building. When air is required to be exchanged or fresh air is supplied, Fresh outdoor air from outside can be led to the outdoor air supply pipe 19 in the partition-type air-conditioning module through the blower 51 and the outdoor air duct 50, and the heat inside the hollow being pushed through the screen 10 is also similar. After the exchanger 30 is released into the room from the air outlet 12. The outside air supply pipe 19 is arranged at the bottom of the screen 10, and the width of its section should be as large as possible under the condition that the screen 10 can be accommodated, so that a large amount of fresh air passes through, and the aforementioned supply The tube 2 0 and the suction return tube 2 1 can be contained in the air supply tube 19 (see also

461953 V. Description of the invention (7) "Figure 1 3 B") in order to make full use of the internal space of the screen 10. The partition-type air-conditioning module designed by the present invention is mainly used to meet the individual's air-conditioning needs, so it is particularly suitable for being used as an office partition screen and partitioning everyone's work area. It can flexibly divide many work areas dedicated to personal use through the combination of multiple partition air-conditioning modules according to the actual space and space planning needs (as shown in "Figure 14"); 'You can also install a desktop 60 on any one of the façades 11a or lib of the screen 10 according to the direction of the wind from the air outlet 12, and it can be turned into a table for personal use.' — To enjoy the air conditioning function provided by this partition type air conditioning module. In terms of the modular design of the partition-type air-conditioning module, the present invention uses a method for sharing the pipeline, so that when two partition-type air-conditioning modules are connected to each other in parallel, the interior of the two is used to transfer the supply of heat transfer medium. Pipe 2 〇 and suction return pipe 2 1, condensate drain pipe 3 2 and outside air supply pipe 19 are connected in series with each other (see "Figure 15"), so that two partition-type air conditioning modules can share heat The medium and fresh outside air, and follow the same path to drain condensate. There are many ways to connect the supply pipe 2 of the two partition-type air-conditioning modules, the suction pipe 2 1, and the condensate drain pipe 3 2 to each other. For example, when the two partition-type air-conditioning modules are in the same plane When connected to each other (such as "Figure 16A"), one can be connected together with a tube connection element 3 3 at their adjacent positions; otherwise, if a partition-type air conditioning module or It is a partition-type air-conditioning module located at the end of the official line. It must also use a tube closing element 3 5 (see "Figure 16 β") to close the supply pipe 20, the suction return pipe 21, or the condensate drain. The end of the pipe 32, and for the convenience of construction, the vertical surface of the screen 10

% 10 461953 V. Description of the invention (8) In the proper position of 11 a, 11 b, a cover plate 3 6 ′ that can be opened and closed must be installed so that the construction personnel can make pipe connection elements 3 3 after opening this cover plate 3 6 Or the installation of the tube closing element 35. As shown in "Figure 1", when two partition-type air-conditioning modules are connected to each other in a relationship with a cool angle (such as when connected to each other at a corner), we can use one to connect the two The corner posts 1 0 2 ′ of each partition-type air-conditioning module and the elbow joint 37 installed in the corner posts 10 2 are connected to the supply pipes 20 and the suction return respectively located in the two partition-type air-conditioning modules. Pipe 2 1 and condensate drain pipe 3 2. Of course, at the bottom edge of this corner post 102, the position of the air supply pipe J9 outside the interior of the two partition-type air-conditioning modules is aligned with a hollow passageway 103 for connecting the two partition-type air conditioners. Inside the module outside the gas supply pipe 丨 9. The partition-type air conditioner wedge set of the present invention is not itself equipped with any heat transfer medium supply equipment, so it must be supplied with the heat transfer medium required for the air conditioner. It is also ready to connect, and depending on the function of the air conditioner, the 'matched heat transfer medium supply equipment' can have the following different implementations, which are described separately as' 1. Use a refrigerant supply system 70; Provide cooling room and dehumidification adjustments b 犄 '犄 to use the heat exchanger 30 of the partition-type air conditioning module designed in the present invention as part of the evaporator of the refrigerant supply system 70 (see

Ji? &Quot; "), at this time, the refrigerant is compressed to a high temperature by the refrigerant compressor 71 Γ: 碉: Γ is supplied to the partition worker via the distribution pipe 81 after being radiated through the condenser, and then expanded through the refrigerant supply pipe 20 and a When the device 38 enters and will flow through this-the heat exchanger will evaporate, the heat of the heat will be "cooled with two gases", and the refrigerant that has completed the action will be passed again.

