CN204902001U

CN204902001U - Indoor damp -warm syndrome governing system

Info

Publication number: CN204902001U
Application number: CN201520694555.0U
Authority: CN
Inventors: 马晶; 戚玉华; 张艳霞
Original assignee: University of Jinan
Current assignee: University of Jinan
Priority date: 2015-09-09
Filing date: 2015-09-09
Publication date: 2015-12-23
Anticipated expiration: 2025-09-09

Abstract

Indoor damp -warm syndrome governing system relates to indoor damp -warm syndrome and adjusts technical field. Its characterized in that: indoor damp -warm syndrome governing system indoor portion upper portion is elementary water tank, elementary water tank sub -unit connection indoor set, indoor set sub -unit connection evaporation water tank, the secondary water tank of evaporation water tank sub -unit connection, the wind channel is volute -shaped, flows the dryer and in the volute -shaped wind channel, flows the dryer and be cylindrical, and water evaporation assembly is located wind channel department, and water evaporation assembly is parallel with two bottom surfaces of the cylinder section of thick bamboo of stream dryer, evaporation water tank bottom is connected with evaporation water tank drain pipe, is equipped with solenoid valve A on the evaporation water tank drain pipe, be equipped with the working shaft in the secondary water tank, the working shaft connection goes upward the contact pipe, goes upward the contact pipe and manages the export on elementary water tank upper portion. Indoor damp -warm syndrome governing system, but indoor damp -warm syndrome governing system has humidification effect when freeze, heating, can adjust indoor temperature and humidity in all weather.

Description

Indoor damp-warm syndrome regulating system

Technical field

Indoor damp-warm syndrome regulating system, relates to air regulator technical field.

Background technology

Dry air can make human respiratory eliminate the reduction of bacterium ability, causes the infection of the upper respiratory tract, and then causes the sick disease of respiratory tract aspect.Dry air can make pachylosis, the main cause that this namely dry Gobi desert application on human skin is coarse.In addition dry air easily produces electrostatic, also makes people do not feel like oneself.Normally solve with humidifier for increasing humidity businessman, but the cost of manufacture of ultrasonic humidifier is high, moisture spreads slowly under without flowing wind-force power-assisted, and humidifying effect is unsatisfactory.

The air-conditioning of CN104566631A mono-kind with humidifier of prior art " is provided with multiple heating wire in humidifier.The heating wire of described humidifier is connected with the temperature-control circuit of air-conditioner body inside ... and can be heated by water according to demand, the water smoke proper temperature making humidifier gush out, winter can not ice-coldly stimulate." although the problem of air-conditioner humidifying can be solved; because humidification is by electric-heating-wire-heating; the effect not only just heating of air-conditioning; also not only need to dry environment humidification in the winter time; to have many situations also to need to heat lower summer; therefore, not just to be suitable for require that of cooling in summer to install heating wire humidification.

CN201421141Y patent, feature is " inside air inlet, damping device is provided with on front side of fan part, extraneous air is under fan part effect, electrical equipment inside is entered by air inlet, through damping device, exhausting duct, then discharge from air outlet " because damping device is in air inlet side, the humidification when air-conditioning is used for heating, humidification is fair, but when air-conditioning is for freezing, humidifier apparatus is in air inlet, so moisture will wear indoor heat converter (i.e. evaporimeter) discharge, then moisture can in the upper frosting of indoor heat converter (evaporimeter), not only humidification reduces greatly, because after frosting, the heat transfer effect of indoor heat converter also declines greatly, cause operation of air conditioner refrigerating capacity not enough.

" CN103438505A damping device, indoor apparatus of air conditioner, air-conditioning and air conditioning humidifying method " is characterized in that " hairbrush installed on stream wind wheel blade; " the aerodynamic appearance of stream wind wheel is destroyed by this, and air flow resistance increases, because this reducing air-conditioning effect.

