CN205919572U - Cooling system of condenser of intelligence household electrical appliances - Google Patents
Cooling system of condenser of intelligence household electrical appliances Download PDFInfo
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- CN205919572U CN205919572U CN201620647302.2U CN201620647302U CN205919572U CN 205919572 U CN205919572 U CN 205919572U CN 201620647302 U CN201620647302 U CN 201620647302U CN 205919572 U CN205919572 U CN 205919572U
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Abstract
The utility model discloses a cooling system of condenser of intelligence household electrical appliances relates to condenser heat dissipation field, including refrigeration appliance shell and the vertical condenser of installing on the refrigeration appliance shell, the radiating shell that the condenser was established outside condensing equipment by condensing equipment and cover is constituteed, be equipped with thermistor in the radiating shell, the radiating shell bottom links through the water pipe has a storage water tank, is equipped with control by temperature change flow control valve on the water pipe between radiating shell and the storage water tank, control by temperature change flow control valve and thermistor electricity federation, even there is a return water tank radiating shell upper end through the water pipe, and heat that the cooling water absorbs condensing equipment release intensifies after during the water pipe gets into the return water tank, can be used to the daily life of a family and use hot water, satisfies the hydrothermal supply and demand of family, environmental protection saving when the assurance effect is good, the thermistor control control by temperature change flow control valve who sets up in the radiating shell comes the automatic flow control who realizes the cooling water to reach the best radiating effect.
Description
Technical field
This utility model is related to condenser field of radiating and in particular to a kind of cooling system of the condenser of intelligent appliance.
Background technology
The refrigeration appliances such as refrigerator, air-conditioning are requisite household electrical appliances in modern people life, be also intelligent appliance must not
A part can be lacked, its operation principle is followed law of conservation of energy, done work by electric power, realizes the transmission of heat.
Taking refrigerator as a example, during refrigeration for refrigerator coolant need after compressor compression vaporization condenser carry out radiating cold
But, then to vaporizer carry out heat exchange refrigeration, if condenser radiating is bad can reduce refrigerating efficiency, current condenser radiating side
Formula is typically hung condenser radiating using side plate radiating or the back of the body or is added fan forced heat radiation, and this radiating mode dissipates for cross-ventilation
Heat, and the specific heat of air is little, if air circulation effect on driving birds is not good, is easy to so that surrounding heats up, and affects refrigeration, makes
Become the big side effect of energy consumption, then impact radiating in turn, form vicious cycle;And this be subject to by the way of natural heat dissipation
Ambient temperature effect is larger, and when summer, the ambient temperature around refrigerator is high, leads to condenser radiating effect poor, refrigeration for refrigerator
Also just poor, externally radiating can cause ambient temperature to raise to condenser again simultaneously, and then affects the living environment of user.
Utility model content
This utility model provides a kind of cooling system of the condenser of intelligent appliance, solves condensation of the prior art
The problem of device radiating effect difference.
For solving above-mentioned technical problem, this utility model employs the following technical solutions:
A kind of cooling system of the condenser of intelligent appliance, including refrigeration appliance shell and be vertically installed at refrigeration appliance
Condenser on shell, by condensing units and the radiating shell that is set in outside condensing units forms described condenser, described dissipates
Be provided with critesistor in hot housing, described radiating shell bottom is connected with a storage tank through water pipe, radiating shell and storage tank it
Between water pipe be provided with temp. control flow measuring control valve, described temp. control flow measuring control valve and critesistor Electricity Federation, radiating shell upper end warp
Water pipe is connected with a return water tank, and cooling water enters inside radiating shell from storage tank through water pipe, and condensing units are surrounded, and absorbs
The heat of condensing units release enters in return water tank through water pipe after heating up, and can be used for daily life of a family hot water, in order to be effective good
Meet the supply and demand of domestic hot water, environmental protection and saving simultaneously;Critesistor in radiating shell is used for detecting water temperature, when water temperature becomes
During change, the resistance value of critesistor changes, and then controls the temp. control flow measuring on the water pipe between radiating shell and storage tank
Control valve being automatically obtained the flow control of cooling water, to reach optimal radiating effect;Because cooling water is full of radiating shell
Gap and condensing units between, is radiated to condenser by the way of water-cooled, and cooling water will be arranged on inside radiating shell
Condensing units surround, thus reaching the effect being fully contacted with condensing units, by distribute in condensation process in condensing units
Heat is taken away in time, excellent in heat dissipation effect, and the specific heat of water is big, and under identical radiating effect, the temperature ratio that water raises is relatively low, so
The heat coming out is few, does not result in ambient temperature and raises, and then avoids affecting the living environment of user.