^ 61953 V. Description of the invention (9) Refrigerant suction pipe 2 1 is introduced back to the refrigerant wheel distribution 70 ′, and the water condensed on the surface is discharged 31 and the condensate drain pipe 32 is discharged to the discharge line 82). Conversely, 'If it is necessary to provide a heating house as the condenser of the refrigerant supply system 70)', the air in the heat exchanger 30 is used to cool the refrigerant when it is cooled here, and 2, the ice water supply system 7 2 is used; the supply system 7 2 The supplied ice water will be cold energy available. 3. Use the hot water supply system 7 3; The hot water supplied by the supply system 7 3 will be available thermal energy. The pipeline 8 1 return to the refrigerant supply system can use the water collection pan system located below (for example, when the drainage pipe function of the building, a part of the heat exchanger 30 can be used (see "Fig. 18" heat release effect). The air-conditioning function of the heating room can be flowed through. As shown in "Figure 19", ice water is required to provide the air-conditioning function of the cold room. As shown in "Figure 20", hot water is provided to provide the air-conditioning function of the heating room. In principle, the heat transfer medium supply equipment described above is installed outdoors. It can pass the distribution pipe 8 丨 (as shown in Figure 8) in the floor 80 to transfer the heat required by the air conditioner. The media is delivered to each required partition ^ air-conditioning module, so the location of the partition-type air-conditioning module can be determined according to the space planning, and the distribution pipeline 81 laid on the floor can even be arranged into a transmission Distribution network. In addition, we can also use overhead wiring, as shown in Figure 19, 20, the distribution pipeline 8 1 is arranged above the ceiling 8 3 to extend to the preset position. Through hollow walls or hollow false beams 84 is connected to the separator closest to the air-conditioning modules at the completion of the heat transfer medium pipe Wheel

Page 12 d61 95 3 V. Description of Invention (ίο) '*-The layout of Road 81. Since the internal space of the screen 10 is limited, the Μ exchange 30 can be selected at an MX exchange to select a suitable type according to the needs of the operating capacity. As for the temperature control of the outlet air, the temperature-sensitive rigid element 41 can be used in conjunction with the controller 42 (such as "Figures 2 and 3") to control the speed of the blower 40, and the heat is the speed of the refrigerant compressor 71 (such as an inverter compressor). The way to complete the temperature control. Taking the use of the refrigerant compressor 71 to provide the temperature control of the heat transfer medium as an example, we can complete the control of the air outlet temperature by the following ways to control the flow of the heat, for example ... 30 1 As shown in the second "f2U diagram" (at this time, the heat exchanger 30 is used as the twilight 7), we can use the supply pipe 2. Set 1 temperature-sensing expansion valve = to control the flow of refrigerant, and control the operation of the temperature-sensing expansion valve 38a by taking the temperature 3 = 2 from the heat exchanger 30, and reuse it before the temperature-sensing expansion valve 38a The shut-off valve 9 1 at the end (for example, a belt with a magnet, controls the entrance of the refrigerant or not.% 来 来 2, in another embodiment (see "Figure 2 丨 β"), = installed on the supply pipe 2. and The cut-off width of the heat exchanger 30 is 9m (capillary magnetic reading) to control the flow rate of the refrigerant through the expansion device 3 8 (such as the flow rate of the capillary heat exchanger 30. m enters 3). An example is to selectively supply 2 = supplying refrigerant to the number constituting the heat exchanger 30 / amps 30a, 30a2, 30a3, each manifold "", “心 '川 心In addition to the necessary expansion devices 38a, 38b, and 38c at the entrance, they are also equipped with Anong-shutoff valves 9 1 a, 9 1 b, 9 1 c, respectively, to control whether the refrigerant can be used ^ ^

