CN108548234A - A kind of dehumidification module and heated dehumidifying wardrobe with acoustic energy refrigeration machine - Google Patents

Abstract

Dehumidification module and heated dehumidifying wardrobe according to the present invention with acoustic energy refrigeration machine, including wardrobe ontology and dehumidification module, dehumidification module are arranged in wardrobe ontology, are open towards inside the cabinet of wardrobe ontology on dehumidification module, dehumidification module includes：Shell and refrigeration unit, wherein, shell is in rectangular shape, it is provided with opening on one side, refrigeration unit is arranged in shell, including electronic control unit, acoustic energy refrigeration machine, cold guide apparatus, acoustic energy refrigeration machine is arranged in shell, acoustic energy refrigeration machine is pulse type free-piston Stirling cooler, cold head with cold end, cold guide apparatus includes core heat pipe, fin, cool end heat exchanger, there is the condensation end of core heat pipe to be connected in cold end by cool end heat exchanger, there is the tube body of core heat pipe to extend along the length direction of shell, fin is arranged on the evaporation ends for having core heat pipe.

Description

A kind of dehumidification module and heated dehumidifying wardrobe with acoustic energy refrigeration machine

Technical field

The invention belongs to household fields, and in particular to a kind of dehumidification module and heated dehumidifying wardrobe with acoustic energy refrigeration machine.

Background technology

Present wardrobe is seen everywhere in we live, but our wardrobe structures now are all relatively simple, function It is single, only have the function of storage clothes, pledges clothes after putting long or be easy moisture regain after drying, lead to clothes dress not Comfortably, and after wardrobe long-time use, the inside is easy to grow bacterium, leads to bacteria breed on clothes, influences people's body Health, in the special humid region of environment, the above problem is more serious.

Invention content

There is acoustic energy refrigeration machine using new and effective acoustic energy refrigeration machine one of the objects of the present invention is to provide a kind of Dehumidification module and heated dehumidifying wardrobe, which utilizes sterlin refrigerator refrigerated dehumidification, and according to temperature sensor Feedback, adjusts the input power of Stirling, to automatically control the wet temp that removes of dehumidification module, realization Intelligent dehumidifying.

The present invention provides a kind of dehumidification modules, have the feature that, including shell and refrigeration unit, wherein shell Body is in rectangular shape, opening is provided on a side, refrigeration unit is arranged in shell, including electronic control unit, acoustic energy system Cold, cold guide apparatus, acoustic energy refrigeration machine are arranged in shell, and acoustic energy refrigeration machine is pulse type free-piston Stirling cooler, Cold head with cold end, cold guide apparatus include core heat pipe, fin, cool end heat exchanger and fan, there is the condensation end of core heat pipe It is connected in cold end by cool end heat exchanger, there is the tube body of core heat pipe to extend along the length direction of shell, fin setting is having core On the evaporation ends of heat pipe, fan is arranged in the side of fin, and face opening, electronic control unit includes power supply, controller and temperature Sensor, acoustic energy refrigeration machine are pulse type free-piston Stirling cooler, including linear motor, compression unit, expanding machine list Member and rack, rack include flange, expansion piston pipe, compression piston pipe and pedestal, flange shape in disk form, the flange One side is provided with concentric disk, and another side is connected with pedestal, and pedestal is cylindrical in shape, and one end is connected with flange, and the other end is Free end, the center line of pedestal are overlapped with the center line of flange, and expansion piston pipe is straight pipe, and one end is connected with disk, another It is free end to hold, the pulse tube for connecting refrigeration machine, is with cylindrical expansion plunger shaft, compression piston pipe in expansion piston pipe Straight pipe, in the base, one end is connected with flange for setting, and the other end is free end, in compression piston pipe there is compression cylinder to live It fills in chamber, compression piston chamber and expansion piston chamber coaxial line and is connected, be parallel to compression piston cavity axis, be provided on disk more A connection compression piston chamber and external through-hole, the internal diameter of compression piston chamber are more than the internal diameter of expansion piston chamber, expansion piston chamber Internal diameter and the internal diameter of pulse tube be identical, linear motor includes outer yoke, interior yoke and mover, outer yoke, interior yoke It is separately positioned in rack and there is gap, mover to be arranged between outer yoke, interior yoke in gap, compression unit has compression Piston, compression piston spring, compression piston spring are fixedly connected by connector with rack, and compression piston is arranged in compression piston Guan Zhong, one end are connected with mover and are connected with compression piston spring, and the other end is free end, and expanding machine unit includes that expansion is lived Plug, expansion piston spring, expansion piston bar, level-one hot end heat exchanger, two level hot end heat exchanger, regenerator, pulse tube, cold end are changed Hot device, level-one hot end heat exchanger is cylindrical, is sleeved on the outer wall of expansion piston pipe and is arranged on the end face of roundel, pulse One end of pipe is connected with expansion piston pipe, and the other end is connected with cool end heat exchanger, and regenerator is cylindrical, is arranged in pulse tube Outside, one end are connected with cool end heat exchanger, and the other end is connected with level-one hot end heat exchanger, and two level hot end heat exchanger is arranged in pulse In pipe, in expansion piston pipe, expansion piston spring is fixedly connected by connector with rack expansion piston, expansion piston bar One end is connected with expansion piston, and the other end is connected after passing through compression piston, compression piston spring with expansion piston spring, and compression is lived Plug, expansion piston, compression piston chamber and expansion piston chamber constitute compression chamber, expansion piston, two level hot end heat exchanger and swollen Swollen plunger shaft constitutes expansion chamber, and expansion chamber is coaxially arranged with compression chamber.