More excellent, described radiating shell is made up of open-topped integrated box body and upper lid, and the bottom of described casing sets
There is water inlet pipe, at least provided with a limit liquid level hole at opening, described limit liquid level hole is connected with outlet pipe, institute for the upper end of casing
State the top that lid is located at casing, the bottom of casing and above cover and be equipped with installing hole, the axis of two installing holes is same
On vertical curve, casing is provided with sealing ring with the joint face of upper lid, and radiation shell is stretched out through installing hole in the two ends of described condensing units
In vitro, the two ends of condensing units are arranged with securing member fixing with upper lid for casing;The water inlet pipe through box bottom for the cooling water enters
Enter casing, and casing arranges integrated, its good seal performance, limit liquid level hole is set at opening in the upper end of casing, that is,
Can ensure that the cooling water in ordinary circumstance lower box will not overflow casing, and be additionally provided with lid and sealing ring, be further ensured that
Even if the liquid level of box house cooling water exceeds the situation that leak also will not occur during casing, by the two of condensing units during installation
End is respectively fitted over upper and lower two and installs in the hole it is only necessary to the securing member adjusting the two ends of condensing units both can be solid with upper lid by casing
Fixed, also condensing units can be fixed with radiation shell body phase, operation is extremely simple quick.
More excellent, the lower end of described upper lid is provided with limiting plate, and during installation, limiting plate stretches into box house, it is to avoid casing and
On cover and shift in installation process, and then avoid because casing and on cover the sealing causing that shifts in installation process
The bad problem of performance.
More excellent, described condensing units by the charging body setting gradually from top to bottom, some condensing tubes being arranged side by side,
Discharging body forms, and described charging body and discharging body are set to male-pipe, sheathed on charging body and discharging body
There is fixing nut;In setting here: charging body and outlet pipe homonymy, described discharging body and water inlet pipe homonymy, that is, adopt
Radiated with the mode of adverse current it is ensured that the temperature difference between cooling water and material to be condensed, improve heat transfer efficiency;Feed pipe simultaneously
Be set to male-pipe on body and discharging body, turn charging body and discharging body on fixing nut both can by casing with upper
Lid is fixed, and also can fix condensing units and radiation shell body phase so that operating more simple and fast.
More excellent, described condensing tube be shaped as linear or spiral type, due to treating condensate by the way of compression
Material is condensed, so material to be condensed is larger to the pressure of condensing tube, using rectilinear condensing tube, is easy in processing
Realize;And adopt spiral condensing tube, though difficult in processing, it is big with the contact area of cooling water, and radiating effect is
Good.
More excellent, described radiating shell, the material of condensing units are metal, are provided with thermal insulation layer at radiating shell inwall,
Insulating moulding coating is scribbled, due to the thermal conductivity highest of metal, so the material of condensing units adopts metal on the shell of radiating shell
The heat transfer of cooling water and material to be condensed can be ensured, isothermal holding is carried out to the inwall of radiating shell simultaneously, keep away further
Exempt from refrigeration appliance heating, improve refrigeration.