Page 13

^ 61953

V. Description of the invention (11) Manifolds 30al, 30a2, 30a3. · If you use a partition-type air conditioning module that uses a heat transfer medium (ice water or hot water) · The structure is as shown in Figures 22A to 22C. It is completely controlled by the heat. The flow rate of the device 30 is used to control the air temperature. f The structure of the embodiment shown in "Fig. 2 2A" uses a three-way flow control valve 94 to control the flow rate of the water-based heat medium into the heat exchanger 30. The three-way flow control valve 93 The three connection ends are respectively connected to the supply pipe 20, the suction return pipe 21, and the inlet end 301 of the heat exchanger 30. As long as a part of the water-based heat transfer medium from the supply pipe 20 is directly guided to the three-way flow control valve 93, By sucking back to the official 21, the flow rate of the water-based heat medium into the heat exchanger 30 can be reduced, otherwise the flow rate of the water-based heat medium into the heat exchanger 30 can be increased. The structure of the embodiment shown in "Fig. 22B" uses a one-way flow control valve 94 to control the amount of water-based heat transfer medium entering the heat exchanger 30. As for the structure of the embodiment shown in "Fig. 22C", the water-based heat transfer medium supplied for the final delivery of 20 is selectively provided to several manifolds 30a1, 30a2 that constitute the heat exchange "change" 30a. 30a3 'Each manifold, device 30a, 30a2, 30a3 has a shut-off valve 91a, 91b, 91c installed at the entrance to control whether the water-based heat transfer medium can be manifold 30al, 30a2, 30a3. In addition, it is also possible to control the temperature of the air outlet 0 by controlling the air volume of the air outlet 12. For example, the air volume of the blower 40 is controlled or the air volume is changed. 461953 V. Description of the invention (12) 1 2 In a preferred embodiment, 'the vertical surface of the partition-type air conditioning module disclosed in the present invention is further provided with a controller 4 2 (see "Figure 23"). The controller 4 2 has at least: A start button 4 2 1 for starting the operation of the partition-type air-conditioning module; an air output and volume control button 422 for controlling the air output of the blower 40; a temperature control circuit (not shown), which can be set The required outlet temperature depends on the return air temperature measured by the temperature sensing element 41, and controls the speed of the blower 40 or the refrigerant compressor 71, or as shown in "Figures 21A to 21C" and "Section Figure 22A to Figure 22C "shows the temperature of the outlet air by controlling the flow rate of the heat transfer medium. Of course, if the partition-type air-conditioning module is also equipped with components such as ozone air cleaner 18 or automatic air guide vanes 15, it is necessary to add necessary control switches to the controller 4 2 and even the temperature display 4 3 to Provide comprehensive operation functions. Finally, please refer to "Fig. 24". The embodiment disclosed in this figure is a partition-type air-conditioning module that can be automatically started. It is mainly equipped with a human body sensor 44 (0ccupied) on the partition-type air-conditioning module. Sensor) to detect whether there is someone in the working area in the airflow direction of the partition-type air-conditioning module, and further decide whether to activate the partition-type air-conditioning module to provide the air-conditioning mechanism required for this area, otherwise no one Or when people leave this area, they can stop the operation of the partition-type air-conditioning module to achieve timely application and save energy. [Effect of the invention] The partition-type air-conditioning module designed by the present invention adopts a modular design.

Page 15 ^ 61953 V. Description of the invention (13) Particularly suitable for the division of personal working areas in the office. The operation of each partition-type air-conditioning module is completely controlled by the user, and its air-conditioning function can just meet the personal air-conditioning. demand. The partition-type air-conditioning module designed by the present invention is completely set according to the air-conditioning requirements of the personal work area, and does not need to bear the extra cold room load caused by the building such as the ceiling or the wall, so the energy cost can be reduced naturally. The partition-type air-conditioning module has the function of supplying fresh air, which can directly obtain the best ventilation effect in the personal work area.

