TWM259139U - High-efficiency cooling device for a modulizable cooling device - Google Patents

Description

M259139 IV. Creation Instructions (1) [Technical Field to which the New Type belongs] This creation relates to a high-efficiency cooling device with a modular cooling mechanism, especially for use in related cooling mechanisms such as indoor blowers or air-conditioning boxes. A high-efficiency cooling device developed by a modular cooling mechanism that can use special water-cooling and air-cooling methods for higher-efficiency heat exchange cooling to reduce energy consumption. [Prior art] Please refer to the first figure, which is a Taiwan patent No. tw45 0 348). The freezer or refrigerator has a cooling function, a heat exchange unit 91, an air cooling and a water circulation unit 9 4, among which the heat fins 9 1 1 and continuous winding + a pipe 9 1 2, the refrigerant 3 and an evaporator not shown in the figure, and the structure 1 2 is filled with a heat transfer medium refrigerant and driven by a compressor 9 1 3 to release heat and cool down. And the cooling device condensed into liquid cold is related to the creation of the creative device (such as the cooling device can be applied to air conditioners, cold = mechanisms. The cooling device 9 includes the early 9, a water cooling unit 9 3, and the heat exchange unit 9 1 series. The plurality of cooling fins 9 1 1 are connected to the compressor 9 1 and the refrigerant circulation system by a plurality of scattered f. The refrigerant tube 9 = the evaporator 1 and the heat-generating gaseous refrigerant enter the heat exchange unit. After 91, the air-cooling unit 9 2 has a cooling fan 9? Ί Wind pressure to cause side-to-side air flow to be located on the ring 1, can use the downward cooling fins 9 1 1 and the refrigerant tube 9 1 2 into three ^ Hot heat exchange unit 9 1 The water cooling unit 9 3 is installed in the cooling operation of the towering tower. The power unit 9 3 1 is driven to the Isahayamoto 9 1 package, 2 and the sprinkler pan 9 3 2 cooling water =: centrifugal sprinkler pan 9 3 1 and water pipe 9 3 3

M259139 IV. Creation instructions (2) The cooling water on the water pan 9 3 2 can be rotated by the sprinkler pan 9 3 2 and sprayed on the heat exchange unit 9 1 and flow along the stepped cooling fins 9 1 1 Cooling operation. The water circulation unit 9 4 can be used to collect the cooling wastewater after cooling the heat exchange unit 91 and circulate the water to the water supply pipe 9 3 3. However, although the above-mentioned cooling device related to this creation can achieve a high-efficiency and low-energy-consumption cooling effect, because of its fixed specifications, if it wants to provide a variety of different specifications, it is necessary to manufacture various machines of different tonnages. Type, causing inconvenience in production and higher production costs. In addition, traditional large central air conditioners require a large amount of maintenance costs to be repaired, and the entire equipment needs to be shut down, which will cause great inconvenience in use. The reason is that the author feels that the above-mentioned shortcomings can be improved. He has devoted himself to research and cooperated with the application of theories to finally propose a rational design and effectively improve the above-mentioned original creations. [New content] The main purpose of this creation is to provide a high-efficiency cooling device with a modular cooling mechanism, which can solve the problem that traditional large central air conditioners cannot be modularized, and can be combined differently according to actual needs. The number of units is easy to combine into various tonnages, has the effect of frequency conversion principle, and can make the installation place less restricted, the units can be installed in different locations, the combination is simple and easy, and the production cost is low. Another purpose of this creation is to provide a highly efficient cooling device with a modular cooling mechanism, which can be maintained as a single machine during maintenance, and other single machines can still operate normally, save a lot of maintenance costs, and will not Cause

