CN109222556A - A kind of glass rapid cooling system - Google Patents

Abstract

The invention discloses a rapid cooling system for glass cups, which aims to provide a rapid cooling system for glass cups with no hidden safety hazard and easy maintenance. It includes a vacuum heat absorber and a cooling glass assembly matched with the vacuum heat absorber. The vacuum heat absorber is provided with a control device for electronically controlled vacuuming and an execution device for vacuuming. The control device and the execution device pass through Electrically connected, the execution device includes an outlet condensing mechanism, a vacuum pump, an air circuit mechanism and a lifting mechanism, and the control device is respectively electrically connected with the outlet condensation mechanism, the micro vacuum pump, the air circuit mechanism and the lifting mechanism. The present invention is suitable for users to quickly cool down beverages.

Description

A kind of glass rapid cooling system

Technical field

The present invention relates to a kind of rapid cooling systems more particularly to a kind of glass to be quickly cooled down system.

Background technique

With any prosperity of life science and technology, people increasingly improve the requirement of daily life, in daily life It is even more be unable to do without moistening for water, and how can enjoy one glass of healthy and beneficial cool white heartily in hot summer and open or cool down Beverage has developed the domestic appliance of many types of cooling on the market, just the type of cooling more popular at present have it is air-cooled, Water cooling and natural heat exchange, this is practical to cause the boiling point of liquid and object in container to drop based on extracting vacuum in closed container It is low, achieve the effect that boiling and freezing.For above-mentioned three kinds example way can achieve the effect that cooling really, but nothing Method quickly reduces temperature, and the cooling mode having is usually associated with coolant liquid to be poured into, this just causes the safety of user Certain hidden danger, such as CN201520395229.X, therefore it is badly in need of a kind of energy fast-refrigerating, and the rapid cooling without security risk System.

Summary of the invention

Present invention mainly solves cooling time it is slow, there are problems that security risk, provide a kind of rapid cooling, and nothing Security risk, glass convenient for safeguarding are quickly cooled down system.

The technical solution adopted by the present invention to solve the technical problems is: a kind of glass rapid cooling system, including true Empty heat dump and cooling glass cup assembly with the collocation of vacuum heat dump are provided with automatically controlled vacuumize in the vacuum heat dump Control device and the executive device vacuumized, the control device and executive device electrical connection, the executive device include Outlet condensing mechanism, vacuum pump, gas circuit mechanism and elevating mechanism, the control device respectively with outlet condensing mechanism, miniature true Sky pump, gas circuit mechanism and elevating mechanism electrical connection.This programme is by being arranged vacuum heat sink for the liquid in cooling glass Liquid moisture is become vaporous water by boiling by moisture, and the quality by losing a part of vaporous water takes away heat.

Scheme as a preference of the above scheme, the control device include vacuum detecting unit, temperature detecting unit, Memory, microcomputerized controller and communication device, the microcomputerized controller respectively with vacuum detecting unit, temperature detecting unit, deposit Reservoir, microcomputerized controller and communication device electrical connection.This programme controls many power driven systems by microcomputerized controller, reaches detection Information feeds back to control system, then issues and executes order to executive device.

Scheme as a preference of the above scheme, the gas circuit mechanism include vacuum pressure difference charge valve, vacuum solenoid, Proportion magnetic valve and vacuum-breaking valve, the minipump are connect with vacuum pressure difference charge valve input port by tracheae, described true Pneumatics difference charge valve delivery outlet is connect with proportion magnetic valve input port by tracheae, and the proportion magnetic valve delivery outlet is respectively and very Empty solenoid valve input port, vacuum detecting unit and cooling glass cup assembly are connected by tracheae, the vacuum solenoid delivery outlet It is connect with vacuum-breaking valve by tracheae.This programme by tracheae by connecting solenoid valve and common valve to form a gas circuit Mechanism realizes the movement to being vacuumized in glass, and a vacuum-breaking valve is arranged in gas circuit mechanism end and utilizes its characteristic When needing breaking vacuum, it is made to experience internal negative pressure to which vacuum breaker introduces positive pressure from the external world, convenient for users to opening cup Lid.