Summary of the invention

For overcoming the deficiency that prior art exists,

One of object of the application is that design is a kind of can the temperature air adjuster of humidification;

Two of the object of the application overcomes the deficiencies in the prior art, and not only air regulator can humidification when heating, the humidifying air adjuster that humidification refrigerating capacity does not reduce when freezing;

Three of the object of the application is condensed waters of comprehensive utilization air-conditioner outdoor unit;

The object four of the application, because supplementary inflow is limited, observes pretty troublesome constantly, so four of the object of the application is automatically control water tank amount of makeup water;

The application adopts following technical scheme for achieving the above object:

1, indoor damp-warm syndrome regulating system, comprise: stream air duct 1, air conditioner housing 2, spiral case 3, water evaporative component 4, evaporation water tank 5, snail tongue 6, indoor set 7, air channel 8, horizontal wind guide strip assembly 9, magnetic valve C10, tube connector 11, power line 12, off-premises station condensate pipe 13, off-premises station 14, elementary water tank 20, up liaison tube 21, supply-water pump 22, secondary water tank 23, magnetic valve A24, descending liaison tube 25, magnetic valve B26, liquid level sensor 31 under secondary water tank, liquid level sensor 32 on secondary water tank, liquid level sensor 33 under evaporation water tank, liquid level sensor 34 on evaporation water tank, liquid level sensor 35 under elementary water tank, liquid level sensor 36 on elementary water tank,

It is characterized in that:

Indoor damp-warm syndrome regulating system is split type loose wet air-conditioning;

Indoor damp-warm syndrome regulating system indoor section top is elementary water tank 20, and elementary water tank 20 bottom connects indoor set 7,

Indoor set 7 bottom connects evaporation water tank 5, and evaporation water tank 5 bottom connects secondary water tank 23;

Stream air duct 1, spiral case 3, snail tongue 6, air channel 8, horizontal wind guide strip assembly 9 are in indoor set 7;

Air channel 8 is scroll casing shape, and stream air duct 1 is in scroll casing shape air channel 8, and stream air duct 1 is cylindrical; (prior art, the universal architecture of split-type air conditioner)

Water evaporative component 4 comprises: support chip 4-1, absorbent material cover 4-2, absorbent material immersion base 4-3,

Evaporation water tank 5 comprises: evaporation water tank drainpipe 5-1, condensed water import 5-2,

Horizontal wind guide strip assembly 9 comprises: horizontal wind guide strip 9-1, rotating shaft 9-2, support 9-3,

Water evaporative component 4 is flake, and water evaporative component 4 central authorities are support chip 4-1, and absorbent material cover 4-2 is sleeved on support chip 4-1, and absorbent material cover 4-2 bottom connects absorbent material immersion base 4-3;

Absorbent material immersion base 4-3 is in evaporation water tank 5; (being convenient to water suction)

Water evaporative component 4 is positioned at air channel 8 place, and water evaporative component 4 is parallel with two bottom surfaces of the cylindrical drum of stream air duct 1; (also namely parallel with the direction of air-flow, thus reduce the resistance of air-out and enough disengagement areas can be had);

Horizontal wind guide strip 9-1 connection bracket 9-3, support 9-3 connection rotating shaft 9-2 (horizontal wind guide strip assembly 9 is prior art, see the air-conditioning of prior art, can repeat no more herein);

Be connected with evaporation water tank drainpipe 5-1 bottom evaporation water tank 5, evaporation water tank drainpipe 5-1 is equipped with magnetic valve A24;

(when if indoor humidity height no longer needs humidification, evaporation water tank 5 by magnetic valve A24 enter store in secondary water tank 23 for subsequent use)

Evaporation water tank drainpipe 5-1 bottom is in secondary water tank 23;

Secondary water tank 23 is built with supply-water pump 22, and supply-water pump 22 connects up liaison tube 21, and up liaison tube 21 pipe outlet is on elementary water tank 20 top; (water in secondary water tank 23 can be made to be squeezed in elementary water tank 20 by supply-water pump)

