TWM406163U - Refrigerating/cold storage/air conditioning composite system - Google Patents

Description

M406163 V. New description: [New technical field] This creation is about a refrigerating and refrigerating air conditioning composite system, especially when using cold storage equipment to store excess cold energy in the ice storage tank at low speed and supply it to the air conditioning system. . [Prior technology] Due to the economic development and progress, the popularity of air-conditioning equipment has been quite high. 'In the period of peak power consumption, the domain of air-conditioning equipment often causes the power load to exceed the load, how to reduce energy consumption and waste, It is an important consideration in the setting of air conditioning systems. In view of this, it is still necessary to continue to operate during the practice of the cold storage equipment in the various shopping malls. However, when it is at low speed (four), the surplus of cold energy is still easily wasted. The energy is stored in an appropriate manner, and the air conditioning system is utilized to 'effectively save energy and waste while increasing the cold; the service life of the east refrigeration equipment and the air conditioning equipment. At present, the work of the above-mentioned storage cold energy is mostly carried out by the design of the sink or the wrong ice trough. For example, the new patent of the Republic of China 23 is a storage system for the full Kangkang ice storage system, _night_electric__ The operation of the cold secret reduction machine will be water, and. It is stored in ice, and when cold air is needed in the daytime, the stored ice is melted for heat exchange for use in air-conditioning. The way to make ice is to reduce the shoulder water / dish to _4. (:, through the coil through the ice storage tank, absorb the heat of the water outside the coil to make it freeze, after continuous circulation, the ice storage tank (10) water is all frozen. When the empty 3 M406163 is used for the period of time' Send the brine inside the fresh water to the ice water of the sensitive rectification paste for heat exchange 'provide ^_ ice water, which is provided by the air supply mine to cool down and then blown to the room to provide (4) 'warming money and then read the ice trough record, Let the ice in the trough be pulled. However, if the water is used as a financial reading, it must be cooled by a compressor, the program of Judah is increased, and the pipeline of the water ship is lowered, which is corrosive and reduces its durability. In addition, as for the Republic of China to create patent 354824, the creation is a system that can control the air conditioning machine to match the ice storage effect of the ice storage, including the ice storage tank and the evaporator of the air conditioning system, and set the sensing Measure the outlet temperature of the ice storage tank outlet and the flow of the refrigerant, and store the ice by the evaporation of the refrigerant. __时·赖_冰丝 extends the time of the cold air supply during the peak period and extends Compressor cycle Reduce the number of opening and stopping, and at the same time achieve energy saving and increase the service life of Wei machine. This Wei directly uses the refrigerant that is diverted as the cold storage medium, although it can directly store the excess cold energy of the air conditioning equipment, 4 /, " Set to be set up for the air conditioning equipment, it can store and save more energy. The function of the large-scale cold storage system is limited. In view of the above shortcomings, in order to improve the efficiency of energy storage and equipment settings Feasibility, the creator has done his best to research and develop the design. With years of experience in the industry, he has developed a refrigerated air-conditioning composite system, which includes a combination of cold-cooled air conditioning and air conditioning. As a composite system for energy storage, it is used as a way to improve the above-mentioned shortcomings. 4 M406163 [New content] The purpose of this creation is to provide a device for cold and air-conditioning composite systems. The realization technology of this creation is as follows: - kind of cold; east refrigerating air conditioning composite button, the system includes at least: - cold; The equipment is used to check the refrigerant and the refrigerant output after the contraction; the expansion valve is continuously reduced from the cold in the refrigeration; the east refrigeration equipment reads the refrigerant; • a reservoir is connected to the expansion valve, And the control side is connected to the accumulator for controlling the outflow of the refrigerant in the accumulator; and the ice storage tank includes at least one input hole And an output hole for the official line to enter and exit the ice storage tank; a space, the space is located inside the ice storage tank for storing a cold storage medium; an evaporation coil, the evaporation coil is disposed In the space, the control valve is connected to the control valve through the input hole of the ice storage tank, and is connected to the