In dehumidification module provided by the invention, it can also have the feature that：Wherein, the side of cool end heat exchanger with Brazing mode is fixed on around the cold head of sterlin refrigerator.

In addition, in dehumidification module provided by the invention, can also have the feature that：Wherein, temperature sensor is set It sets on cool end heat exchanger and is connected with controller, controller distinguishes phase with power supply and pulse type free-piston Stirling cooler Connection, and control the unlatching of pulse type free-piston Stirling cooler.

In addition, in dehumidification module provided by the invention, which is characterized in that further include being arranged in the multiple of the side of fin Fan, multiple fan face openings are arranged and are uniformly arranged along the length direction of opening, for cold wind to be blown out shell.

The present invention provides a kind of heated dehumidifying wardrobes, have the feature that, including wardrobe ontology and dehumidification module, wherein Dehumidification module is arranged in wardrobe ontology, is open towards inside the cabinet of wardrobe ontology on dehumidification module, and dehumidification module is above-mentioned Any one the dehumidification module with acoustic energy refrigeration machine.

In heated dehumidifying wardrobe provided by the invention, which is characterized in that further include the collecting container being arranged in fin lower part.

The effect of invention

The beneficial effects of the present invention are：The coaxial pulse-tube type free-piston Stirling cooler of the present invention eliminates tradition The longer low-temperature expansion piston of free-piston Stirling cooler is replaced with shorter room-temperature zone work work recycling expansion piston. The expansion cylinder of free-piston Stirling cooler becomes the pulse tube of vascular cold finger, and pulse tube cold end is disposed with laminarization Air deflector, hot junction are equipped with two level hot end heat exchanger.This change combines free-piston Stirling cooler and vascular refrigerator The advantages of, by cancelling the expansion piston in hot and cold side high frequency motion, eliminates pumping loss that low-temperature expansion piston brings, wears Shuttle loses and axial heat conduction loss.The sound work(that shorter swell at room temperature piston solves vascular refrigerator is arranged by hot junction to return Receipts problem, therefore, when recycling cold end sound work(completely, which is card Promise cycle efficieny.Meanwhile cancellation low-temperature expansion piston reduces refrigeration machine manufacture difficulty, reduces overall mass.

In addition, the sterlin refrigerator used in the heated dehumidifying wardrobe of the present invention is small, and it is compact-sized, in the system of low-temperature space Cold efficiency is high；The present invention is specific green, environmentally friendly, pollution-free.