M259139 Fourth, the creation instructions (3) are inconvenient to use. Another high-efficiency cooling mechanism of this creation is that it can provide-a kind of modular cooling, which can obtain better cooling ^ It is a dual cooling normal operation with water cooling and air cooling, and each-2 And when the water is stopped, the air-cooling method can be used to set the temperature lower than the temperature of the temple. When the temperature of the ice water is higher than that of the central air conditioner, it is equal to the operating volume of the group. And there will not be a large current caused by frequent starting, both for I to achieve the above purpose, this creation is to provide a modular cooling mechanism, effective, cold, including:-more than one heat exchange = Wu, more than one f1 cold order & are installed on the side of the heat exchange unit;-more than taxi units' are installed on the side of the heat exchange unit; more than one ice water unit; More than one pair of copper pipes are connected between the heat exchanging unit and the ice water heater unit; and more than one ice water Lipu are connected to the ice water heater unit by pipes. In order to further understand the characteristics and technical content of this creation, please refer to the following detailed description and drawings about this creation, but the drawings are for reference and explanation only, and are not intended to limit this creation. [Embodiment] Please refer to the second and third figures. This creation is a cooling device with the same efficiency provided by a modular cooling mechanism, especially a modular design, which can be combined elastically according to actual needs. The device includes more than one heat exchange unit 1, more than one air cooling unit 2, and more than one water cooling

Page 7 M259139 IV. Creation instructions (4) Unit 3, more than one ice water unit 4, more than one ice water pump 5, and more than one pair of copper pipes 6, in this embodiment it is disclosed that there are two units Design (such as the second picture), of course, it can also be the design of the three units (such as the fourth picture), the design of the four units (such as the fifth picture) Cool its water, and the group CX1 machine unit is cold and cold, and the group 1-I is the total unit, and the unit is replaced with 7 shell heat engine -1. The water level of the flat group is nearly 2 and 1 T for each setting. -ΗΛ-Λ-Guan 1 The heat of the cold fins of the media is dissipated 1 1 The heat of the multiple fins 9 is dissipated and the density is kept tight. The 1 in 7 holes, the heat 3 scattered 1-* of the chamber should be filled with air in the 1 phase of the element to form a single shape to change the surrounding frame heat, and to build a structure-like complex frame with a ring set up straight 7 copper With CM while 1? Pipe 4 medium 1 cooler. Condensed pressure system to loop continuous media system cold 2-τ-I into the pipe structure medium 4 cold unit single 1 unit water single ice exchange and exchange 6 heat pipe medium after cooling can be made ^ __ Cheng Yuan shape Single heat exchange sucks 4 thermal elements. The single inlet device enters the water and the ice ring passes. The medium drives cold 4 mass 1 media. The heat shrinkage and pressure transmission of the media are filled and filled. The former medium filled the liquid system in the cold setting state into 2 knots, and the cold temperature and air dropped the heat release into 1. The tablets were formed by the fin pressure and hot air. Change of industry 1 Interaction 2 Heat temperature Fall of the fan Wind cycle of the cold ring Disperse the air One bit There are pairs included 2 and 1 ± 1, the air on the side of the air blowing medium QO to the IX 1 ±

The water capacity of the room is empty. One of the moving element driving orders is replaced. One is delivered. The three are hot-loaded. The front force is installed in the moving equipment. The wind is hot and the water is scattered, but the front is cold and should be available for 2 and 3 pans, water 2 Μ 3 the pan 'water 3 sprinkles 3 type core water off the supply level.