Scheme as a preference of the above scheme, the microcomputerized controller respectively with vacuum pressure difference charge valve, vacuum electric Magnet valve, proportion magnetic valve electrical connection.This programme achievees the purpose that automation control by microcomputerized controller control.

Scheme as a preference of the above scheme, the vacuum heat dump include shell, are provided with support frame in shell One and the support frame two that is arranged in below support frame one, elevating mechanism is provided on support frame as described above one, under the elevating mechanism It is provided with three-way connection, the three-way connection includes input, output end one and output end two, and the vacuum solenoid setting exists Support frame two is simultaneously connect with output end one by tracheae, and the proportion magnetic valve and vacuum pressure difference solenoid valve setting are supporting One lower section of frame is simultaneously connect with output end two, and the minipump is arranged below vacuum pressure difference solenoid valve and setting is supporting Two top of frame, the minipump are arranged with the outlet condensing mechanism, the minipump and outlet condensing mechanism It is connected by escape pipe, is provided with lower fixed bottom plate below the control mechanism and outlet condensing mechanism.This programme is by having Different components is combined in limit space to reach functional areas spatial optimization and the smallest purpose of degree that interacts.

Scheme as a preference of the above scheme, the outlet condensing mechanism include outlet cooling cylinder, are condensed in outlet It is provided with helical baffles in case, outlet cooling cylinder side is provided with radiator fan, is provided with not below outlet cooling cylinder Become rusty steel screen tray, is arranged with pressure-releasing chamber in stainless steel screen tray, the pressure-releasing chamber is provided with the pressure relief opening with external connection, in pressure release It is provided with filter screen on mouthful, drainage tank is provided with below pressure-releasing chamber, the pressure-releasing chamber is connect with drainage tank by through-hole.We Case is provided gas cooling cylinder by the escape pipe to vacuum pump and guarantees the unobstructed of gas circuit, and considers the large volume factor of gas So being provided with relief hole, and the cooling such as helical baffles, radiator fan, stainless steel screen tray is provided with using the principle of condensation The liquid water of condensation is imported drainage tank by source, to avoid the vacuum pump outlet not caused enough because of relief hole pressure relief capability Pipe airway blockage and the consequence for influencing the vacuum efficiency of pump, the filter screen mostly use activated charcoal strainer.

Scheme as a preference of the above scheme, the elevating mechanism include upper fixed cover, fixed cover front end It is arranged outside shell above simultaneously covering vacuum cup lid, the rear end of fixed cover is arranged in shell and and miniature electromotive handspike Connection is provided with holddown spring between the top and shell of fixed cover rear end, installation is provided in fixed cover The channel of exhaust tube.This programme covers on the position after carrying out successfully detent to glass by fixation on setting holddown spring pillow It is fixed, and by the channel of the setting installation exhaust tube in upper fixed cover, reach a gas circuit between vacuum pump and glass Connection.

Scheme as a preference of the above scheme, the cooling glass cup assembly include glass and vacuum cup lid, institute It states vacuum cup and covers to be provided with and take out hole, drawn hole is provided with silica gel sealing ring, the vacuum cup lid passes through exhaust tube and vacuum Pump connection, the glass bottom are provided with the fixing groove of recess, and the lower fixed bottom plate is placed to be provided with and glass at glass The corresponding fixed block of glass cup fixing groove.This programme is and true by the way that the pumping hole with silica gel sealing ring is arranged on cooling glass Suction thermal carries out air circuit connection.Fixed hole in the fixing groove and lower fixed cover of glass bottom setting recess carries out position Set fixation.

Scheme as a preference of the above scheme is provided with temperature detecting unit, the temperature inspection in the fixed block It surveys unit and uses integrated temperature sensor.This programme is taken full advantage of in glass by the way that temperature sensor is arranged in fixed block The dented space and internal liquid in portion carry out the temperature that distance is but independent of each other recently and measure.The purpose of temperature sensor is set just It is and to feed back to microcomputerized controller with pressure transducer together configuration information to reach and meet user's temperature requirements.

