TWM359666U - Hot water cooking mechanism for supplying water with low power and large quantity - Google Patents

Description

M359666 V. New type of description: [New technical field] or other hot water brewing of beverages. There is a kind of brewing hot water supply mechanism for brewing coffee and tea mouth, especially low power. Cooking mechanism. ^ [Prior Art]

The brewing mechanism is used in brewing systems to provide beverages in response to a variety of brewing systems. The characteristics of coffee, tea, tea, tea, tea, tea, tea, tea, tea, tea, tea, tea, tea, tea, tea, tea, tea, tea, tea, tea, tea, tea, tea, tea The device needs to be continuously heated to supply the required amount of water during the operation. The disadvantage is that the sales peak time increases with the water consumption, and the power of the heating device is limited to affect the refilling ability. Τ Because the boiler is replenished with cold water, the temperature of the hot water is lowered, which will cause the outlet water temperature to be unstable. Therefore, when used in commercial applications, in order to load a large amount of water for peak hours of beverage sales, the heating device needs to have high-power heat output performance. The brewing mechanism used in the prior art brewing mechanism, especially the coffee machine of the (four) commonly known as the mother steel, as shown in the seventh figure, mainly comprises a heating device (120) and a heat exchanger (13〇). , a water inlet unit (14〇), a hot water pipe (150), a brewing unit (16〇) and a water pipe (17〇). The brewing mechanism introduces cold water into the heating device (120) and the heat exchanger (130) disposed in the heating tank of the heating device (12〇) by the water inlet unit (14〇), and a hot water pipe (15 〇) connects the heat exchanger (13 〇) to the rushing M359666 cooking unit (160), and the return pipe (17_ is connected between the rusher unit (1 and the heat exchanger (130)) The brewing unit (16〇) can be activated during brewing to extract the tea, coffee, etc. by using hot water from the heat exchanger (10) and through the hot water pipe (10) to prepare the desired beverage. The prior art rusher mechanism usually needs to (4) preheat the brewing unit (16 〇) from the heat exchanger (13_ heat up to the cold cycle principle), and return the condensed water to the heat exchanger via the county ( 130) Reuse in the prior art. In the brewing mechanism of the prior art, when the brewing mechanism is in the flush state, the brewing mechanism indirectly passes the cold water into the heat exchanger (10) through the heating tank of the heating device (120). The hot water inside is heated, but because the capacity of the heat exchanger (130) is limited and the power of the heating device (12 〇) is usually only able to heat a fixed amount of hot water per unit time to the desired temperature, for example, it can only be twisted per hour. 3 liters of cold water to 95t 1 and the water consumption during the peak time exceeds 95 °C of hot water per small, then the prior art brewing mechanism uses the total water consumption of the helmet method during peak hours, which ultimately leads to the inability to supply immediately (4) If the hot water of the warm production or the problem of unstable water temperature is increased, the electric power of the '(; 2〇) is increased, so there is a problem of cost, energy consumption, and difficulty in obtaining high-power power in the general beverage I shop. In addition, the prior art brewing mechanism is provided with a warm cup tray which can be dissipated by the heat at the top, so that the temperature of the container can be raised in advance to avoid the risk of the beverage being lowered due to the low temperature of the container. The warm cup plate will cause the heat of the brewing mechanism to be lost to the environment, which not only causes waste of energy, but also causes environmental heat pollution. [New content] M359666 This creation is based on the aforementioned shortcomings and problems, and provides a low-power large-scale water supply heat. The water brewing mechanism comprises: a boiler comprising a furnace body formed with a tank for receiving water and a heater disposed in the furnace body; a water inlet unit connected to the boiler and The utility model comprises a pump, a cold water pipe and a water inlet control component, wherein the cold water pipe is connected to the furnace body of the boiler and the chestnut and the pump; and the water inlet control component is arranged on the cold water pipe; a first pressure detector It is arranged on the furnace body to detect the vapor pressure in the tank of the furnace body, and presets a first vapor pressure value (for example, between 2 〇 and 2.2 bar), when the vapor pressure in the tank is greater than When the first vapor pressure is upper limit, the heater is turned off, and when the vapor pressure in the tank is less than the first vapor pressure lower limit, the heater is activated; a second pressure detector is set on the furnace