cold/east refrigeration device via the output of the ice storage tank; and an air conditioning device, respectively, and the ice storage tank The input hole and the output hole are coupled to the ice storage tank. The above-mentioned refrigerating and refrigerating air conditioning composite system, wherein the refrigerating and refrigerating apparatus comprises a freezing main unit and a compressor. The above-described refrigerated and refrigerated air conditioning composite system, wherein the cold storage medium is selected from the group consisting of ice, water 'saline, and mixtures thereof. In the above refrigerating and refrigerating air conditioning composite system, the ice storage tank further comprises a stirring device, and the stirring device is a blade type stirring device, a pump spray type device, a propeller type stirring device or a propeller type stirring device. 5 M406163 The above-mentioned cold; East refrigerating S-combination button, the output hole and the input hole of the ice-contacting trough further includes a temperature sensor for measuring the temperature of the cold storage medium. The above-mentioned cold; East refrigerated (four) composite edge 'the towel of the empty woven blower. In the above-mentioned cold-cooled air-conditioning composite system, the control valve is controlled to open and close according to the output temperature of the cold storage medium of the cold storage medium of the ice storage tank. The above-mentioned cold; east refrigerating and air-conditioning composite system, the inlet temperature of the cold storage medium of the towel is 12 ° C ~ 14. (:. On the cold/east refrigerating air-conditioning composite system, the output temperature of the cold storage medium is in the range of 7 ° C to 9 ° C. In order to make the purpose, characteristics and efficacy of the refrigerating and air-conditioning composite system of the present creation The present invention will be described in detail below with reference to the following specific embodiments and the accompanying drawings. [Embodiment] Figure 1 is a preferred embodiment of the present invention. Schematic diagram of the cold bead refrigerating air conditioning composite system device, wherein the cold; the east refrigerating air conditioning composite system device comprises a cold beam refrigeration device; the east refrigeration device i comprises a cold beam host (not shown) and a pressure (not shown) _), 1 «Lai surface refrigerant _ cold cylinder machine Lai, when the cold card host is running at low load from the peak period, the refrigerant compressed by the compressor, through the pipeline output to - swell 2, the inflation 2 Receiving an output refrigerant from the cold wire storage device and passing the output refrigerant to an accumulator 3 via a line connection. The end of the accumulator 3 is coupled to the expansion valve 2 for receiving and Store the refrigerant from the 6 知服阀2' the other end The control valve 4 is used to control the flow of the refrigerant stored in the accumulator 3 by the S-line and the imaginary illusion. The control valve 4 is used to control the flow of the refrigerant stored in the accumulator 3. The above-mentioned real-time 'the cold; the east refrigerating air-conditioning composite system also includes An ice storage tank 5, the ice storage tanks 5 to J include an input hole and an output hole for allowing the pipeline to enter and exit the ice storage tank 5, and the ice storage tank 5 further includes a space 5丨 for storing one Cooling; enamel and the cold storage; the quality is a combination of ice and ice water coexistence, and the ice storage tank 5 further comprises an evaporation coil 6, which is placed in the (four) 51 And the evaporation record 6 is controlled by the input money control valve 4 of the ice tank 5, and then the output of the ice storage tank 5 is _cold; the east refrigeration equipment 丨, when the refrigerant flowing out of the liquid storage unit 3 flows in The evaporation in the ice storage tank 5 is fresh, the refrigerant in the evaporation coil 6 and the ice water (4) in the ice storage tank 5 are exchanged to cool the ice water, and the ice water in the ice storage tank 5 is made. Partially frozen 'Finance and ice water (4) coexist in the space 51 'into (four) cold lining in the ice water in the age tank 5, and the refrigerant flowing through the evaporation plate 6 and then through the storage The output hole of the tank 5 flows back to the refrigerating and freezing equipment 1. In the above, the refrigerating and refrigerating air-conditioning composite system further includes an air conditioning device 7, which is respectively connected to the input hole and the output hole of the ice storage tank 5. The ice water in the ice storage tank 5 is cooled by absorbing the cold energy of the refrigerant, and the ice water is output to the air conditioner 7 through the output hole of the ice storage tank 5, and is blown by a blower (not shown). The ice water generates cold air and is provided for use by the air conditioning device 7, and the ice water can be reused through the input hole of the ice storage tank 5 to be reused in the ice storage tank 