The invention has the advantages that

1, using the vacuum cold mode different from conventional chilling mode；

2, it is provided with temperature sensor and pressure transducer configuration information feedback system together, can sufficiently meet user not Same demand；

3, fast-refrigerating；

4, the functional areas of careful planning achieve the effect that minimum to the disturbance degree of electronic component.

Detailed description of the invention

Fig. 1 is logic diagram of circuit of the invention；

Fig. 2 is air circuit connection schematic diagram of the invention；

Fig. 3 is structure sectional view of the invention.

In figure, 1, vacuum heat sink, 2, cooling glass cup assembly, 3, vacuum cup lid, 4, glass, 5, fixed block, 6, Integrated temperature sensor, 7, lower fixed bottom plate, fixed cover on 8,9, vacuum solenoid, 10, vacuum-breaking valve, 11, holddown spring, 12, exhaust tube, 13, miniature electromotive handspike, 14, support frame one, 15, proportion magnetic valve, 16, vacuum pressure difference charge valve, 17, outlet Pipe, 18, minipump, 19, support frame two, 20, outlet cooling cylinder, 21, radiator fan, 22, filter screen, 23, pressure relief opening, 24, drainage tank, 25, stainless steel screen tray, 26, pressure-releasing chamber, 27, helical baffles, 28, memory, 29, temperature detecting unit, 30, Vacuum detecting unit, 31, microcomputerized controller, 32, communication device, 33, outlet condensing unit, 34, elevating mechanism, 35, gas circuit machine Structure, 36, executive device, 37, control device, 38, shell.

Specific embodiment

Below with reference to the embodiments and with reference to the accompanying drawing further description of the technical solution of the present invention.

Embodiment: as shown in figure, microcomputerized controller 31 passes through the ring of temperature detecting unit 29 and vacuum detecting unit 30 Border infomation detection result carries out automatically controlled, the environment of the offer of simultaneous memory 28 one information storage to executive device 37, and communicates Device 32 provides the environment that manipulation can be connected with external smart terminal.Executive device 37 include outlet condensing mechanism 35, Minipump 18, gas circuit mechanism 35 and elevating mechanism 34.It include again vacuum pressure difference charge valve 16, vacuum in gas circuit mechanism 35 Solenoid valve 9, proportion magnetic valve 15.Wherein the power supply of the power supply of vacuum pressure difference charge valve 16 and minipump 18 is and connects, It is to protect vacuum pump itself that this, which is arranged, this for having sizable effect when used for a long time.

As shown in Figure 2, the minipump 18 is connect with 16 input port of vacuum pressure difference charge valve by tracheae, described 16 delivery outlet of vacuum pressure difference charge valve is connect with 15 input port of proportion magnetic valve by tracheae, 15 delivery outlet of proportion magnetic valve It is connect respectively with 9 input port of vacuum solenoid, vacuum detecting unit 30 and cooling glass 2 by tracheae, the vacuum electromagnetic 9 delivery outlet of valve is connect with vacuum-breaking valve 10 by tracheae.Electric element in executive device 36 is controlled by microcomputerized controller 31.