body. The vapor pressure in the tank of the furnace body can be detected, and a second vapor pressure value (for example, between 16 and 1 _8 bar) is preset. The second vapor pressure value is lower than the first vapor pressure value. When the pressure in the tank is greater than or less than the second vapor pressure value, the water inlet control component is maintained in a passage or an open state; a water level probe is disposed in the boiler to detect the water level in the tank of the furnace body to provide a a high or low water level signal; at least one water supply unit, each water supply unit is disposed on the furnace body of the boiler, and includes a hot water supply unit, an outlet pipe assembly, and a temperature adjustment unit, wherein the hot water supply unit has at least a hot water pipe assembly, the hot water pipe assembly has a hot water pipe, a hot water solenoid valve and a hot water throttle element, wherein one end of the hot water pipe is connected to the boiler, and the hot water throttle element and the hot water electric M359666 magnetic valve are both Located on the hot water pipe; The outlet pipe assembly has an outlet pipe, one end of which is connected in series with the hot water supply unit of the hot water supply unit, and the other end forms a water outlet; and the temperature control unit has at least a thermostat tube assembly, each The thermostat tube assembly is connected to the cold water pipe and the hot water supply unit, and has a temperature regulating tube, a cold water solenoid valve and a cold water throttle element, wherein one end of the temperature regulating tube is connected with the cold water pipe, and the temperature regulating tube is further connected One end connected to the outlet pipe and hot water pipe assembly

Between the hot water officials, the cold water solenoid valve and the cold water throttling element are all disposed on the temperature control pipe. Based on the above characteristics, the brewing mechanism of the present invention has the following advantages: (1) The design of the low-power heater, so there is no trouble of large power consumption; (2) Large-output design: mass use of heat during peak hours of beverage sales The total amount of water is designed to use the hot water volume of the boiler, and preheat and store the large amount of hot water required for the beverage sales peak time at the peak time; (3) The boiler feed water throttling design: to ensure that the boiler maintains a certain temperature or Vapor pressure; (4) Multi-selective thermostat design for hot water: It can brew beverages with different temperature requirements; ▲ (6) Design for both shades and shades: It is equipped with warm water that can provide appropriate temperature for: Concentration, ❿ at the same time make the drink can be adjusted to fit (6) Stable temperature design: reduce the water inlet, flow design can match the power of the heater to ensure the stability of the boiler temperature and vapor pressure; (7) vapor pressure output heat Water design: use steam house wheel to take hot water, M359666 to ensure that the boiler output hot water is a preset temperature, can supply large water output and can maintain hot water temperature stability; and (8) flow 3 :Adjustment design: Tea brewing has the best brewing time, adjust the proper hot water flow to get the best brewing time, so that the tea can get the best taste, so as to improve its economic benefits. [Embodiment] Please refer to the first figure, the low-power large-capacity hot water brewing mechanism of the present invention includes a wrong furnace (10), a water inlet unit (5〇), and a first pressure 4 a detector (20 A), a second pressure detector (2 〇b), a water level probe (3 〇), and at least one water supply unit, the mechanism is available for brewing coffee, tea Wait for a hot water brewing system for drinks. The boiler (10) includes a furnace body (11) and a heater (12), wherein the furnace body (11) is formed with a cavity for receiving water; and the heater (12) is fastened to The inside of the furnace body (11) is used to heat the water in the tank. The water inlet unit (50) is connected to the boiler (10) and includes a pump (51), a cold water pipe (52), a water inlet control assembly (53) and a check valve (54), wherein the water inlet unit (50) The cold water pipe (52) is connected to the furnace body (11) and the pump (51) of the boiler (10) for pumping (51) to deliver water to the tank of the furnace body (11) through the heater (12). Heating; the water inlet control assembly (53) is disposed on the cold water pipe (52) near the boiler (10) and is provided with a water inlet solenoid valve (531) and a water inlet throttle element (532), water inlet The solenoid valve (531) and the inlet throttle element (532) are disposed on the cold water pipe (52), wherein the water inlet throttle element (532) is adjusted to be lower than the heating according to the heating power of the heater (12). The maximum amount of water that can be heated per unit time to ensure