5. Fig. 2 is another comparison according to the present creation. A schematic diagram of a refrigerating and air-conditioning composite system device of a specific embodiment, wherein the refrigerating and refrigerating air-conditioning composite system device comprises a M406163 cold-cold refrigeration device 1 'the cold; the east refrigerating device 1 comprises a cold; the east mainframe (not shown) and a compressor (not shown), the compressor compressing refrigerant is provided for use by the refrigerating main machine, and when the refrigerating main engine is operated at a low load during a peak period, the refrigerant compressed by the compressor is outputted to an expansion valve 2' by a pipeline. The expansion valve 2 is used Receiving the output refrigerant from the refrigerating and freezing equipment 1 and expanding the output refrigerant, and then connecting to the accumulator 3 via a pipeline connection, the accumulator 3 end is connected to the expansion valve 2 for receiving and storing The refrigerant from the expansion valve 2 is connected to a control valve 4 by a pipeline. The control valve 4 can receive a temperature sensing signal to open the valve to cause the refrigerant stored in the accumulator 3 to flow out. In the above embodiment, the refrigerating and air-conditioning composite system further includes an ice storage tank 5, the ice storage tank 5 includes at least one input hole and an output hole for allowing the pipeline to enter and exit the ice storage tank 5, and the ice storage tank The interior of the tank 5 further includes a space 51 for storing a cold storage medium, and the cold storage medium is a combination of ice and ice water. The ice storage tank 5 further includes an evaporation coil 6 and the evaporation coil ό The spiral coil is placed in the space 51, and the evaporation coil 6 is connected to the control valve 4 via an input hole of the ice storage tank 5, and is connected to the refrigeration through the output hole of the ice storage tank 5. The device, when the refrigerant flowing out of the accumulator 3 flows into the evaporating coil 6 in the ice storage tank 5, the refrigerant in the evaporating coil 6 and the ice water in the ice trough 5 are subjected to temperature exchange treatment to make ice. The water is cooled, and the ice-like ice water is partially frozen, and the ice and the ice water collide in the space 51, and the cold energy is stored in the ice water in the ice storage tank 5, and flows through The refrigerant of the watch disc s 6 is returned to the cold refrigerating device 1 via the output hole of the ice chute 5, and is empty in the ice storage tank 5 51 +, also contains a mixing skirt, the 8 M406163 mixing device. Pump spray device 8, the mouth out of the ice water to pay for the ice water circulation in the ice storage tank, thereby controlling the ice water temperature in Celsius 4 ~7t: between. Continued from the above 'The Cold County Hidden Secret also contains - air-conditioning equipment 7, the air-conditioning equipment 7 respectively with the input of the 5 and the ice water in the ice storage tank 5' by absorption The cold energy is cooled, and the ice water is output to the air conditioner 7 through the output hole of the ice storage tank 5, and the ice water is blown by a blower (not shown) to generate cold air, and the air conditioner 7 is provided for use. The ice water can be re-used through the input hole of the ice storage tank 5 to the ice storage tank 5 for repeated use. In this embodiment, a temperature sensor 9 and a temperature sensor 10 are disposed in the output hole and the input hole of the ice storage tank 5, and the temperature sensor 9 is used to measure the ice water of the ice storage tank 5. Output temperature, the temperature sensor 10 is used to measure the ice water input temperature of the ice storage tank 5, thereby controlling the temperature of the ice water output in the ice storage tank 5 between 7 ° C and 9 ° C, and The temperature of the ice water input of the ice storage tank 5 is controlled between 12 ° C and 14 ° C, and the temperature of the ice water output is lower than 7. (:, the temperature sensor 9 sends a message to the control valve 4, closing the control valve 4, reducing the refrigerant flow rate of the evaporation coil 6 in the ice storage tank 5; when the temperature of the ice water output is high At 9 ° C, the temperature sensor 9 sends a message to the control valve 4 to increase the flow rate of the refrigerant coil 6 in the ice storage tank 5, and also reduces or closes the ice water of the ice storage tank 5. The output amount is such that the ice water in the ice storage tank 5 is cooled; when the temperature sensor 10 senses that the temperature of the ice water input is lower than 12 ° C, a message is sent to the control valve 4, and the control valve 4 is closed. , reducing the flow rate of the refrigerant coil in the ice storage tank 5, and reducing the ice water return flow of the ice storage tank 5, so that the ice water is heated for a long time in the air conditioner 7; When the temperature of the input to the ice water is higher than 咐, the signal will be transmitted to the