Page 16 461953 Brief Description of Drawings Figure 1 is a structural diagram of the first embodiment of a partition-type air conditioning module. Fig. 2 is an external structural diagram of a partition-type air conditioning module. Figure 3 is a structural diagram of another embodiment of a partition-type air conditioning module. Figures 4 to 8 are sectional views of the structure of the partition-type air conditioning module, showing various embodiments of its internal structure. Fig. 9 is another embodiment of the partition-type air conditioning module, showing the structure of the detachable return air panel and the furnace net. Figs. 10A to 10B are sectional views of the structure of the partition-type air conditioning module, and show the structure provided with wind guide blades at the air outlet. Figures 11 to 12 are sectional views showing the structure of a partition-type air-conditioning module, showing an example in which a filter is installed inside. Figures 13A to 1B are diagrams showing a structure in which a partition-type air conditioning module is connected to an outdoor air supply device. Fig. 14 is an application example of the partition-type air-conditioning module, and it is shown as a partition screen in an office. Figure 15 is an external view of a partition-type air-conditioning module, showing the case where two similar-type partition-type air-conditioning modules are juxtaposed. Figures 16 A to 16 B are cross-sectional views of the partial structure of a partition-type air-conditioning module, showing the structure used to connect the pipeline to the closed pipeline. Figure 17 shows the cross-section structure of two partition-type air-conditioning modules connected by a corner post at the corners. Figure 18 shows the connection between the partition-type air-conditioning module and the refrigerant supply system.

Page 1 461953 Schematic description of the structure. FIG. 19 is a structural diagram of an implementation state in which a partition-type air conditioning module is connected to an ice water supply system. Fig. 20 is an implementation drawing of the connection between the partition-type air conditioning module and the hot water supply system. Figures 2 1 A to 2 1 C show several designs to control the flow of refrigerant into the heat exchanger. Figures 2 2 A-2 2 C show several designs to control the flow of ice water or hot water into the heat exchanger. Figures 23 and 3 show the structure of the partition-type air-conditioning module and the air temperature controller. Figures 24 and 4 show the structure of another embodiment of the partition-type air-conditioning module, showing the structure provided with a human body sensor. [Illustration of Graphical Symbols] 10 ............ Screen 10 1 ........ Frame 101a ....... Top Edge Frame 102 ........ Corner Column 103 ........ Hollow channel 11a, lib ... Upright 12 ......... Air outlet 12a ......... Air outlet panel 13 ... ....... return air outlet 13a ......... return air panel

P.18 461953 Brief description of the diagram 14 ....... 15 ....... 161 ..... 162 ..... 17 ····· 18 ... . 19 ....... 20, 20a ..... 201, 201a ·. _ 2 0 2 ..... 21, 21a ..... 211, 211a * · 212 ..... 3 0, 3 0 a ..... 30al, 30a2, 30a3 • • Tripod • Air guide vane • Small motor • Worm unit • Filter • Ozone air cleaner • Outside air supply pipe • • Supply pipe • • Inlet end-series connection end • suction pipe • output end 'recovery connection end' • heat exchanger • manifold 3 01 ........ inlet end 3 0 2 ...... ..Outlet end 31 ······· # 水 4π_ 32 ···· • * * Condensate drainage pipe 33 ··· ———— f connection element 35 ·· ** * · · f closed element 36 ········ M-plate 37 · * ··················· ································· ... 40 ......... blower 41 ......... temperature sensing element 42 ......... controller 4 21 ... 4 2 2 ........ Air volume control button 4 3 ......... Temperature display 44 ......... Occupied Sensor 50 ......... External air delivery pipe 51 ......... Air blower 52 ... .. Air filter 60 ......... Desktop 70 ......... Refrigerant supply system 71 ......... Refrigerant compressor 72 ... .. Ice water supply system 7 3 ......... Hot water supply system 8 0 ......... Floor 81 ......... Refrigerant transmission and distribution pipeline 82 .. ....... Drain line 83 ......... Ceiling 84 ......... False beam 91 ... Shut-off valve 9 1 a , 9 1 b, 9 1 c ·. '. Shut-off valve 93 ·'.. .. Three-way flow control valve