that the hot water M359666 in the tank of the boiler (1) is maintained at a certain vapor pressure or temperature; and the check valve (54) is The cold water pipe (52) is interposed between the pump (51) and the water inlet control assembly (53). The first pressure detector (20A) is disposed on the furnace body (11) to detect the vapor pressure in the tank, and is preset to have a first vapor pressure value (for example, between 2 〇 and 2_2 bar). The first vapor pressure detector (2〇A) detects that the vapor pressure in the tank of the furnace body (11) is greater than the upper limit of the first vapor pressure value, and the heater (12) is turned off, and vice versa. When a vapor pressure detector (2〇A) detects that the vapor pressure in the tank of the furnace body (11) is less than the lower limit of the first vapor pressure value, the heater (12) is activated. The second vapor pressure detector (20B) is disposed on the furnace body (1彳) to detect the helium pressure in the tank, and presets a second vapor pressure value, wherein the second vapor pressure value is lower than the The first vapor pressure value (for example, between i 6 and 8 bar), when the second pressure detector (20B) detects that the pressure in the cavity of the furnace body (11) is greater than the first vapor pressure value When the upper limit is reached, the water inlet solenoid valve (531) of the water inlet control component (53) is kept in the passage state, and when the second vapor pressure detector (20B) detects the capacity of the furnace body (彳彳) When the internal vapor pressure is lower than the lower limit of the second vapor pressure value, the water inlet solenoid valve (531) of the water inlet control unit (53) is kept in an open state to stop the boiler (1 〇) from entering the water. The water level probe (30) is disposed in the furnace body (11) of the boiler (10), and can detect the water level in the tank of the furnace body (11) and provide a high or low water level signal. The water supply unit is disposed on the furnace body (11) of the boiler (10) and includes a hot water supply unit (60), an outlet pipe assembly, and a temperature adjustment unit (70). The hot water supply unit (6〇) has at least one hot water pipe assembly having a hot water pipe (61), a hot water solenoid valve (62), and a hot water machine (63), wherein the hot water pipe assembly (63) One end of the hot water pipe (61) is connected to the boiler (10); the M359666 hot water throttle element (63) is disposed on the hot water pipe (61); the hot water solenoid valve (62) is disposed on the hot water pipe (61) Between the throttling element (63) and the steel furnace (1〇). The water outlet assembly has an outlet pipe (8 〇), a flow meter (82), and a water discharge element (83), wherein the outlet pipe _ one end is heated by the hot water pipe assembly of the hot water supply unit (60) The water pipes (61) are connected in series, and the other end forms a water outlet (801). The flow meter (82) is disposed on the water outlet pipe (8〇) to calculate and control the flow of water, and the water discharge throttling element (83) is provided. On the outlet pipe (8 〇) to control the water flow rate. The temperature regulating unit (70) has at least one thermostat tube assembly connected to the cold water pipe (52) and the hot water supply unit (6〇), and has a temperature regulating tube (71), a cold water solenoid valve (72) and a cold water throttle element (73), wherein one end of the temperature regulating tube (71) is connected to the cold water pipe (52), and the other end of the temperature regulating pipe (71) is connected to the water outlet pipe (80) Between the hot water pipe (61) of the hot water pipe assembly and the hot water of the hot water pipe (61), the cold water solenoid valve (72) and the cold water throttle element (73) are disposed in the water pipe (8). The temperature regulating pipe (71) is interposed between the cold water pipe (52) and the hot water pipe (61). When the water level in the boiler (10) is lowered to below the water level probe (3〇) due to use, use the creation of the brewing mechanism to accept the low water level signal from the water level probe (3〇). The system will start the water inlet solenoid valve (531) and the pump (51) for the steel furnace to replenish water. 