Secondary water tank 23 upper inside wall is equipped with liquid level sensor 32 on secondary water tank, secondary water tank 23 lower inner wall is equipped with liquid level sensor 31 under secondary water tank, (water in secondary water tank 23 can be raised up elementary water tank 20 top for subsequent use in elementary water tank 20 by supply-water pump 22)

Connect descending liaison tube 25 bottom elementary water tank 20, descending liaison tube 25 end is equipped with magnetic valve B26,

Elementary water tank 20 upper inside wall is equipped with liquid level sensor 36 on elementary water tank, and elementary water tank 20 lower inner wall is equipped with liquid level sensor 35 under elementary water tank,

Magnetic valve B26 end is in evaporation water tank 5; (when needing humidification, and when the condensed water of machine 14 is not enough outdoor, the water that magnetic valve B26 opens in elementary water tank 20 is entered in evaporation water tank 5 by descending liaison tube 25)

Evaporation water tank 5 top is connected with condensed water import 5-2, and condensed water import 5-2 connects off-premises station 14; (making full use of the condensed water humidification of indoor set)

Evaporation water tank 5 upper inside wall is equipped with liquid level sensor 34 on evaporation water tank, and evaporation water tank 5 lower inner wall is equipped with liquid level sensor 33 under evaporation water tank;

Off-premises station condensate pipe 13 connects off-premises station 14.

2, indoor damp-warm syndrome regulating system, is characterized in that: described water tank 5-5 is plastic cistern (light quality is in suspension).

3, indoor damp-warm syndrome regulating system, is characterized in that: on described elementary water tank, liquid level sensor 36 is positioned at 4/5 place of elementary water tank 20 height overall, and under elementary water tank, liquid level sensor 35 is positioned at 1/5 place of elementary water tank 20 height overall.

4, indoor damp-warm syndrome regulating system, is characterized in that: under described secondary water tank, liquid level sensor 31 is positioned at 1/5 place of secondary water tank 23 height overall, and on secondary water tank, liquid level sensor 32 is positioned at 4/5 place of secondary water tank 23 height overall.

5, indoor damp-warm syndrome regulating system, is characterized in that: under described evaporation water tank, liquid level sensor 33 is positioned at 1/5 place of evaporation water tank 5 height overall, and on evaporation water tank, liquid level sensor 34 is positioned at 4/5 place of evaporation water tank 5 height overall.

6, indoor damp-warm syndrome regulating system, is characterized in that: described absorbent material cover 4-2 is phenolic foam plastic material.

7, indoor damp-warm syndrome regulating system, is characterized in that: described absorbent material cover 4-2 is flexible hollow fibrous material.

8, indoor damp-warm syndrome regulating system, is characterized in that: described elementary water tank 20 sidewall is equipped with magnetic valve C10.(can be used for when if condensed water is not enough supplementing adding water)

9, indoor damp-warm syndrome regulating system, is characterized in that: described magnetic valve A24 and magnetic valve B26 is magnetic valve.

10, indoor damp-warm syndrome regulating system, is characterized in that: off-premises station 14 installation site is higher than indoor on-hook.

Beneficial effect

1, indoor damp-warm syndrome regulating system refrigeration, heat while have can humidification;

2, because water evaporative component 4 is flake, water evaporative component 4 central authorities are support chip 4-1, and absorbent material cover 4-2 is sleeved on support chip 4-1, and absorbent material cover 4-2 bottom connects absorbent material immersion base 4-3; Water evaporative component 4 is positioned at air channel 8 place, water evaporative component 4 is parallel with two bottom surfaces of the cylindrical drum of stream air duct 1, also namely parallel with the direction of air-flow, thus reduce the resistance of air-out and enough disengagement areas can be had, so substantially can not reduce in indoor damp-warm syndrome regulating system humidification refrigerating capacity when freezing of the application;

3, condensed water is distilled water, non flouling behaviour, and the condensed water area that the water hardness is large being made full use of to off-premises station is beneficial to the lasting use of absorbent material and need not changes;

5, evaporate bottom water tank 5 and be connected with evaporation water tank drainpipe 5-1, evaporation water tank drainpipe 5-1 is equipped with magnetic valve A24, if when indoor humidity height no longer needs humidification, evaporation water tank 5 by magnetic valve A24 enter store in secondary water tank 23 for subsequent use;

6, evaporate water tank 5 top and be connected with condensed water import 5-2, condensed water import 5-2 connects off-premises station 14, makes full use of the condensed water humidification of indoor set.