Page 461 953

Page 21

Claims (1)

461953 1. A partition-type air-conditioning module, comprising:-a screen with a hollow interior, including a four-sided frame and uprights located on opposite sides of the screen and the wind, the screen also has an air outlet and a return air outlet , The air outlet and the air return are connected through the air flow path defined in the screen; > a heat transfer medium supply system 'for supplying the heat transfer medium required by the partition-type air conditioning module; Tube, through which the heat medium supplied by the heat medium supply system can enter the partition-type air-conditioning module through the supply pipe, and the heat medium can be shared to another partition of the same type from the other end of the supply pipe Air-conditioning module; used to return the partition board to the heat medium ~ a reuse of the same type of exchange; the empty supply pipe in the screen for heat exchange, and the tube; and then used in the wind The partition-type A stands in the floor-type air-conditioning module to complete the medium supply system. The heat-transfer medium of the partition-type air-conditioning module is led back to the hot air duct, and the supplied heat medium and flow will be converted into yuan. Heat exchange for the future Released from the return air nr air outlet. The air-conditioning module I, and one of the heat transfer medium suction and return pipes, one end of the heat transfer heat transfer medium suction and return pipe can also be connected to another group, and the heat transfer medium supply system will be completed after circulation. The heat exchanger is arranged at the pipe connected to the suction return pipe, and the heat transfer medium for the air passing through the heat exchanger is discharged into the suction and a blower, and is arranged to be pushed through the heat exchanger by the holding air, The screen as provided in the scope of the patent application also has a tripod, whereby 461953 VI. Patent application scope 3. The partition-type air-conditioning module as described in item 1 of the patent application scope, wherein the heat transfer medium supply system is a refrigerant including a refrigerant compressor, a condenser, and an expansion device. The supply system, wherein the heat exchanger is connected to the supply pipe through the expansion device, and serves as an evaporator of the refrigerant supply system to reduce the temperature of the air flowing through the heat exchanger. 4 'The partition-type air conditioning module according to item 1 of the scope of patent application, wherein the heat transfer medium supply system is an ice water supply system. 5. The partition-type air-conditioning module according to item 3 or 4 of the scope of the patent application, which further includes a water collecting pan and a condensate drain pipe. The water collecting pan is arranged under the heat exchanger and is used for The condensed water condensed on the surface of the heat exchanger is discharged from the condensate drainage pipe to the partition-type air conditioning module. 6. The partition-type air-conditioning module according to item 3 or 4 of the scope of the patent application, wherein the air outlet and the air return are arranged on a vertical surface on the same side of the screen, and the air outlet is up and the air The tuyere is down. 7. The partition-type air-conditioning module according to item 3 or 4 of the scope of patent application, wherein the air outlet and the air return are respectively provided on vertical surfaces on different sides of the screen, and the air outlet is above and the air outlet is above. The return air outlet is down. 8. The partition-type air-conditioning module according to item 1 of the scope of the patent application, wherein the air outlet and the air return are arranged on a flat plate, so that the flat plate becomes 4 kinds of air outlets that can be installed on the upright surface. Panel and return air panel. 9. The partition-type air-conditioning module according to item 1 of the scope of the patent application, further comprising a wind guide blade provided at the air outlet α and the air return opening. 10. The partition-type air-conditioning module according to item 1 of the scope of patent application, which further includes a filter, which is arranged in the air flow channel within the screen ° Page 23 461953 VI. Scope of patent application 11. The partition-type air-conditioning module as described in Item 10 of the scope of patent application, wherein the screen is located near the air outlet of the screen. 1 2. The partition-type air-conditioning module according to item 10 of the scope of patent application, wherein the filter is disposed near the screen near the air outlet. 13. The partition-type air-conditioning module according to item 10 of the application < patent scope, further comprising an ozone air cleaner provided in an air flow path in the screen. 14. The partition-type air-conditioning module according to item 1 of the scope of patent application, further comprising an ozone air cleaner provided in an air flow path in the screen. 