Description of the drawings

Fig. 1 is the heated dehumidifying wardrobe schematic diagram of the present invention；

Fig. 2 is the heated dehumidifying wardrobe schematic internal view of the present invention；

Fig. 3 is dehumidification module schematic diagram in the embodiment of the present invention；

Fig. 4 is the schematic side view of Fig. 3；

Fig. 5 is the pulse type free-piston Stirling cooler diagrammatic cross-section of the present invention；

Fig. 6 is the stereoscopic schematic diagram of rack in the embodiment of the present invention；

Fig. 7 is B direction views in Fig. 6；And

Fig. 8 is D-D sectional views in Fig. 7.

Specific implementation mode

It is real below in order to make the technical means, the creative features, the aims and the efficiencies achieved by the present invention be easy to understand Example combination attached drawing is applied to be specifically addressed heated dehumidifying wardrobe of the present invention.

As shown in Figure 1, 2, heated dehumidifying wardrobe 100 includes wardrobe ontology 70 and dehumidification module 80,

Dehumidification module 80 is arranged in wardrobe ontology 70, is open towards inside the cabinet of wardrobe ontology on dehumidification module, real It applies in example, dehumidification module 80 is located at the top of wardrobe ontology 70.

Dehumidification module 80 includes shell 82 and refrigeration unit.

Shell 82 is in rectangular shape, and opening is provided on a side, and bottom has multiple ventilation openings.

Refrigeration unit is arranged in shell 82, including electronic control unit, acoustic energy refrigeration machine, cold guide apparatus.

Electronic control unit includes power supply, controller and temperature sensor.

Acoustic energy refrigeration machine is arranged in shell 82, and acoustic energy refrigeration machine is pulse type free-piston Stirling cooler 81, tool There is the cold head 84 of cold end.

Cold guide apparatus includes core heat pipe 86, fin 87, cool end heat exchanger 85, collecting container 88, multiple fans 89.

The side of cool end heat exchanger 85 is fixed on brazing mode around the cold head 84 of sterlin refrigerator, there is core heat pipe 86 Condensation end be connected in cold end by cool end heat exchanger 85, there is the tube body of core heat pipe 86 to extend along the length direction of shell 82, Intensive fin 87 is provided on the evaporation ends of core heat pipe 86, the air flowed by ventilation opening in fin 87 and has core heat pipe 86 Fully heat exchange cooling, until temperature is down to dew-point temperature hereinafter, condensed water is precipitated.Collecting container 88 is arranged in 87 lower part of fin, For collecting condensed water.

The side of fin 87 is provided with multiple fans 89 being connected with power supply, and the setting of 89 face of multiple fans opening is simultaneously opened on edge The length direction of mouth is uniformly arranged, for cold wind to be blown out shell 82.

As shown in figure 5, coaxial pulse-tube type free-piston Stirling cooler 46 includes linear motor 1, compression unit, expansion Machine unit, undamped dynamic absorber unit 4, rack 50B and shell 60.

As shown in Fig. 6,7,8, rack 50B includes flange 52B, expansion piston pipe 51B, compression piston pipe 54B and pedestal 53B,

Wherein, the one side of flange 52B shapes in disk form, flange 52B is provided with concentric disk 521B, another side It is connected with pedestal 53B, multiple connection through-holes is evenly arranged on flange 52B.

Pedestal 53B is cylindrical in shape, and one end is connected with flange 52B, and the other end is free end, the center line and flange of pedestal 53B The center line of 52B overlaps, and is provided with multiple connecting screw hole 531B on the free end of pedestal 53B, and in embodiment, pedestal 53B is to enclose Four supporting legs being arranged around the center line of flange 52B.

Expansion piston pipe 51B be straight pipe, one end be connected with disk 521B and with disk 521B coaxial lines, the other end be oneself By holding, the pulse tube for connecting refrigeration machine, expansion piston pipe 51B is interior to have cylindrical expansion plunger shaft 511B.

Compression piston pipe 54B is straight pipe, is arranged in pedestal 53B, and one end is connected and same with flange 52B with flange 52B Axis, the other end are free end, have in compression piston pipe 54B compression cylinder plunger shaft 541B, compression piston chamber 541B with it is swollen Swollen plunger shaft 511B coaxial lines and it is connected.

