CN206319805U - Life bilayer ventilation glass device - Google Patents

Abstract

The utility model discloses one kind life with double-deck ventilation glass device, it is related to life air interchanger technical field.It includes the top mounting shell and bottom mounting shell of upper and lower ends, and the outer glass and interior glass of installation are sealed between top mounting shell and bottom mounting shell；Middle part is tiltedly installed with inlet duct in air cavity；Scavenger pump is installed in the mounting shell of top；Exhaust pump is installed in the mounting shell of bottom；Described inlet duct includes the transparent heat-conducting plate being obliquely installed；Airway and lower airway are provided with transparent heat-conducting plate；Transparent heat-conducting plate upper and lower surface is provided with equally distributed passage and connected respectively with upper airway and lower airway；Outer glass bottom is provided with external admission mouthful and connected with upper airway；Interior glass top is provided with interior air inlet and connected with lower airway.The beneficial effects of the utility model are：It is simple in construction, it is easy to operate, in scavenging period, the exchange of energy is realized, energy waste is reduced, scavenging period does not have the mixing of indoor and outdoor air, and ventilation effect is good.

Description

Life bilayer ventilation glass device

Technical field

The utility model is related to life air interchanger technical field.

Background technology

Either life or production activity in, it is often necessary to use air interchanger, room air be updated, to carry High degree of comfort, and common air interchanger, are directly discharged to outdoor, outdoor air enters directly into interior by indoor air Complete change gas, if indoor and outdoor gas temperature differential is larger, and it is in need maintenance indoor temperature when, this scavenging way cause compared with In big energy waste, scavenging period, without or few energy exchange, cause interior energy be directly lost to outdoor. In such as living, in winter Heating Period, every family is required for being frequently necessary to windowing ventilation, and directly opens a window and divulge information or using tradition Air interchanger then cause larger energy waste, indoor high-temperature gas is exhausted directly to outdoor energy and quickly scattered and disappeared, and outdoor is low Wet body is directly entered indoor, it is necessary to which consuming indoor energy carries out larger temperature raising.

Utility model content

Technical problem to be solved in the utility model, is to be used for above-mentioned technical deficiency there is provided one kind life Bilayer ventilation glass device.It is simple in construction, it is easy to operate, in scavenging period, the exchange of energy is realized, energy waste is reduced, Scavenging period does not have the mixing of indoor and outdoor air, and ventilation effect is good.

The technical solution adopted in the utility model is：A kind of life is provided with double-deck ventilation glass device, including up and down two The top mounting shell and bottom mounting shell at end, seal the outer glass and Nei Bo of installation between top mounting shell and bottom mounting shell Glass；Air cavity is formed between outer glass and interior glass；Middle part is tiltedly installed with inlet duct in air cavity；Inlet duct is by inside air cavity It is divided into the ventilation lumen on top and the discharge chamber of bottom, is not connected between ventilation lumen and discharge chamber；It is provided with the mounting shell of top Scavenger pump, the suction port of scavenger pump inside ventilation lumen with being connected, and output end is connected through top mounting shell with interior；Pacify bottom Exhaust pump is installed in dress shell, the suction port of exhaust pump is connected with discharge chamber, output end connects through bottom mounting shell with outdoor It is logical；Described inlet duct includes the transparent heat-conducting plate being obliquely installed；Transparent heat-conducting plate right-hand member is fixedly connected with interior glass top, Left end is fixedly connected with outer glass bottom；Airway and lower airway are provided with transparent heat-conducting plate, upper airway is in lower ventilation Above road；Transparent heat-conducting plate upper and lower surface is provided with equally distributed passage and connected respectively with upper airway and lower airway； Outer glass bottom is provided with external admission mouthful and connected with upper airway；Interior glass top is provided with interior air inlet and connected with lower airway；Outside Air filter plate is installed in air inlet；Interior air inlet interpolation is connected to screen pack in succession.

Further optimize the technical program, life be provided with the top mounting shell of double-deck ventilation glass device negative oxygen from Electronic generator, the output end of negative oxygen ion generator is connected with ventilation lumen.

Further optimize the technical program, life is installed with indoor one end of the top mounting shell of double-deck ventilation glass device There is tank；Vertical cavernous body is connected with tank, cavernous body bottom is contacted with the water in tank, output end and the sea of scavenger pump Continuous body phase correspondence.

Further optimize the technical program, to live and be connected to diffused reflection with the double-deck lower ventilation trace interpolation for taking a breath glass device Film.