Accompanying drawing explanation

Fig. 1: indoor damp-warm syndrome regulating system indoor section left view

Fig. 2: indoor damp-warm syndrome regulating system is indoor, off-premises station schematic diagram

Fig. 3: indoor damp-warm syndrome regulating system I partial enlarged drawing

Fig. 4: indoor damp-warm syndrome regulating system indoor set back office sectional view

Fig. 5: the indoor on-hook partial enlarged drawing of indoor damp-warm syndrome regulating system

In figure: 1 stream air duct, 2 air conditioner housing, 3 spiral cases, 4 water evaporative components, 5 evaporation water tanks, 6 snail tongues, 7 indoor sets, 8 air channels, 9 horizontal wind guide strip assemblies, 10 magnetic valve C, 11 tube connectors, 12 power lines, 13 off-premises station condensate pipes, 14 off-premises stations, 20 elementary water tanks, 21 up liaison tubes, 22 supply-water pumps, 23 level water tanks, 24 magnetic valve A, 25 descending liaison tubes, 26 magnetic valve B, liquid level sensor under 31 level water tanks, liquid level sensor on 32 level water tanks, liquid level sensor under 33 evaporation water tanks, liquid level sensor on 34 evaporation water tanks, liquid level sensor under 35 elementary water tanks, liquid level sensor on 36 elementary water tanks, support chip 4-1, absorbent material cover 4-2, absorbent material immersion base 4-3, evaporation water tank drainpipe 5-1, condensed water import 5-2, the horizontal wind guide strip of 9-1, 9-2 rotating shaft, 9-3 support.

Detailed description of the invention

Below in conjunction with drawings and Examples, the application is described further.

Embodiment 1

It is characterized in that:

Evaporation water tank drainpipe 5-1 bottom is in secondary water tank 23;

Off-premises station condensate pipe 13 connects off-premises station 14.

7, indoor damp-warm syndrome regulating system, is characterized in that: described elementary water tank 20 sidewall is equipped with magnetic valve C10.(can be used for when if condensed water is not enough supplementing adding water)

8, indoor damp-warm syndrome regulating system, is characterized in that: described magnetic valve A24 and magnetic valve B26 is magnetic valve.

9, indoor damp-warm syndrome regulating system, is characterized in that: off-premises station 14 installation site is higher than indoor on-hook.

Embodiment 2

It is characterized in that:

Evaporation water tank drainpipe 5-1 bottom is in secondary water tank 23;

Off-premises station condensate pipe 13 connects off-premises station 14.

6, indoor damp-warm syndrome regulating system, is characterized in that: described absorbent material cover 4-2 is flexible hollow fibrous material.

Claims

1. indoor damp-warm syndrome regulating system, comprise: stream air duct, air conditioner housing, spiral case, water evaporative component, evaporation water tank, snail tongue, indoor set, air channel, horizontal wind guide strip assembly, magnetic valve C, tube connector, power line, off-premises station condensate pipe, off-premises station, elementary water tank, up liaison tube, supply-water pump, secondary water tank, magnetic valve A, descending liaison tube, magnetic valve B, liquid level sensor under secondary water tank, liquid level sensor on secondary water tank, liquid level sensor under evaporation water tank, liquid level sensor on evaporation water tank, liquid level sensor under elementary water tank, liquid level sensor on elementary water tank,

It is characterized in that:

Indoor damp-warm syndrome regulating system indoor section top is elementary water tank, and primary water lower box part connects indoor set,

Indoor set bottom connects evaporation water tank, and evaporation water lower box part connects secondary water tank;

Stream air duct, spiral case, snail tongue, air channel, horizontal wind guide strip assembly are in indoor set;

Air channel is scroll casing shape, and stream air duct is in scroll casing shape air channel, and stream air duct is cylindrical;

Water evaporative component comprises: support chip, absorbent material cover, absorbent material immersion base,

Evaporation water case comprises: evaporation water tank drainpipe, condensed water import,

Horizontal wind guide strip assembly comprises: horizontal wind guide strip, rotating shaft, support,

Water evaporative component is flake, and water evaporative component central authorities are support chips, and absorbent material cover is sleeved on support chip, and absorbent material cover bottom connects absorbent material immersion base;

Absorbent material immersion base is in evaporation water tank;

Water evaporative component is positioned at air channel place, and water evaporative component is parallel with two bottom surfaces of the cylindrical drum of stream air duct;

Horizontal wind guide strip connection bracket, support connection rotating shaft;

Evaporation water tank bottom is connected with evaporation water tank drainpipe, and evaporation water tank drainpipe is equipped with magnetic valve A;

Evaporation water tank drainpipe bottom is in secondary water tank;

Secondary water tank is built with supply-water pump, and supply-water pump connects up liaison tube, and up liaison tube pipe outlet is at primary water upper box part;

Secondary water upper box part inwall is equipped with liquid level sensor on secondary water tank, and secondary water lower box part inwall is equipped with liquid level sensor under secondary water tank;

Elementary water tank bottom connects descending liaison tube, and descending liaison tube end is equipped with magnetic valve B,

Primary water upper box part inwall is equipped with liquid level sensor on elementary water tank, and primary water lower box part inwall is equipped with liquid level sensor under elementary water tank,

Magnetic valve B end is in evaporation water tank;

Evaporation water box top is connected with condensed water import, and condensed water import connects off-premises station;

Evaporation water upper box part inwall be equipped with evaporation water tank on liquid level sensor, evaporation water lower box part inwall be equipped with evaporation water tank under liquid level sensor;

Off-premises station condensate pipe connects off-premises station.

2. indoor damp-warm syndrome regulating system as claimed in claim 1, is characterized in that: described water tank is plastic cistern.

3. indoor damp-warm syndrome regulating system as claimed in claim 1, it is characterized in that: on described elementary water tank, liquid level sensor is positioned at 4/5 place of elementary water tank height overall, under elementary water tank, liquid level sensor is positioned at 1/5 place of elementary water tank height overall.

4. indoor damp-warm syndrome regulating system as claimed in claim 1, it is characterized in that: under described secondary water tank, liquid level sensor is positioned at 1/5 place of secondary water tank height overall, on secondary water tank, liquid level sensor is positioned at 4/5 place of secondary water tank height overall.

5. indoor damp-warm syndrome regulating system as claimed in claim 1, is characterized in that: under described evaporation water tank, liquid level sensor is positioned at 1/5 place of evaporation water tank height overall, and on evaporation water tank, liquid level sensor is positioned at 4/5 place of evaporation water tank height overall.

6. indoor damp-warm syndrome regulating system as claimed in claim 1, is characterized in that: described absorbent material cover is phenolic foam plastic material.

7. indoor damp-warm syndrome regulating system as claimed in claim 1, is characterized in that: described absorbent material cover is flexible hollow fibrous material.

8. indoor damp-warm syndrome regulating system as claimed in claim 1, is characterized in that: described elementary water tank sidewall is equipped with magnetic valve C.

9. indoor damp-warm syndrome regulating system as claimed in claim 1, is characterized in that: described magnetic valve A and magnetic valve B is magnetic valve.

10. indoor damp-warm syndrome regulating system as claimed in claim 1, is characterized in that: off-premises station installation site is higher than indoor on-hook.