More excellent, the material of described thermal insulation layer is aerogel blanket, good heat-insulation effect, and environmental protection does not pollute to cooling water,
It is easy to the later use of cooling water, saving water resource;Described insulating moulding coating is the thick composite aluminium-magnesium-silicate insulating moulding coating of 2-3mm,
For isolation-type heat-barrier material, increase effect of heat insulation further.
More excellent, described temp. control flow measuring control valve includes the valve body with cavity, and the two ends of described valve body are opened
Mouthful, be connected with water inlet end and water side at the opening at valve body two ends respectively, valve body be provided with current limliting screwed hole, described limit
Stream screw thread in the hole is provided with threaded sleeve rod, and the upper end of described threaded sleeve rod connects one and turns square, is arranged with inside threaded sleeve rod
Active pull rod, described active pull rod and turn and be provided with spring between square, one end that active pull rod stretches into valve body is provided with limit
Stream iron block, the position relative with current limliting iron block is provided with electric magnet in valve body, described electric magnet and critesistor Electricity Federation;Automatically
The operation principle realizing the flow control of cooling water is: when water temperature changes, the resistance value of critesistor changes, and makes
The electric current obtaining whole circuit changes, and then affects the magnetic of electric magnet, and active pull rod and current limliting iron block are that an activity is whole
Form one between body, the magnetic force between electric magnet and current limliting iron block and active pull rod and the elastic pulling force turning between square
Stress balance, when the magnetic of electric magnet changes, and that is, the magnetic force between electric magnet and current limliting iron block changes, stress is put down
Weighing apparatus is broken, so active pull rod is moved with current limliting iron block, thus reaching flow-control;Artificial adjustment operation principle is:
Twist manually and turn square so that threaded sleeve rod occurs relative movement in current limliting screwed hole, that is, drive active pull rod and current limliting ferrum
Block is moved, thus reaching flow-control.
More excellent, described critesistor is semistor, and temperature is higher, and resistance is bigger, whole circuit
Electric current is less, and the magnetic force of electric magnet is less, and active pull rod and current limliting iron block are displaced outwardly under the pulling force of spring so that flow increases
Greatly;Temperature is lower, and resistance is less, and the electric current of whole circuit is bigger, and the magnetic force of electric magnet is bigger, pulls active pull rod and current limliting ferrum
Block moves inward so that flow reduces.
Compared with prior art, the beneficial effect that this utility model produces:
1st, cooling water enters inside radiating shell from storage tank through water pipe, condensing units is surrounded, absorption condensation device is released
The heat put enters in return water tank through water pipe after heating up, and can be used for daily life of a family hot water, meets house while in order to be effective good
The supply and demand of front yard hot water, environmental protection and saving;Critesistor in radiating shell is used for detecting water temperature, when water temperature changes, temperature-sensitive
The resistance value of resistance changes, and then controls the temp. control flow measuring control valve on the water pipe between radiating shell and storage tank to be derived from
The dynamic flow control realizing cooling water, to reach optimal radiating effect;
2nd, the radiating shell of condenser adopts integrated box body, its good seal performance, in the upper end of casing at opening
Setting limit liquid level hole, you can the cooling water in guard box body will not overflow casing, and is additionally provided with lid and sealing ring, further
Even if ensure that the liquid level of box house cooling water exceeds the situation that leak also will not occur during casing, by condensing units during installation
Two ends be respectively fitted over upper and lower two and in the holes be installed it is only necessary to the securing member at two ends adjusting condensing units both can be by casing and Shang Gai
Fixing, also condensing units can be fixed with radiation shell body phase, operation is extremely simple quick;
3rd, the heat that condensing units discharge in condensation process, excellent in heat dissipation effect are taken away in time;
4th, improve refrigerating efficiency, reduce energy consumption;
5th, reduce the hot serious phenomenon of refrigeration appliance, it is to avoid the living environment of impact user;
6th, using radiating by the way of adverse current it is ensured that the temperature difference between cooling water and material to be condensed, improve heat transfer efficiency;
7th, the material of condensing units can ensure the heat transfer of cooling water and material to be condensed using metal, simultaneously to radiating
The inwall of housing carries out isothermal holding, avoids refrigeration appliance to generate heat further, improves refrigeration.