'When the steel furnace water level rises and touches the water level probe', the system will accept the high water level signal from the water level probe (30). When the water inlet solenoid valve (531) is closed, the boiler is replenished. Another-party©, steel furnace (10)) is designed to reduce the inflow of water to maintain the helium pressure of the steel furnace (1〇). When the amount of hot water is greater than the water volume of the boiler (1), the water level of the boiler (ία) will continue. Decrease 'When the boiler (10) water level leaves the water level M359666, use the system of the brewing mechanism of the present invention to start the water inlet solenoid valve 031) and the pump (51) to perform boiler water replenishment, and the boiler (10) makes the vapor pressure due to the water inlet. When the pressure drops to the lower limit of the first vapor pressure, the U force detector (employed) starts the heater (12). At this time, if the hot water and steam are continuously used, the heater (12) power cannot maintain the steam pressure of the pin furnace to make the vapor. The pressure continues to drop. When the boiler vapor pressure drops to the lower pressure limit of the second pressure detector (2〇B), the second pressure detector (2〇B) closes the water inlet of the inlet control unit (53). Electromagnetic wide (531) power supply path, stop the furnace (1G) into the water, so that the heater (12) power is used to maintain the steam pressure of the steel furnace to maintain the boiler hot water supply capacity and maintain the hot water temperature, always off peak time The use of hot water and steam is reduced, and the boiler vapor pressure rises to the first pressure detection. When the upper limit of the pressure of the device (2〇B), the second pressure detector (2〇B) opens the water supply solenoid valve (531) power supply path of the water inlet control unit (53), and restores the pin furnace (10) water supply program. This system can ensure that the hot water takes time heat, /, should be stable / orphan, and the water capacity of the boiler (1 〇) is compensated and heated in the peak time of hot water use. When the peak of the hot water is used, 1, k is used, so that the boiler water level is always higher than the heater (12), ensuring that the heater (12) does not burn. In a preferred embodiment of the present invention, as shown in the first figure, the brewing mechanism of the present invention is further provided with a switch (2) B) to be connected to the second power detector (20B). In a preferred embodiment of the present invention, as shown in the second figure, the rail 7 is supplied with an early element (10) A) and is provided with a plurality of parallel hot water pipe assemblies (the two ends are connected in series with the hot water pipe assembly, At the other end, a water outlet (801) is formed. In a preferred embodiment of the present invention, the low-power large amount of the M359666 water and hot water brewing mechanism of the present invention is in addition to the aforementioned configuration, wherein the temperature regulating unit (70, 70A) The system is located between the cold water pipe (52) and the hot water #employed D„ _ eight supply early 兀 (60, 60A), and is provided with a plurality of parallel thermostat tubes, and the thermostats are connected in parallel. One end of the assembly is connected in series with the cold water pipe (52), and the other end is connected between the outlet pipe (80) and the hot water supply unit (60, 60A) in parallel with the Tongujia 1 tJ Guardian's plurality of hot water pipe assemblies. By means of the hot water supply unit (60, 60A), the hot water of the X hot water tank assembly is merged into the outlet pipe (80) and discharged from the water outlet (8 〇).

In a preferred embodiment of the present invention, as shown in the second figure, the water supply further has a mixing tank (8", wherein the mixing tank (8" is provided in the outlet pipe _, the hot water supply The hot water pipe (four) of the hot water pipe assembly of the unit (10) and the temperature regulating pipe (71) of the temperature regulating unit of the temperature regulating unit (70); the outlet throttling element (83) is provided at the outlet pipe (8) 〇) near the water outlet (8〇); and the flow meter (82) is disposed between the outlet element (83) and the mixing tank (81) on the outlet pipe _. In a preferred embodiment, as shown in the second figure, the pin furnace (=the furnace body (11) is provided with an insulation layer (1)A), thereby reducing heat dissipation into the soil and reducing the energy consumption of the overall system. In another preferred embodiment of the creation, as shown in the third figure, the low-power large-capacity hot water brewing mechanism of the present invention further includes

Institutions, which include - total, & ‘,,, milk, etc. 3), - solenoid valve (14) and - throttling element, the steam guiding mechanism is set between the boiler (1〇) and the outlet pipe (8〇) of the water supply unit, so as to generate the high temperature of the boiler (1 〇) In the steam cup, the upper frequency is used to raise the temperature of the drink or to provide foaming effect, such as the package of milk or the refrigerated drink, wherein the solenoid valve (14) and the section '" can be combined into Throttle solenoid valve. (15) M359666 In still another preferred embodiment of the present creation, as shown in the fourth figure, the low-power large-capacity hot water brewing mechanism of the present invention further includes a brewing unit (1 〇〇) for brewing The single crucible (彳00) is connected to the hot water pipe (61) of the hot water supply unit (60) of the water supply unit and is connected to the conduit (1) of the vapor guiding mechanism, and the s (1 3Α) is connected to the steel. The furnace body (11) between the furnace (1) and the brewing unit (10:) is used to pass the helium gas from the upper space in the tank of the furnace body (1) of (4) (1Q) through the conduit (1 3 A ) Enter the brewing unit (1 〇〇) for heating purposes. The brewing unit can be combined with the hot water unit to brew light drinks. When the coffee or tea drinks are to be served with lighter drinks, the brewing process can be performed first.