Compression piston chamber 541B axis are parallel to, multiple connection compression piston chamber 541B and outside are provided on disk 521B Through-hole 522B, the quantity of through-hole 522B is between 3-9.In embodiment, the section of through-hole 522B is arc groove, quantity 4 It is a.

The internal diameter of compression piston chamber 541B is more than the internal diameter of expansion piston chamber 511B, the internal diameter and arteries and veins of expansion piston chamber 511B The internal diameter of washing pipe is identical.

Linear motor 1 includes outer yoke 11, interior yoke 14 and mover, and outer yoke 11, interior yoke 14 are separately positioned on machine There is gap, mover to be arranged in gap, mover includes permanent magnet 13 and permanent magnetism body support frame on frame and between outer yoke, interior yoke 15。

As shown in fig. 7, linear motor 1 includes mainly outer yoke 11, coil 12, permanent magnet 13, interior yoke 14, permanent magnet branch Frame 15, mover include permanent magnet 13, permanent magnetism body support frame 15, connector 16, fixing nut 18, compression piston 19 and compression piston Flat spring 17 (only takes the 1/3 of flat spring quality) when calculating mover quality, and permanent magnetism body support frame 15 is connected with permanent magnet 13, and with Compression piston 19 and connector 16 are connected through a screw thread.Outer yoke 11 is soft magnetic materials with interior yoke 14, commonly uses electric work pure iron, silicon The materials such as steel disc make, and permanent magnet 13 is permanent-magnet material, commonly uses Ru-Fe-Mn, alnico permanent magnetic material to make.Outer yoke 11, line Circle 12, permanent magnet 13, interior yoke 14 are annular, and using coaxially arranged.Outer yoke 11, interior yoke 14 are separately positioned on machine There is gap, mover to be arranged on frame 50B and between outer yoke, interior yoke in gap.

When coil is passed through direct current, outer yoke 11 and interior yoke 14 can form magnetic force loop line, in 11 He of outer yoke Magnetic pole is generated on interior yoke 14.When being passed through alternating current in coil, permanent magnet 13 will be done back and forth by alternating electromagnetic force Linear motion.When permanent magnet 13 does linear reciprocating motion, compression piston 19 can be driven to do linear reciprocating motion, compression piston plate Spring 17 provides axial reciprocating elastic power and radial support.

Compression unit includes connector 16, compression piston flat spring 17, fixing nut 18, compression piston 19.Compression piston Flat spring 17 is connected by fixing nut 18 with connector 16, and compression piston flat spring 17 and rack 50B is solid by connector Fixed connection, compression piston 19 are arranged in compression piston chamber 541B, and one end is connected with mover and is connected with compression piston spring 17, The other end is free end.

Expanding machine unit includes expansion piston 21B, expansion piston flat spring 22B, piston rod 23B, level-one hot end heat exchanger 26B, two level hot end heat exchanger 33B, regenerator 25B, pulse tube 31B, cool end heat exchanger 24B, cold finger shell 35B.

Level-one hot end heat exchanger 26B is cylindrical, is sleeved on the outer wall of expansion piston pipe 51B and is arranged in roundel 521B End face on, level-one hot end heat exchanger 26B and rack 50B are separate structure, level-one hot end heat exchanger 26B and piston tube 51B's Outer wall is interference fitted.

One end of pulse tube 31B is connected with one end of expansion piston pipe 51B, and the other end is connected with cool end heat exchanger 24B.

Regenerator 25B is in the cylindrical shape of ring-shaped section and ring-shaped, is arranged in the outside of pulse tube 31B, one end and cool end heat exchanger 24B is connected, and the other end is connected with level-one hot end heat exchanger 26B.

Two level hot end heat exchanger 33B is arranged in pulse tube 31B, is located at the connection of pulse tube 31B and expansion piston pipe 51B Place, two level hot end heat exchanger 33B and rack 50B are separate structure, and two level hot end heat exchanger 33B is interior with expansion piston pipe 51B's Wall is interference fitted.