Brief description
The utility model is described in further detail below in conjunction with the accompanying drawings.
Fig. 1 is structural representation of the present utility model;
Fig. 2 is the structural representation of condenser;
Fig. 3 is the structural representation of radiating shell;
Fig. 4 is the structural representation of condensing units;
Fig. 5 is the structural representation of temp. control flow measuring control valve;
In figure label is respectively as follows: 1, refrigeration appliance shell;2nd, condenser;21st, radiating shell;211st, casing;212nd, Shang Gai;
2121st, limiting plate;213rd, installing hole;22nd, condensing units;221st, feed body;222nd, discharging body;223rd, condensing tube;23rd, cold
But water;24th, fixing nut;25th, limit liquid level hole;26th, outlet pipe;27th, water inlet pipe;28th, sealing ring;3rd, storage tank;4th, temperature control stream
Control valve;41st, valve body;411st, current limliting screwed hole;42nd, water inlet end;43rd, water side;44th, turn square;45th, activity is drawn
Bar;46th, threaded sleeve rod;47th, current limliting iron block;48th, spring;49th, electric magnet;5th, return water tank;6th, water pipe;7th, critesistor.
Specific embodiment
With reference to the accompanying drawings and detailed description this utility model is described in further detail.Reality of the present utility model
The mode of applying includes but is not limited to the following example.
Embodiment 1
As Figure 1-Figure 2, a kind of cooling system of the condenser of intelligent appliance, including refrigeration appliance shell 1 and perpendicular
Directly it is arranged on the condenser 2 on refrigeration appliance shell 1, described condenser 2 by condensing units 22 and is set in condensing units 22
Outer radiating shell 21 forms, and is provided with critesistor 7 in described radiating shell 21, and described radiating shell 21 bottom is through water pipe 6 even
There is a storage tank 3, the water pipe between radiating shell 21 and storage tank 3 is provided with temp. control flow measuring control valve 4, described temp. control flow measuring
Control valve 4 and critesistor 7 Electricity Federation, radiating shell 21 upper end is connected with a return water tank 5 through water pipe 6.
The operation principle of the present embodiment is: cooling water 23 enters inside radiating shell 21 through water pipe 6 from storage tank 3, will be cold
Solidifying device 22 surrounds, and the heat of absorption condensation device 22 release enters in return water tank 5 through water pipe 6, in return water tank 5 after heating up
The hot water of storage can be used for daily life of a family hot water, meets the supply and demand of domestic hot water, environmental protection and saving while in order to be effective good;Radiating
Critesistor 7 in housing 21 is used for detecting water temperature, and when water temperature changes, the resistance value of critesistor 7 changes, and enters
And control the stream to be automatically obtained cooling water 23 for the temp. control flow measuring control valve 4 on the water pipe 6 between radiating shell 21 and storage tank 3
Amount regulation and control, to reach optimal radiating effect.
In the present embodiment, because cooling water 23 is full of the gap between radiating shell 21 and condensing units 22, using water
Cold mode radiates to condenser 2, and the condensing units 22 being arranged within radiating shell 21 are surrounded by cooling water 23, thus reaching
To the purpose being fully contacted with condensing units 22, the heat distributing in condensation process in condensing units 22 is taken away in time, radiating
Effect is good, and the specific heat of water is big, and under identical radiating effect, the temperature ratio that water raises is relatively low, so the heat coming out is few,
Do not result in ambient temperature to raise, and then avoid affecting the living environment of user.