冲:,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,, Dilute the drink into the cup, and use the re-execution of the brewing brewing program of the institution using this creation to execute the hot water supply program first. In a preferred embodiment, as shown in the fifth figure, the hot water brewing mechanism of the second power supply of the present invention further comprises a heat exchanger: two = (11), a water supply pipe (112), and - brewing The unit U water changer (11〇) is disposed at the steel body end of the boiler (1〇) and connected to the cold water pipe (52) U is connected to the bottom end of the ... parent wm); the top of the water supply #(1) (1) 〇) The connection 〃& is connected to the other end of the hot parent. "',, early ^1GQA) and the water supply pipe (1) 2): Creation of low-power, large-scale water supply, hot water brewing, using the department's station Shi Tian in the hundred and one person Li Li _ cry (2_ (four) can (four) switch _ (218) first change the second over (fine) into a path, so that the water inlet unit can supply cold water 12 M359666 to the furnace (10) furnace body (1) In the tank, and (4) the heater (12) is heated until the vapor pressure reaches the upper limit of the first vapor pressure value of the first pressure detector (2〇A), and then the second switch (21B) is used to start the second Pressure Detector (20B) 'When the ginseng tea or „addition, the required hot water is generated by the pressure of the vapor generated above the tank of the furnace body (11) in the pin furnace (1) The hot water is discharged through the hot water supply unit (6〇6〇A) of the water supply unit, and the cold water can be discharged through the temperature adjustment unit (7〇7〇A) of the water supply unit to adjust the final water outlet pipe (80). The temperature of the water flowing out of the water outlet (801). The throttle element in the various mechanisms and units may be a throttle valve or a throttle joint 'to control the proper water flow, so that the mixing tank (81) is passed through The water temperature is preset temperature and can be metered by the flow meter (82), and the other water throttling element (83) can maintain a certain water pressure in the pipeline of the mechanism, without the flow rate of the hot water. Too much pressure on the system pressure is too fast, and the water output speed can be adjusted to obtain better tea brewing time. The water level probe (30) in the pin furnace (1〇) can be used to control the water level. When the liquid level probe is lower than the water level probe (30), the control module (9〇) starts the pump of the water inlet unit. (51) and the water inlet solenoid valve (531) of the water inlet control assembly (53), and the inlet throttle element (532) is adjusted according to the heating power of the heater (12), such as the heating power of the heater (12) If you want to heat the water from normal temperature to tea or coffee for brewing temperature, you can heat 3 liters of normal temperature water per hour, then the water flow of the inlet throttle element (532) is adjusted to less than 3 liters per hour. Because the amount of water that can be heated by the heater (12) is greater than the water volume of the boiler (1〇), it can ensure that the vapor pressure in the space above the tank of the furnace body (11) is maintained at a set value, and the capacity of the furnace body (11) The water temperature in the tank can also be maintained within the upper and lower limits, in order to obtain the hot water temperature and vapor pressure of the crucible, and the stable and steady "_可维13 M359666 maintains the steady and continuous hot water required for brewing. 'Because the system using the agency of this creation, the amount of water per unit time is quantitative, use this creation When the mechanism brews the beverage, the fixed temperature hot water in the large-capacity boiler (1〇) is sent out by the vapor pressure. When the water level in the tank of the furnace body (11) is lower than the water level probe (30), the system will The water inlet unit is continuously fed into the tank of the furnace body (11), and when the cold water enters the tank or the hot water is output from the steel furnace (10) via the water supply unit, the vapor pressure is reduced to the first vapor pressure value. Underneath, the first pressure detector (20A) activates the heater • (12). For commercial use, the beverage sales peak time hot water or steam is used in large quantities, causing the vapor pressure to continue to decrease to the second pressure detector ( 2〇b) The lower pressure limit 'The second pressure detector (2〇b) will close the water inlet solenoid valve (531) of the water inlet control unit (53). The power supply path suspends the boiler (10) from entering the water to make the heater (12) The power is all used to maintain the boiler steam pressure to maintain the boiler hot water supply capacity and maintain the hot water temperature. 