As shown in Figure 3, the vacuum heat dump 1 includes shell 38, and support frame 1 is provided in shell 38 and setting exists The support frame 2 19 of the lower section of support frame 1, is provided with elevating mechanism 34 on support frame as described above 1, under the elevating mechanism 34 It is provided with three-way connection, the three-way connection includes input, output end one and output end two, and output end one is being supported with setting Vacuum solenoid 9 on frame 2 19 is connected by tracheae, the proportion magnetic valve 15 of one 14 lower section of output end two and support frame and very Pneumatics difference solenoid valve 16 connects, and the minipump 18 is arranged below vacuum pressure difference solenoid valve 16 and is arranged in support frame 2 19 tops, the minipump 18 are arranged with outlet condensing mechanism 33, the minipump 18 and outlet freezing machine Structure 33 is connected by escape pipe 17, and lower fixed bottom plate 7 is provided with below the control mechanism 38 and outlet condensing mechanism 33；It is described Outlet condensing mechanism 33 includes outlet cooling cylinder 20, and helical baffles 27 are provided in outlet cooling cylinder 20, is condensed in outlet 20 side of case is provided with radiator fan 21, and stainless steel screen tray 25 is provided with below outlet cooling cylinder 20, in stainless steel screen tray 25 It is arranged with pressure-releasing chamber 26, the pressure-releasing chamber 26 is provided with the pressure relief opening 23 with external connection, was provided on pressure relief opening 23 Strainer 22, is provided with drainage tank 24 below pressure-releasing chamber 26, and the pressure-releasing chamber 36 is connect with drainage tank 24 by through-hole；The liter Descending mechanism 35 includes upper fixed cover 8, and the front end of fixed cover 8, which is extended, covers vacuum cup lid 3 outside shell 38, described solid Surely the rear end setting of cover 8 is connect in shell 38 with miniature electromotive handspike 13, and fixed cover is provided with pressure above 8 rear ends Tight spring 11, it is fixed to cover the channel that installation exhaust tube 12 is provided in 8；The cooling glass cup assembly 2 includes glass Cup 4 and vacuum cup lid 3 is provided on the vacuum cup lid 3 and takes out hole, drawn hole is provided with silica gel sealing ring, the vacuum cup Lid 3 is connect by exhaust tube 12 with vacuum pump 18, and 4 bottom of glass is provided with the fixing groove of recess, the lower fixed bottom Plate 7 is placed and is provided with fixed block 5 corresponding with 4 fixing groove of glass at glass 4；Temperature is provided in the fixed block 5 Detection unit 29, the temperature detecting unit 29 use integrated temperature sensor；The vacuum detecting unit 30 is passed using pressure Sensor.

Specific embodiment described herein is only an example for the spirit of the invention.The neck of technology belonging to the present invention The technical staff in domain can make various modifications or additions to the described embodiments or replace by a similar method In generation, however, it does not deviate from the spirit of the invention or beyond the scope of the appended claims.

Although the terms such as vacuum heat dump, cooling glass cup assembly, helical baffles are used more herein, not It rules out the possibility of using other terms.The use of these items is only for be more convenient to describe and explain sheet of the invention Matter；Being construed as any additional limitation is disagreed with spirit of that invention.

Claims (10)