Expansion piston 21B is arranged in expansion piston pipe 51B, and expansion piston flat spring 22B passes through connector and rack 50B It is fixedly connected, one end of piston rod 23B is connected with expansion piston 21B, and the other end passes through compression piston 19, compression piston flat spring It is connected with expansion piston flat spring 22B after 17,

Compression piston 19, expansion piston 21B, compression piston chamber 541B and expansion piston chamber 511B constitute compression chamber.

Expansion piston 21B, two level hot end heat exchanger 33B and expansion piston chamber 511B constitute expansion chamber.Expansion chamber and pressure Contracting chamber is coaxially arranged.

Cold finger shell 35B is arranged in the outside of level-one hot end heat exchanger 26B, regenerator 25B, cool end heat exchanger 24B, shell 60 Outside in rack 50B and expanding machine unit is set, and shell 60, cold finger shell 35B and rack 50B connect into one by connector Body.

Radiator 27 is located at the outside of level-one hot end heat exchanger 26B and is arranged on cold finger shell 35B, level-one hot end heat exchanger Heat is passed to the radiator 27 in outside by 26B by cold finger shell 35B, is finally released to environment.

Undamped dynamic absorber unit 4 is connected with shell 60 and is arranged in the outside of shell 60, for being carried out to refrigeration machine Damping.

Electronic control unit includes power supply, controller and temperature sensor.

Wherein, temperature sensor is arranged on cool end heat exchanger and is connected with controller, controller and power supply and pulse type Free-piston Stirling cooler is respectively connected with, and controls the unlatching of pulse type free-piston Stirling cooler.

The effect of embodiment

The advantageous effect of the present embodiment is：The coaxial pulse-tube type free-piston Stirling cooler of the present invention eliminates biography The system longer low-temperature expansion piston of free-piston Stirling cooler recycles expansion piston generation with shorter room-temperature zone work work It replaces.The expansion cylinder of free-piston Stirling cooler becomes the pulse tube of vascular cold finger, and pulse tube cold end is disposed with laminar flow The air deflector of change, hot junction are equipped with two level hot end heat exchanger.This change combines free-piston Stirling cooler and vascular system The advantages of cold, eliminates the pump gas damage that low-temperature expansion piston is brought by cancelling the expansion piston in hot and cold side high frequency motion It loses, shuttle loss and axial heat conduction loss.Shorter swell at room temperature piston is set by hot junction and solves vascular refrigerator Acoustic power recovery problem, therefore, when recycling cold end sound work(completely, the novel pulse type free-piston Stirling cooler theory effect Rate is Carnot's cycle efficiency.Meanwhile cancellation low-temperature expansion piston reduces refrigeration machine manufacture difficulty, reduces overall mass.

In addition, the heated dehumidifying wardrobe of the present embodiment, the sterlin refrigerator used is small, compact-sized, in low-temperature space High cooling efficiency；The present invention is specific green, environmentally friendly, pollution-free.

The above embodiment is the preferred case of the present invention, is not intended to limit protection scope of the present invention.

Claims (6)

1. a kind of dehumidification module with acoustic energy refrigeration machine, which is characterized in that including：

Shell and refrigeration unit,

Wherein, the shell is in rectangular shape, and opening is provided on a side,

The refrigeration unit is arranged in the shell, including electronic control unit, acoustic energy refrigeration machine, cold guide apparatus,

The acoustic energy refrigeration machine is arranged in the shell, and acoustic energy refrigeration machine is pulse type free-piston Stirling cooler, tool There is the cold head of cold end,

The cold guide apparatus includes core heat pipe, fin, cool end heat exchanger, and the condensation end for having core heat pipe is exchanged heat by cold end Device is connected in the cold end, and the tube body for having core heat pipe extends along the length direction of the shell, and the fin setting exists On the evaporation ends for having core heat pipe,

The electronic control unit includes power supply, controller and temperature sensor,

The acoustic energy refrigeration machine is pulse type free-piston Stirling cooler, including linear motor, compression unit, expanding machine list Member and rack,

The rack includes flange, expansion piston pipe, compression piston pipe and pedestal,