'When the hot water usage is greater than the boiler (1 〇) water intake, the water level in the boiler _ furnace (10) drops to the water level. Below the water level probe (3〇) is very far, so even in the sale of drinks from the peak When the time does not use hot water, the boiler (彳〇) will continue to enter the water and heat until the water level in the boiler (1 〇) rises to contact the water level probe (30) as long as the boiler (彳〇) When the vapor pressure above the cuvette of (I) is lower than the lower limit (ie, the second vapor pressure value), the first pressure detector (2〇A) maintains the starter heater (12) while the second pressure detector ( 20B) Temporarily stop the boiler (10) from entering the water until the vapor pressure exceeds its upper limit (ie, the upper limit of the second vapor pressure value system will resume the control of the water level probe (30) water level control function, and the helium gas pressure exceeds the first vapor pressure At the upper limit of the value, the first pressure detector (2〇A) is heated by the heater (1 2). In summary, the department of the author of the creation is 14 M359666, and the sales of the I character are used. At the peak time, the amount of water in the pin furnace (1 〇) is replenished, and the amount of hot water at the peak of the next beverage sale is accumulated. In a preferred embodiment of the present invention, as shown in the sixth figure, the low-power large-capacity hot water brewing mechanism of the present invention has: a first temperature detector (20C) instead of the first pressure a detector (20A), the first temperature detector (2〇〇) has a detection portion that can be immersed in the liquid in the cavity of the furnace body (11) to detect the temperature thereof, and presets a first temperature value For example, 128 to 132 ° C, when the liquid temperature in the cuvette is greater than the first temperature value, the heater (12) is turned off, and when the liquid temperature in the cuvette is less than the first temperature value, the heater (12) is activated; And a second temperature detector (20D) instead of the second pressure detector (20B) 'having a detection portion that can be immersed in the liquid in the cavity of the furnace body (1彳) to detect the temperature thereof, And preset a second temperature value, for example, '12〇 to 124 C, the second temperature value is lower than the first temperature value, and when the solution temperature in the tank is greater than the second temperature value or less than the second temperature value, The inlet control unit (53) is maintained in a passage or open state. When using the 'boiler (1〇) furnace body )1), the hot water in the tank is heated by the heater (12) 'When the temperature is south at 132 °C', the first temperature detector (2〇c) will be turned off. The heater (12) stops heating. When the boiler temperature is lower than 128^, the first temperature picker (20C) will start the heater heating; #The business peak time uses a lot of hot water and steam, the boiler (1〇) furnace When the temperature of the solution in the body (11) is lowered to 12〇1, the first temperature detector (20C) will maintain the heater (10) startup state, and the second temperature (four) (20D) will close the inlet water control component (53). The water solenoid valve (531) stops the water in the steel furnace, so that the total power of the heater (12) is used to maintain the water temperature in the tank of the furnace body (11). During the peak time of operation, the temperature rises to 124 15 M359666 c In the above, the second temperature detector _ activates the water inlet solenoid valve (531) of the water inlet control unit (8), and restores the function of the water level probe (3Q) to control the water supply. The main advantage of the above-mentioned 'creation agency' is that the hot water volume of the steel furnace (1〇) is designed to be greater than the total water consumption of the beverage pin f spike time, and the peak time hot water consumption can be used by the smaller power heater ( 12) Pre-heating at the peak time of the lock sale, that is, the hot water used in the beverage (4) peak time can be pre-charged with a smaller power heater (12) without the need for high-power heating for a large amount of hot water. Device. In addition, the mechanism of the present invention is to extrude hot water by the steam pressure in the boiler (10), so that there is no prior art brewing mechanism in which the hot water temperature of the steel furnace is degraded due to the continuous introduction of cold water. Due to the stable temperature of the hot water, the