1. A glass rapid cooling system, characterized in that it comprises a vacuum heat absorber (1) and a cooling glass assembly (2) matched with the vacuum heat absorber (1), the vacuum heat absorber (1) A control device (37) for electronically controlled vacuuming and an execution device (36) for vacuuming are provided inside, the control device (37) and the execution device (36) are electrically connected, and the execution device (36) includes an outlet condensing device (36). A mechanism (33), a vacuum pump (18), an air circuit mechanism (35) and a lifting mechanism (34), the control device (37) is respectively connected with the air outlet condensation mechanism (33), the micro vacuum pump (18), the air circuit mechanism (35) ) and the lifting mechanism (34) are electrically connected. 2. The glass rapid cooling system according to claim 1, wherein the control device (37) comprises a vacuum detection unit (30), a temperature detection unit (29), a memory (28), a microcomputer controller ( 31) and a communication device (32), the microcomputer controller (31) is respectively connected with a vacuum detection unit (30), a temperature detection unit (29), a memory (28), a microcomputer controller (31) and a communication device (32) electrical connection. 3 . The glass rapid cooling system according to claim 1 , wherein the air circuit mechanism ( 35 ) comprises a vacuum differential pressure charging valve ( 16 ), a vacuum solenoid valve ( 9 ), and a proportional solenoid valve ( 15 ). 4 . and a vacuum breaking valve (10), the micro vacuum pump (18) is connected with the input port of the vacuum differential pressure charging valve (16) through a trachea, and the output port of the vacuum differential charging valve (16) is input with the proportional solenoid valve (15) The port is connected by a gas pipe, and the output port of the proportional solenoid valve (15) is respectively connected with the input port of the vacuum solenoid valve (9), the vacuum detection unit (30) and the cooling glass assembly (2) by a gas pipe, and the vacuum solenoid valve ( 9) The output port is connected with the vacuum breaking valve (10) through the trachea. 4. The glass rapid cooling system according to claim 2 or 3, characterized in that: the microcomputer controller (31) is respectively connected with a vacuum differential pressure inflation valve (16), a vacuum solenoid valve (9), a proportional solenoid valve (15) Electrical connection. 5. The glass rapid cooling system according to claim 3, characterized in that: the vacuum heat absorber (1) comprises a casing (38), and the casing (38) is provided with a support frame (14) and The second support frame (19) is arranged under the first support frame (14), the first support frame (14) is provided with the lifting mechanism (34), and the lifting mechanism (34) is provided with a tee joint, so The three-way joint includes an input end, an output end 1 and an output end 2, the vacuum solenoid valve (9) is arranged on the support frame 2 (19) and is connected with the output end 1 through a gas pipe, the proportional solenoid valve (15) and the The vacuum differential pressure solenoid valve (16) is arranged under the first support frame (14) and is connected to the second output end, and the micro vacuum pump (18) is arranged below the vacuum differential pressure solenoid valve (16) and is arranged on the support frame Above the second (19), the micro vacuum pump (18) is provided with the gas outlet condensation mechanism (33), the micro vacuum pump (18) and the gas outlet condensation mechanism (33) are connected through the gas outlet pipe (17), the control A lower fixed bottom plate (7) is arranged below the mechanism (38) and the air outlet condensation mechanism (33). 6. The glass cup rapid cooling system according to claim 1, characterized in that: the air outlet condensation mechanism (33) comprises an air outlet condensation box (20), and a spiral baffle ( 27), a cooling fan (21) is arranged on one side of the outlet condensing box (20), a stainless steel sieve plate (25) is arranged below the outlet condensation box (20), and a pressure relief cavity is arranged under the stainless steel sieve plate (25). (26), the pressure relief chamber (26) is provided with a pressure relief port (23) connected to the outside, a filter screen (22) is arranged on the pressure relief port (23), and a filter screen (22) is arranged below the pressure relief chamber (26) There is a drainage tank (24), and the pressure relief chamber (36) is connected with the drainage tank (24) through a through hole. 7. The glass rapid cooling system according to claim 1, wherein the lifting mechanism (35) comprises an upper fixing cover (8), and the front end of the upper fixing cover (8) is arranged on the casing (38) outside and covering the top of the vacuum cup cover (3), the rear end of the upper fixed cover (8) is arranged in the casing (38) and connected with the miniature electric push rod (13). A compression spring (11) is arranged between the upper part of the end and the casing (38), and a channel for installing the air extraction pipe (12) is arranged in the upper fixed cover (8). 8. The glass rapid cooling system according to claim 1 or 5, wherein the cooling glass assembly (2) comprises a glass (4) and a vacuum cup cover (3), the vacuum cup cover ( 3) A suction hole is arranged on the suction hole, and a silicone sealing ring is arranged at the suction hole. The vacuum cup cover (3) is connected with the vacuum pump (18) through the suction pipe (12), and the bottom of the glass cup (4) is provided with a depression The fixing groove of the lower fixing base plate (7) is provided with a fixing block (5) corresponding to the fixing groove of the glass cup (4) at the place where the glass cup (4) is placed. 9. The glass rapid cooling system according to claim 2 or 8, characterized in that: the fixing block (5) is provided with a temperature detection unit (29), and the temperature detection unit (29) adopts an integrated temperature sensor . 10. The glass rapid cooling system according to claim 2 or 3, wherein the vacuum detection unit (30) adopts a pressure sensor.