Embodiment 2
As shown in figure 3, on the basis of the cooling system of the condenser of a kind of intelligent appliance described in embodiment 1 further
Optimize, described radiating shell 21 is made up of open-topped integrated box body 211 and upper lid 212, and the bottom of described casing 211 sets
There is water inlet pipe 27, at least provided with a limit liquid level hole 25 at opening, described limit liquid level hole 25 is connected with out for the upper end of casing 211
Water pipe 26, described upper lid 212 is located at the top of casing 211, and the bottom of casing 211 and upper lid 212 are equipped with installing hole 213,
On same vertical curve, casing 211 is provided with sealing ring 28, institute with the joint face of upper lid 212 for the axis of two installing holes 213
The two ends stating condensing units 22 are stretched out outside radiating shell 21 through installing hole 213, and the two ends of condensing units 22 are arranged with casing 211
With the fixing securing member of upper lid 212.
The mounting means of the present embodiment condenser is: the upper and lower ends of condensing units 22 are respectively clamped into upper lid 212 and case
In the installing hole 213 of body 211, then sealing ring 28 is placed on casing 211 and the joint face of upper lid 212, by upper lid 212 and case
Body 211 aligns, and adjusts the securing member at the two ends of condensing units 22, you can install whole condenser.
In the present embodiment, the water inlet pipe 27 through casing 211 bottom for the cooling water 23 enters casing 211, and casing 211 is set to
Integration, its good seal performance, limit liquid level hole 25 is set at opening in the upper end of casing 211, you can ensure ordinary circumstance
Cooling water 23 in lower box 211 will not overflow casing, and is additionally provided with lid 212 and sealing ring 28 it is ensured that upper cover 212 Hes
Sealing at casing 211 joint face, even if the liquid level further ensuring casing 211 internal cooling water 23 exceeds casing
The situation of leak also will not occur when 211, during installation, the two ends of condensing units 22 are respectively fitted over upper and lower two installing holes 213
Interior it is only necessary to adjust the securing member at the two ends of condensing units 22 both can casing 211 fixing with upper lid 212, also can be by condensing units
22 are mutually fixed with radiating shell 21, and operation is extremely simple quick.
The operation principle of the present embodiment is: material to be condensed is condensed into liquid, period after compression in condensing units 22
Discharge substantial amounts of heat, the water inlet pipe 27 of the lower end through radiating shell 21 for the cooling water 23 enters radiating shell 21 and condensing units 22
Between gap, thus cooling water 23 occurs heat exchange with condensing units 22, then heat is taken out of through outlet pipe 26, thus
Take the purpose of radiating to.
The present embodiment good seal performance, installs convenient and swift, structure is simply easily achieved.
Embodiment 3
Optimize further on the basis of the cooling system of the condenser of a kind of intelligent appliance described in embodiment 2, described
The lower end of upper lid 212 is provided with limiting plate 2121, and when mounted, limiting plate 2121 stretches into inside casing 211 the present embodiment, you can will
Upper lid 212 is alignd with casing 211, it is to avoid casing 211 and upper lid 212 shift in installation process, and then avoid because of case
Body 211 and upper lid 212 shift the bad problem of the sealing property causing in installation process.
Embodiment 4
As shown in figure 4, on the basis of the cooling system of the condenser of a kind of intelligent appliance described in embodiment 2 further
Optimize, described condensing units 22 are fed body 221, some condensing tubes 223 being arranged side by side, gone out by set gradually from top to bottom
Expects pipe body 222 forms, and described charging body 221 and discharging body 222 are set to male-pipe, charging body 221 and discharging
Fixing nut 24 is arranged with body 222, described condensing tube 223 be shaped as linear type.
In the present embodiment, the charging body 221 of the upper end through radiating shell 21 for the material to be condensed enters thinner condensing tube
223, it is condensed into liquid after compression in condensing tube 223, the discharging of the lower end through radiating shell 21 for the liquid being formed after condensation
Body 222 flows out, and discharges substantial amounts of heat, the water inlet pipe 24 of the lower end through radiating shell 21 for the cooling water 23 in whole condensation process
Enter the gap between radiating shell 21 and condensing tube 223, thus cooling water 23 occurs heat exchange with condensing tube 223, then
Heat is taken out of through outlet pipe 25, thus taking the purpose of radiating to.