Page 8 IV. Creative Instructions (5) Fourth, Creative Instructions (5) The same power unit 3 1 is preferably set in the same coaxial direction, it can also be driven by multiple or one power unit, but The number of sprinkler plates 3 2 can be set up not only for scholars: when the cooling water from the round of 7 officials 3 3 falls on the sprinkler plate 3 2, the 胄 is chopped by its Lishui plate 3 2 and is strongly thrown to the peripheral side to generate inertia ^ μ and under the strong wind of the cooling fan 21, it can be evenly sprayed on the cooling fins " and the refrigerant tube " surrounding the periphery, and the thermal error plate 1 1 guides the downstream to make the cooling water sufficient The ground and the heat radiating fins 11 are kept completely and closely in continuous contact with each other, so that the cooling water uniformly and quickly draws away the heat of condensation of the refrigerant, prompting it to cool down quickly, and then enter into the cooling operation. ν The heat exchange unit 1 is provided with a water circulation unit 8 at the bottom. The water circulation unit 8 includes a water tank 8 1 for collecting cooling water. The water tank 8 1 is provided with a pump 8 2. The pump 8 2 is connected with The other end of the water supply pipe 3 3 is connected, and the cooling water in the water tank 81 can be guided back to the water supply pipe 3 3. In addition, a drain pipe 8 4 having a drain solenoid valve 83 is connected to the bottom of the water tank 81, and the cooling wastewater in the water tank 81 can be discharged when the drain solenoid valve 8 3 is opened. Furthermore, the water tank 8 1 is further connected with a water inlet officer 8 6 having a float switch 8 5. The water inlet pipe 8 6 can be automatically opened or closed by the float switch 8 5 to automatically control the water supply. The chiller unit 4 is a two heat exchanger, and its specifications can be appropriately changed according to the number of combined units. The chiller unit 4 is a copper tube (Coper tube) β and the Hot refrigerant, early refrigerant tube 1 M259139 IV. Creative instructions (6) 2 Connection '俾 can send low-temperature refrigerant condensed into a liquid state through the heat exchange unit 1 to release heat and cool to the ice water unit 4 and can be used. It is used to cool high-temperature water delivered by the ice-water pump 5. After the heat exchange, the low-temperature refrigerant in the liquid state in the copper tube 6 absorbs heat to form a gaseous refrigerant through the ice water unit 4, and is driven into the heat exchange unit 1 through the compressor 14 to be circulated into the heat exchange unit 1 to be condensed to form a liquid refrigerant In this way, a refrigerant circulation system is formed. In addition, a temperature sensing rod 4 1 is provided on the ice water heater unit 4 to sense the temperature of the ice water heater unit 4. The ice water pump (C hi 1 1 er P um p) 5 is connected to the ice water unit 4 through a pipeline 51 to facilitate the pumping of high-temperature circulating water from an indoor blower or air-conditioning box to the ice water unit 4. After the ice water cooler unit 4 performs heat exchange, the circulating water cooled by the ice water cooler unit 4 is then sent to the indoor blower or air-conditioning box for cooling and cooling functions; the above composition is used to form a model for this creation High-efficiency cooling device of the combined cooling mechanism. Each of the above units can be individually set with ice water temperature switch (not shown) to set the temperature separately. For example, when the ice water temperature reaches 13, one unit stops the operation of the earth; when the ice water temperature reaches 11 ° C, two When the ice-water temperature reaches 9 t, the three units stop running; when the ice-water temperature reaches 7 ° C, the four units stop running, but the ice water unit 4 still operates normally. The creative system is a modular design of the cooling device, which can solve the problem that the traditional central air conditioner cannot be modularized. It can flexibly combine different numbers of units according to actual needs to facilitate the combination into various tonnages (such as 5, (Just to 20 ridicule), and has the effect of frequency conversion principle, and can make the installation site

Page 10 M259139 Fourth, the creation instructions (7) Less restricted, the unit can be installed in different locations, the combination is simple and easy, and the production cost is low. In addition, this design uses a modular design of the cooling device, which can be maintained as a single machine during maintenance, and other single machines can still operate normally, which saves a lot of maintenance costs and does not cause inconvenience in use. In addition, this creative system uses dual cooling with water cooling and air cooling to obtain better cooling effect, and it can operate normally by air cooling alone when water is stopped. In addition, each unit of this creation can be individually set the temperature. When the ice water temperature is lower than the set temperature, the unit will stop running. Therefore, the amount of ice water unit operation can be automatically adjusted according to the use of the indoor blower or air conditioner, not only the temperature The control is more accurate than the central air conditioner, and the control range is more than that of the frequency conversion ice water machine, and there is no large current caused by frequent starting, which is both power saving and safe. In summary, this creation is a rare new creation product, which is extremely industrially usable, novel, and progressive, and fully meets the requirements for new patent applications. The application is based on the patent law. Grant the patent in this case to protect the rights of creators. However, the above is only a preferred and feasible embodiment of this creation, and therefore does not limit the scope of the patent for this creation. Therefore, any equivalent structural changes made by using this creation manual and the contents of the drawings are included in this book for the same reason. Within the scope of the creation, Chen Ming was co-authored.