squad 4, and the duty in the ice storage tank 5 will be increased (4). The water is corrected to 4, so that the rock sugar in the 5 is warmed. And a pump u is disposed between the temperature sensing wire 9 at the exit end of the ice trough 5 and the air conditioner 7, and the pump 11 will The ice water outputted from the ice storage tank 5 is sent to the air clarification system 7 for use, and the other 4 temperature sensors 9 are connected to the (four) 12 by a pipeline, and the pump 12 will be detached from the ice storage tank 5 The apparatus 8 is connected, so that the cistern 12 can send the ice water outputted from the ice storage tank 5 to the spray type stirring device 8, and the ice water can be ejected to force the ice water in the ice storage tank 5 to circulate. In addition to the energy storage and cost saving effects, the refrigeration and air conditioning composite system can measure the output and input temperature of the ice storage tank 5 by the temperature sensor 9 and 1〇_Control 4 The opening and closing 'determines the flow of the refrigerant in the secret fresh 6 and the forced convection through the Guopu spray mixing device 8 can effectively control the temperature of the ice water in the ice storage tank 5 and improve the cold storage efficiency. Having described the preferred embodiments of the present invention, it will be apparent to those skilled in the art that various changes and modifications can be made without departing from the scope and spirit of the inventions described below. The implementation method. M406163 [Simple description of the diagram] Figure 1 Schematic diagram of an embodiment of a refrigerating and refrigerating air-conditioning composite system. Fig. 2 is a schematic diagram of another embodiment of the refrigerating and refrigerating air-conditioning composite system of the present invention. [Main component symbol description] 1 · · • Refrigeration and refrigeration equipment 2 · · • Expansion valve 3 · · • Reservoir 4 · · • Control valve 5 · · • Ice storage tank 51 · · • Space 6 · · • Evaporation coil 7 · · • Air conditioning equipment 8···Pump spray device 9, 10 · · Temperature sensor 11, 12 ... pump

Claims (1)

M406163 Sixth, the scope of application for patents·· 1. A cold storage air conditioning composite system, the New Zealand at least: a cold beam refrigeration equipment 'rib compression refrigerant' and the after-test refrigerant is rotated; the expansion valve 'connected to the cold; The East Refrigeration Equipment is used to receive the output refrigerant from the cold; the East Refrigeration Equipment; a reservoir, the connection _ _ _, the rib receives and stores the refrigerant from the swell; - the control valve, the connection to the connection, The outflow of the refrigerant in the device; an ice storage tank, the ice storage tank includes at least an input hole and an output hole for allowing the pipeline to enter and exit the ice storage tank; a space, the space is located inside the ice storage tank for storing a cooling medium; an evaporation coil, the evaporation coil is placed in the space, is connected to the control valve through an input hole of the ice storage tank, and is connected to the refrigeration and refrigeration device via an output hole of the ice storage tank And an air conditioning device connected to the ice storage tank via a pipeline through an input hole and an output hole of the ice storage tank. 2. The refrigerated and air-conditioned composite system according to claim 1, wherein the refrigerating and refrigerating apparatus comprises a freezing main unit and a compressor. 3. The refrigerated and air-conditioned composite system according to claim 1, wherein the refrigerating medium is selected from the group consisting of ice, water, brine, and mixtures thereof. 4. The refrigerating and air-conditioning composite system according to claim 1, wherein the core 12 M406163 ice storage tank further comprises a stirring device. 5. The refrigerating and air-conditioning composite system according to claim 4, wherein the agitating device is a blade type win device, a series of nozzle type device, a screw money type stirring device or a propeller type stirring device. 6. If you apply for a patent scope! The cold refrigeration air conditioning composite system, wherein the output aperture and the input aperture of the ice storage tank further comprise a temperature sensor. 7. The refrigerated and refrigerated air-conditioning composite system according to the above aspect of the invention, wherein the air-conditioning device is a blower. 8. The refrigerating and refrigerating composite system according to claim 1, wherein the control valve is controlled to open and close according to an input temperature of the cold storage medium of the ice storage tank and an output temperature of the cold storage medium. 9. The refrigerated and refrigerated composite system according to claim 8, wherein the input temperature of the cold storage medium has an interval of 12. 〇~14°C. 10. The refrigerated and refrigerated composite system according to claim 8, wherein the output temperature of the cold storage medium is in the range of 7 to 9 °C. 13