In the present embodiment, using radiating it is ensured that the temperature difference between cooling water and material to be condensed by the way of counter current heat exchange,
Improve heat transfer efficiency;Condensed due to treating condensation material by the way of compression, so material to be condensed is to condensing tube
Pressure larger, using rectilinear condensing tube, processing is easily achieved.
Embodiment 5
Optimize further on the basis of the cooling system of the condenser of a kind of intelligent appliance described in embodiment 2, described
Condensing units 22 are by the charging body 221 setting gradually from top to bottom, some condensing tubes 223 being arranged side by side, discharging body 222
Composition, described charging body 221 and discharging body 222 is set to male-pipe, on charging body 221 and discharging body 222
Be arranged with fixing nut 24, described condensing tube 223 be shaped as spiral type.
In the present embodiment, the charging body 221 of the upper end through radiating shell 21 for the material to be condensed enters thinner condensing tube
223, it is condensed into liquid after compression in condensing tube 223, the discharging of the lower end through radiating shell 21 for the liquid being formed after condensation
Body 222 flows out, and discharges substantial amounts of heat, the water inlet pipe 24 of the lower end through radiating shell 21 for the cooling water 23 in whole condensation process
Enter the gap between radiating shell 21 and condensing tube 223, thus cooling water 23 occurs heat exchange with condensing tube 223, then
Heat is taken out of through outlet pipe 25, thus taking the purpose of radiating to.
In the present embodiment, using radiating it is ensured that the temperature difference between cooling water and material to be condensed by the way of counter current heat exchange,
Improve heat transfer efficiency;And adopt spiral condensing tube, big with the contact area of cooling water, heat exchange efficiency is high, so radiating
Best results.
Embodiment 6
On the basis of a kind of cooling system of the condenser of the intelligent appliance described in embodiment 2 or 3 or 4 or 5 further
Optimize, described radiating shell 21, the material of condensing units 22 are metal, are provided with thermal insulation layer at radiating shell 21 inwall, radiating
The thick insulating moulding coating of 2-3mm is scribbled on the shell of housing 21;The material of described thermal insulation layer is aerogel blanket, described insulating moulding coating
For composite aluminium-magnesium-silicate insulating moulding coating.
In the present embodiment, due to the thermal conductivity highest of metal, so the material of condensing units 22 can be ensured using metal cold
But water and the heat transfer of material to be condensed, carry out isothermal holding to the inwall of radiating shell 21 simultaneously, avoid further freezing
Household electrical appliances generate heat, and improve refrigeration;And the good heat-insulation effect of aerogel blanket, environmental protection, cooling water is not polluted, so
It is easy to the later use of cooling water, saving water resource;Composite aluminium-magnesium-silicate insulating moulding coating is isolation-type heat-barrier material, and thickness is set
It is set to 2-3mm, increase effect of heat insulation further, and simple to operate, it is easy to accomplish.
Embodiment 7
As shown in figure 5, on the basis of the cooling system of the condenser of a kind of intelligent appliance described in embodiment 1 further
Optimize, described temp. control flow measuring control valve 4 includes the valve body 41 with cavity, the both ends open of described valve body 41, valve
Be connected with water inlet end 42 and water side 43 respectively at the opening at door body 41 two ends, valve body 41 be provided with current limliting screwed hole 411,
It is provided with threaded sleeve rod 46, the upper end of described threaded sleeve rod 46 connects one and turns square 44, screw thread in described current limliting screwed hole 411
It is arranged with active pull rod 45, described active pull rod 45 and turn and be provided with spring 48, active pull rod between square 44 inside loop bar 46
45 one end stretching into valve body 41 are provided with current limliting iron block 47, and in valve body 41, the position relative with current limliting iron block 47 is provided with electricity
Magnet 49, described electric magnet 49 and critesistor 7 Electricity Federation, described critesistor 7 is semistor.