Page 11 M259139 Simple illustration of the drawings [Simplified illustration of the drawings] The first picture is related to this creation The second picture is the creation cooling device The third picture is the creation cooling device The fourth picture is the fifth illustration of the creation cooling device Department of the cooling device [Representative Symbols] [Knowledge] 9 Cooling device 9 1 Heat exchange unit 9 1 2 Refrigerant tube 9 2 Air cooling unit 9 3 Water cooling unit 9 3 2 Sprinkler tray 9 4 Water circulation unit [This creation] 1 Heat exchange unit 11 Radiating fin 13 Hollow container 2 Air cooling unit 2 1 Radiating fan 3 Water cooling unit cooling device plan view. A schematic perspective view of the first embodiment. A schematic plan view of a single body. A schematic perspective view of the second embodiment. A perspective view of the third embodiment. 9 1 1 Radiating fin 9 1 3 Compressor 9 2 1 Radiating fan 9 3 1 Power unit 9 3 3 Water supply pipe 12 Refrigerant pipe 14 Compressor

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Claims (1)

M259139 V. Application scope 1. A high-efficiency cooling device with a modular cooling mechanism, including: more than one heat exchange unit; more than one air cooling unit, installed on the side of the heat exchange unit; The above water-cooling unit is installed on the side of the heat exchange unit; one or more ice water heater units; one or more copper pipes connected between the heat exchange unit and the ice water heater unit; and one The above ice water pump is connected to the ice water unit by a pipeline. 02. The high-efficiency cooling device of the modularized cooling mechanism as described in the first item of the scope of patent application, wherein each heat exchange The unit, the air-cooled unit and the water-cooled unit are respectively arranged in a casing to form a cooling unit, and each unit is separately provided with an ice water temperature switch. 3. The high-efficiency cooling device of the modular cooling mechanism as described in item 1 of the scope of the patent application, wherein the heat exchange unit is composed of a plurality of cooling fins and is continuously coiled in the cooling fins. The refrigerant pipe of the heat exchange unit is connected to a compressor, and the refrigerant pipe is filled with a heat transfer medium refrigerant. 4. The high-efficiency cooling device of the modular cooling mechanism described in item 1 of the scope of the patent application, wherein the air-cooling unit includes a cooling fan and a power device for driving the cooling fan. 5. The high-efficiency cooling device of the modular cooling mechanism as described in item 1 of the scope of patent application, wherein the water cooling unit includes at least one sprinkler M259139 V. Patent application scope Pan, a power unit for driving the sprinkler pan, and a water supply pipe for supplying cooling water to the sprinkler pan. 6. The high-efficiency cooling device of the modular cooling mechanism described in item 5 of the scope of the patent application, wherein the bottom of the heat exchange unit is provided with a water circulation unit, the water circulation unit includes a water tank for collecting cooling water, and the water tank is provided There is a pump for pumping, which is connected to the other end of the water supply pipe. 7. The high-efficiency cooling device of the modular cooling mechanism as described in item 6 of the scope of the patent application, wherein the water tank is connected to a drain pipe with a drain solenoid valve and a water inlet pipe with a float switch. 8. The high-efficiency cooling device of the modular cooling mechanism as described in item 1 of the scope of the patent application, wherein the ice water unit is provided with a temperature sensing rod. Page 15