15. The partition-type air-conditioning module according to item 1 of the scope of patent application, wherein the screen also has a table top. 16. The partition-type air-conditioning module according to item 1 of the scope of patent application, wherein the heat transfer medium supply system is a refrigerant supply system including a refrigerant compressor, an evaporator, and an expansion device, wherein the heat The exchanger is used as the condenser of the refrigerant supply system to increase the temperature of the air flowing through the heat exchanger. 17. The partition-type air-conditioning module according to item 1 of the scope of patent application, wherein the heat transfer medium supply system is a hot water supply system. 18. The partition-type air-conditioning module according to item 16 or 17 of the scope of patent application, wherein the air outlet and the air return are provided on a vertical surface on the same side of the screen, and the air outlet is downward. The return air outlet is on. 19. The partition-type air conditioning module according to item 16 or 17 of the scope of patent application, wherein the air outlet and the air return are respectively provided on different sides of the screen. Page 24 461953 VI. Scope of patent application Upright surface, and 20, if applied for, it also includes the air outlet is down and the air return is up. The partition-type air-conditioning module according to Item 3 or 16 of the scope of interest includes: a temperature sensing element for detecting the return air temperature of the return air outlet; and a controller that performs a primary inspection based on the temperature sensing The known return air temperature controls the air outlet temperature of the air outlet. 2 1. The partition-type air-conditioning module according to item 20 of the scope of patent application, wherein the controller controls the air outlet temperature of the air outlet by controlling the air supply volume of the air blower. 2 2. The partition-type air-conditioning module according to Item 20 of the scope of patent application, wherein the controller controls the air temperature of the air outlet by controlling the refrigerant flow of the heat exchanger. 2 3. The partition-type air-conditioning module according to item 22 of the scope of patent application, wherein the controller adjusts the refrigerant flow rate of the heat exchanger by controlling an expansion device connected to the inlet of the heat exchanger. . 2 4. The partition-type air-conditioning module according to item 22 of the scope of patent application, wherein the controller is controlled by a temperature-sensing expansion valve connected to the inlet end of the heat exchanger, and is taken from the heat. The temperature at the outlet end of the exchanger controls the temperature-sensitive expansion valve, and adjusts the flow rate of the refrigerant entering the heat exchanger. 25. The partition-type air-conditioning module according to item 22 of the scope of the patent application, wherein the controller adjusts the refrigerant flow into the heat exchanger by controlling the operating speed of the refrigerant compressor of the refrigerant supply system. . Page 25 461953 \, patent application scope 2 6. The partition type air conditioner module as described in item 4 or 17 of the patent application scope, which further includes: a temperature sensing element for detecting the air return port A return air temperature; and a controller < controls the air outlet temperature of the air outlet according to the return air temperature detected by the temperature sensing unit. The partition-type air-conditioning module according to item 26 of the scope of patent application, wherein the controller controls the air temperature of the air outlet by controlling the amount of air delivered by the air blower. 28. The partition-type air-conditioning module according to item 26 of the scope of patent application, wherein the controller controls the air temperature of the air outlet by controlling the flow of the heat transfer medium of the heat exchanger. 29. The partition-type air-conditioning module according to item 28 of the scope of patent application, wherein the controller is adjusted to enter the heat exchange by controlling a two-way flow control valve connected to the inlet end of the heat exchanger. The flow rate of the heat transfer medium of the device ° 3 〇 The partition-type air-conditioning module as described in item 28 of the patent application scope, wherein the controller controls the three-way flow rate connected to the inlet end of the heat exchanger Control the valve to adjust the flow of the heat transfer medium into the heat exchanger. 3 1. The partition-type air-conditioning module according to item 1 of the scope of patent application, further comprising: 'an outdoor air supply pipe arranged inside the frame; an external air delivery pipe arranged in a building, One end is connected to the external air supply Page 461 953 Page 27