In the present embodiment, temp. control flow measuring control valve 4 both can be automatically obtained flow control, again can manually implemented flow control,
Wherein:
(1) operation principle being automatically obtained flow control is: when the temperature of cooling water 23 changes, critesistor 7
Resistance value change so that the electric current of whole circuit changes, and then affect the magnetic of electric magnet 49, active pull rod 45
Be that an activity is overall with current limliting iron block 47, the magnetic force between electric magnet 49 and current limliting iron block 47 and active pull rod 45 with turn
Form a stress balance, when the magnetic of electric magnet 49 changes, i.e. electric magnet 49 between elastic pulling force between square 44
When magnetic force and current limliting iron block 47 between changes, stress balance is broken, so active pull rod 45 and current limliting iron block 47
Raw movement, thus reach flow-control;
(2) operation principle of manually implemented flow control is: twists manually and turns square 44 so that threaded sleeve rod 46 is in limit
There is relative movement in stream screwed hole 411, that is, drive active pull rod 45 to be moved with current limliting iron block 47, thus reaching flow control
System.
In the present embodiment, critesistor 7 is semistor, and the temperature of cooling water 23 is higher, and resistance is bigger,
The electric current of whole circuit is less, and the magnetic force of electric magnet 49 is less, active pull rod 45 and current limliting iron block 47 under the pulling force of spring to
Outer movement is so that flow increases;Temperature is lower, and resistance is less, and the electric current of whole circuit is bigger, and the magnetic force of electric magnet 49 is bigger,
Active pull rod 45 and current limliting iron block 47 is pulled to move inward so that flow reduces.
The present embodiment is easy to automatically control cooling water flow, to reach optimal radiating effect, high degree of automation, has
Positive dissemination.
It is embodiment of the present utility model as mentioned above.This utility model is not limited to above-mentioned embodiment, anyone
The structure change made under enlightenment of the present utility model should be learnt, every have same or like skill with this utility model
Art scheme, each falls within protection domain of the present utility model.
Claims (9)
1. a kind of cooling system of the condenser of intelligent appliance, including refrigeration appliance shell (1) and be vertically installed at refrigeration man
Condenser (2) on electric shell (1) it is characterised in that: described condenser (2) by condensing units (22) and is set in condensation dress
Put (22) radiating shell (21) composition outward, in described radiating shell (21), be provided with critesistor (7), described radiating shell (21)
Bottom is connected with a storage tank (3) through water pipe (6), and the water pipe between radiating shell (21) and storage tank (3) is provided with temperature control stream
Control valve (4), described temp. control flow measuring control valve (4) and critesistor (7) Electricity Federation, radiating shell (21) upper end is through water pipe (6)
It is connected with a return water tank (5).
2. as claimed in claim 1 a kind of cooling system of the condenser of intelligent appliance it is characterised in that: described radiating shell
(21) it is made up of open-topped integrated box body (211) and upper lid (212), the bottom of described casing (211) is provided with water inlet pipe
(27), the upper end of casing (211) limits liquid level hole (25) at least provided with one at opening, and described limit liquid level hole (25) is connected with out
Water pipe (26), described upper lid (212) is located at the top of casing (211), and the bottom of casing (211) and Shang Gai (212) are equipped with
Installing hole (213), the axis of two installing holes (213) on same vertical curve, the connection of casing (211) and upper lid (212)
Face is provided with sealing ring (28), and radiating shell (21) is stretched out outward through installing hole (213) in the two ends of described condensing units (22), condensation
The two ends of device (22) are arranged with casing (211) securing member fixing with upper lid (212).