problem of poor taste of the drink is caused. In addition to the above advantages, the water supply unit of the institution of the present invention can be selectively implemented according to requirements, such as hot water supply unit = 〇 '6 〇 A), temperature control unit (7 〇, 7 〇) A). In the case of a hot water supply unit (6〇a), “there may be a plurality of parallel hot water pipe assemblies, and the temperature control unit (7〇a) has a plurality of parallel temperature control pipe assemblies, when each hot water pipe assembly Hot water electromagnetic: (62A) and cold water solenoid valve (72A) are set to different combinations, and cooperate with no, hot water throttling element (63A) and cold water throttling element (73A) ': generate different temperatures The advantage of the hot water is that the same group of water supply units can pack different beverage materials, such as black tea, green tea, coffee or other beverages, and the dispensing mechanism can be used to brew a thick drink or reheat water when combined with a hot water mechanism. A light drink. [Simple description of the drawing] 16 M359666 The first figure is a three-dimensional appearance of the first preferred embodiment of the brewing mechanism of the present invention. The second figure is the second of the brewing mechanism of the present creation. The perspective view of the preferred embodiment is a three-dimensional appearance of the third preferred embodiment of the brewing mechanism of the present invention. The fourth figure is the fourth car of the brewing mechanism of the present invention. The three-dimensional appearance of the embodiment. A perspective view of a fifth preferred embodiment of the brewing mechanism. The sixth drawing is a perspective view of a sixth preferred embodiment of the brewing mechanism of the present invention. The seventh drawing is a prior art brewing. Stereoscopic view of the mechanism. [Main component symbol description] (10) Boiler (11A) insulation layer (13A) (13) Catheter (1 5) Throttling element (20B) Second pressure detector (20D) Second temperature Detector (30) water level probe (51) pump (53) water inlet control unit (531) water inlet solenoid valve (11) furnace body (12) heater (14) solenoid valve (20A> first pressure detection Detector (20C) first temperature detector (21 B) switch (50) water inlet unit (52) cold water pipe (54) check valve (5 3 2) water inlet throttle element 17 M359666

(60) Hot water supply unit (62) Hot water solenoid valve (70) Temperature control unit (72) Cold water solenoid valve (80) Outlet pipe (81) Mixing tank (83) Outlet throttling element (110) Heat exchanger ( 112) water supply pipe (61A) hot water pipe (63A) hot water throttle element (71A) thermostat pipe (73A) cold water throttling element (120) heating device (140) water inlet unit (160) brewing unit (61) Hot water pipe (63) hot water throttling element (71) thermostat pipe (73) cold water throttling element (801) water outlet (82) flow meter (100) brewing unit (111) inlet pipe (60A) hot water supply Unit (62A) hot water solenoid valve (70A) temperature control unit (72A) cold water solenoid valve (100A) brewing unit (130) heat exchanger (150) hot water pipe (170) return pipe

18

Claims (1)

M359666 VI. Patent application scope: 1. A low-power large-scale water supply hot water brewing mechanism, comprising: a steel furnace comprising a furnace body and a heater, wherein the furnace body is formed with a cavity for receiving Water; and the heater is disposed in the furnace body; a water inlet unit connected to the boiler and including a pump, a cold water pipe, and an inlet water control assembly, wherein the cold water pipe is connected to the boiler The furnace body and the fruit pump; and the water inlet control component is disposed on the cold water pipe; a first pressure detector is disposed on the furnace body to detect the vapor pressure in the cavity, and has a first preset The vapor pressure value, when the vapor pressure in the tank is greater than the first vapor pressure value, the heater is turned off, and when the vapor pressure in the tank is less than the first vapor pressure value, the heater is activated; the second pressure detector, The system is arranged on the furnace body to detect the vapor pressure in the tank, and is pre-set with a second vapor pressure value, (4) the second vapor pressure value is lower than the first vapor pressure value, and the pressure in the tank is greater than the second When the vapor pressure value is less than the first vapor pressure value, it will The inlet control unit maintains a passage or open state; and a water level probe is disposed in the steel furnace and can provide a high or low water level signal in the tank to provide a high or low water level signal; to the water unit 70, each water supply unit The utility model is disposed on the furnace body of the boiler, and comprises a hot water supply unit, an outlet water pipe assembly and a temperature regulating unit, wherein the hot water supply unit has a step ten.r殂仵's ten jobs