The one side of the flange shape in disk form, the flange is provided with concentric disk, and another side is connected with the pedestal,

The pedestal is cylindrical in shape, and one end is connected with flange, and the other end is free end, the center line of the pedestal and the flange Center line overlaps,

The expansion piston pipe is straight pipe, and one end is connected with the disk, and the other end is free end, for connecting refrigeration machine Pulse tube, the expansion piston pipe is interior to have cylindrical expansion plunger shaft,

The compression piston pipe is straight pipe, is arranged in the pedestal, and one end is connected with the flange, and the other end is freely End, has compression cylinder plunger shaft in the compression piston pipe, the compression piston chamber and the expansion piston chamber coaxial line and It is connected,

It is parallel to the compression piston cavity axis, multiple connection compression piston chambers are provided on the disk and are led to external Hole,

The internal diameter of the compression piston chamber is more than the internal diameter of the expansion piston chamber, internal diameter and the arteries and veins of the expansion piston chamber The internal diameter of washing pipe be it is identical,

The linear motor includes outer yoke, interior yoke and mover, and the outer yoke, the interior yoke are separately positioned on described There is gap, the mover to be arranged in the gap in rack and between outer yoke, interior yoke,

There is the compression unit compression piston, compression piston spring, the compression piston spring to pass through connector and the machine Frame is fixedly connected, and the compression piston is arranged in the compression piston pipe, one end be connected with the mover and with the compression Piston spring is connected, and the other end is free end,

The expanding machine unit includes expansion piston, expansion piston spring, expansion piston bar, level-one hot end heat exchanger, two level heat Heat exchanger, regenerator, pulse tube, cool end heat exchanger are held,

The level-one hot end heat exchanger is cylindrical, is sleeved on the outer wall of the expansion piston pipe and is arranged in the roundel On end face,

One end of the pulse tube is connected with the expansion piston pipe, and the other end is connected with the cool end heat exchanger,

The regenerator is cylindrical, is arranged in the outside of the pulse tube, one end is connected with the cool end heat exchanger, the other end It is connected with the level-one hot end heat exchanger,

Two level hot end heat exchanger is arranged in the pulse tube,

In the expansion piston pipe, the expansion piston spring is fixed by connector and the rack to be connected the expansion piston It connects, one end of the expansion piston bar is connected with the expansion piston, and the other end passes through the compression piston, the compression piston It is connected with the expansion piston spring after spring,

The compression piston, the expansion piston, the compression piston chamber and the expansion piston chamber constitute compression chamber,

The expansion piston, the two level hot end heat exchanger and the expansion piston chamber constitute expansion chamber, the expansion chamber with The compression chamber is coaxially arranged.

2. the dehumidification module according to claim 1 with acoustic energy refrigeration machine, it is characterised in that：

Wherein, the side of the cool end heat exchanger is fixed on brazing mode around the cold head of sterlin refrigerator.

3. the dehumidification module according to claim 1 with acoustic energy refrigeration machine, it is characterised in that：

Wherein, the temperature sensor is arranged on the cool end heat exchanger and is connected with the controller, the controller and The power supply and the pulse type free-piston Stirling cooler are respectively connected with, and control the pulse type free-piston this The unlatching of special woods refrigeration machine.

4. the dehumidification module according to claim 1 with acoustic energy refrigeration machine, which is characterized in that further include：

Multiple fans in the side of the fin are set, and opening is arranged and along the opening described in multiple fan faces Length direction is uniformly arranged, for cold wind to be blown out the shell.

5. a kind of heated dehumidifying wardrobe with acoustic energy refrigeration machine, which is characterized in that including：

Wardrobe ontology and dehumidification module,

Wherein, the dehumidification module is arranged in the wardrobe ontology, described on the dehumidification module to be open towards the wardrobe Inside the cabinet of ontology,

The dehumidification module is the dehumidification module with acoustic energy refrigeration machine described in any one in Claims 1 to 4.

6. the heated dehumidifying wardrobe according to claim 5 with acoustic energy refrigeration machine, which is characterized in that further include：

Collecting container in the fin lower part is set.