3. as claimed in claim 2 a kind of cooling system of the condenser of intelligent appliance it is characterised in that: described upper lid
(212) lower end is provided with limiting plate (2121).
4. as claimed in claim 1 a kind of cooling system of the condenser of intelligent appliance it is characterised in that: described condensing units
(22) by the charging body (221) setting gradually from top to bottom, some condensing tubes (223) being arranged side by side, discharging body (222)
Composition, described charging body (221) and discharging body (222) are set to male-pipe, charging body (221) and discharging body
(222) it is arranged with fixing nut (24) on.
5. as claimed in claim 4 a kind of cooling system of the condenser of intelligent appliance it is characterised in that: described condensing tube
(223) be shaped as linear or spiral type.
6. the condenser of a kind of intelligent appliance as described in claim 1-5 any one cooling system it is characterised in that:
Described radiating shell (21), the material of condensing units (22) are metal, are provided with thermal insulation layer at radiating shell (21) inwall,
The thick insulating moulding coating of 2-3mm is scribbled on the shell of radiating shell (21).
7. as claimed in claim 6 a kind of cooling system of the condenser of intelligent appliance it is characterised in that: described thermal insulation layer
Material is aerogel blanket, and described insulating moulding coating is composite aluminium-magnesium-silicate insulating moulding coating.
8. as claimed in claim 1 a kind of cooling system of the condenser of intelligent appliance it is characterised in that: described temp. control flow measuring
Control valve (4) includes the valve body (41) with cavity, the both ends open of described valve body (41), valve body (41) two
Be connected with water inlet end (42) and water side (43) respectively at the opening at end, valve body (41) be provided with current limliting screwed hole (411),
It is provided with threaded sleeve rod (46), the upper end of described threaded sleeve rod (46) connects one and turns square in described current limliting screwed hole (411)
(44), it is arranged with active pull rod (45) inside threaded sleeve rod (46), described active pull rod (45) and turning sets between square (44)
There is spring (48), one end that active pull rod (45) stretches into valve body (41) is provided with current limliting iron block (47), in valve body (41)
The position relative with current limliting iron block (47) is provided with electric magnet (49), described electric magnet (49) and critesistor (7) Electricity Federation.
9. as claimed in claim 8 a kind of cooling system of the condenser of intelligent appliance it is characterised in that: described critesistor
(7) it is semistor.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201620647302.2U CN205919572U (en) | 2016-06-28 | 2016-06-28 | Cooling system of condenser of intelligence household electrical appliances |
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CN201620647302.2U CN205919572U (en) | 2016-06-28 | 2016-06-28 | Cooling system of condenser of intelligence household electrical appliances |
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CN205919572U true CN205919572U (en) | 2017-02-01 |
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CN201620647302.2U Expired - Fee Related CN205919572U (en) | 2016-06-28 | 2016-06-28 | Cooling system of condenser of intelligence household electrical appliances |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107943245A (en) * | 2017-11-13 | 2018-04-20 | 广西平果蓝邑网络技术有限公司 | A kind of water-cooling heat radiating system for computer chip |
CN112171946A (en) * | 2020-09-28 | 2021-01-05 | 万咏喜 | Energy-saving and environment-friendly plastic granulator |
CN112671037A (en) * | 2020-12-24 | 2021-04-16 | 广东理工学院 | Micro-grid power droop control device and control method thereof |
-
2016
- 2016-06-28 CN CN201620647302.2U patent/CN205919572U/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107943245A (en) * | 2017-11-13 | 2018-04-20 | 广西平果蓝邑网络技术有限公司 | A kind of water-cooling heat radiating system for computer chip |
CN112171946A (en) * | 2020-09-28 | 2021-01-05 | 万咏喜 | Energy-saving and environment-friendly plastic granulator |
CN112671037A (en) * | 2020-12-24 | 2021-04-16 | 广东理工学院 | Micro-grid power droop control device and control method thereof |
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