and one hot water pipe a k-ray and hot water solenoid valve and a hot water throttle element 19 M359666. One end of the hot water pipe is connected to the wrong furnace, the hot water throttle element is disposed on the hot water officer, and the hot water solenoid valve Provided on the hot water pipe; and the water outlet pipe assembly has an outlet pipe, one end of which is connected in series with the hot water pipe assembly of the hot water supply unit, the other end forms a water outlet, and the temperature control unit has at least one temperature adjustment The pipe assembly, each thermostat pipe piece is connected with the cold water pipe and the hot water supply unit, and has a temperature regulating pipe, a cold water solenoid valve and a cold water throttling element, wherein the temperature regulating pipe has an cold water pipe phase at one end connection, Another tube temperature - between the hot water outlet pipe connected to the ends of the tube assembly, the cold water and the cold water solenoid valve throttling element provided on the temperature control pipe. 2. The hot-water brewing mechanism for low-power large-scale water supply as described in the scope of patent application, wherein the hot water supply unit is provided with a plurality of parallel heats: 9, and each piece of n-hai water is The plurality of parallel hot water pipe assemblies are connected in series. 3. If the low-power large-scale water supply hot water brewing mechanism described in the second or second paragraph of the patent scope is claimed, the middle temperature regulating unit is provided with a plurality of parallel temperature regulating tube assemblies, and each of the plurality of parallel temperature regulating tubes One end of the assembly is connected in series with the cold water pipe, and the other end is connected between the water outlet pipe and the hot water supply unit. 4. The hot water brewing mechanism of the low-power large-scale water supply according to the patent scope 帛] or 2, wherein the water inlet control unit of the water inlet unit is provided with a water inlet solenoid valve and a water inlet throttle element. 5. A hot water brewing mechanism for low-power, large-scale water supply according to claim 3, wherein the water inlet control unit of the water inlet unit is provided with an I-in solenoid valve and a water inlet throttling element. 6. The hot water brewing mechanism for low-power large-scale water supply according to item 3 of the patent application, wherein the furnace body of the boiler is provided with a heat insulating layer. ',, ' 20 M359666 7. The hot water brewing mechanism of the low-power large-scale water supply according to claim 3, wherein the water supply unit further has a mixing tank, wherein the mixing tank is disposed at the outlet pipe, The hot water pipe assembly of the hot water supply unit and the temperature regulating pipe assembly of the temperature regulating unit are connected to and connected to the water outlet pipe. 8. The hot water brewing mechanism of the low-power large-scale water supply according to item 7 of the patent scope, wherein the water outlet pipe assembly of the water supply unit further has a flow meter and a water outlet, and the water discharge throttle Components are located at The water outlet pipe is adjacent to the water outlet 4, and the flow meter is disposed on the water outlet pipe between the outlet throttle element and the mixing tank. 9. The hot water brewing mechanism for low-power large-scale water supply according to item 3 of the patent scope, further comprising a steam guiding mechanism comprising a conduit, a solenoid valve and a throttle element gas guiding The mechanism is located between the boiler and the water outlet of the water supply unit. 10. The patented ninth water brewing mechanism' further comprising a conduit connection of a hot water supply unit connected to the water supply unit. The hot-boiler unit of the low-power large-scale water supply mentioned in the item, the brewing unit is connected to the hot water pipe of the sputum, and the steam-guided species such as the patent application scope main · υ 任 任 * * 贝 Τ / Τ 延The low-power big summer water supply hot water brewing mechanism has the following: a first temperature detector for suppressing 筮m ^ , sonar , and 丨丨 1 1 1 乂 乂 代 代 代 代 压力 压力 压力 压力 压力 , The first 2 temperature value, the volume is determined by the liquid-degree 'sub-pre-set-the first 埶, Μ Μ & 、, first, the value of the dish will be closed; i the liquid temperature in the field The first _, the Tian Sheng Bo traitor; and the value of the 妗, will start the 21st M359666 test furnace body tank temperature, and preset a second temperature value, the second 'temperature value Below the first temperature value, when the temperature of the solution in the tank is greater than the second temperature value or less than the second temperature value, the inlet water control assembly maintains the passage or the open circuit state. Seven, the pattern: (such as the next page) twenty two