The utility model is compared with conventional ventilation device, and its advantage is：

1st, the circulation for realizing gas by exhaust pump and scavenger pump is exchanged, and heat exchange is carried out in air cavity, energy is reduced Direct losses, it is ensured that scavenging efficiency, energy-conserving and environment-protective.Indoor gas is entered in discharge chamber by lower airway, outdoor gas Body enters ventilation lumen after air filter plate is filtered by upper airway, carries out heat conduction by heat conductive transparent plate, will be vented Gas in gas and ventilation lumen in chamber carries out heat conduction, and the outdoor gas in ventilation lumen is pumped into room by scavenger pump afterwards Interior, the indoor gas in discharge chamber is extracted into outdoor by exhaust pump, completes the exchange of a gas and energy, and screen pack can be reduced greatly Particle rubbish or flying object enter discharge chamber, compared with the air interchanger that tradition is directly vented, can save the energy, effectively utilize Energy in ventilation, directing out for reduction energy is lost, while reducing ambient atmos enters fashionable and indoor energy difference；

2nd, negative oxygen ion generator can improve the quality of ventilation, be conducive to healthy；

3rd, the output end of scavenger pump is relative with cavernous body, in scavenging period, and the gas got in can be played necessarily Humidification, improve indoor air humidity.It is simple in construction, utilize the energy in normal work；

4th, when needing to reduce the light energy got in, it can be reduced in lower ventilation trace interpolation access diffused reflection film Ambient light, while diffused reflection film avoids the reflected in parallel of light, reduces light pollution according to interior is emitted directly toward.

Brief description of the drawings

Fig. 1 is structural representation of the present utility model；

Fig. 2 is another visual angle transparent configuration schematic diagrames of Fig. 1；

Fig. 3 is the utility model planar structure schematic diagram；

Fig. 4 is the utility model diffused reflection membrane structure schematic diagram；

Fig. 5 is the utility model circuit diagram；

In figure, 1, top mounting shell；2nd, bottom mounting shell；3rd, outer glass；4th, interior glass；5th, air cavity；6th, ventilation lumen；7th, arrange Air cavity；8th, scavenger pump；9th, exhaust pump；10th, transparent heat-conducting plate；11st, upper airway；12nd, lower airway；13rd, passage；14th, it is outer Air inlet；15th, interior air inlet；16th, air filter plate；17th, negative oxygen ion generator；18th, tank；19th, cavernous body；20th, astigmatism Reflectance coating；21st, screen pack.

Embodiment

The utility model is described in further detail with reference to the accompanying drawings and detailed description.

As Figure 1-5, life double-deck ventilation glass device, including the top mounting shell 1 of upper and lower ends and bottom peace Shell 2 is filled, the outer glass 3 and interior glass 4 of installation are sealed between top mounting shell 1 and bottom mounting shell 2；Outer glass 3 and interior glass 4 Between formed air cavity 5；Middle part is tiltedly installed with inlet duct in air cavity 5；Inlet duct will be divided into changing for top inside air cavity 5 Air cavity 6 and the discharge chamber of bottom 7, are not connected between ventilation lumen 6 and discharge chamber 7；Scavenger pump 8 is installed in top mounting shell 1, changed The suction port of air pump 8 is connected with the inside of ventilation lumen 6, and output end is connected through top mounting shell 1 with interior；Bottom mounting shell 2 Exhaust pump 9 is inside installed, the suction port of exhaust pump 9 is connected with discharge chamber 7, output end connects through bottom mounting shell 2 with outdoor It is logical；Described inlet duct includes the transparent heat-conducting plate 10 being obliquely installed；The transparent right-hand member of heat-conducting plate 10 is fixed with the interior top of glass 4 Connection, left end is fixedly connected with the outer bottom of glass 3；Airway 11 and lower airway 12 are provided with transparent heat-conducting plate 10, it is upper logical Air flue 11 is in the lower top of airway 12；The transparent upper and lower surface of heat-conducting plate 10 is provided with equally distributed passage 13 and led to respectively with upper Air flue 11 is connected with lower airway 12；The outer bottom of glass 3 is provided with external admission mouthful 14 and connected with upper airway 11；The interior top of glass 4 Interior air inlet 15 is provided with to connect with lower airway 12；Air filter plate 16 is installed in external admission mouthful 14；The interior interpolation of air inlet 15 Screen pack 21 is connected in succession；Negative oxygen ion generator 17, the output end of negative oxygen ion generator 17 are installed in top mounting shell 1 Connected with ventilation lumen 6；Indoor one end of top mounting shell 1 is provided with tank 18；Vertical cavernous body 19 is connected with tank 18, The bottom of cavernous body 19 is contacted with the water in tank 18, and the output end of scavenger pump 8 is corresponding with cavernous body 19；The lower interpolation of airway 12 It is connected to diffused reflection film 20.

The present embodiment by indoor temperature be higher than outdoor temperature in case of be described, i.e., winter heating when, utilize heat The principle that air rises improves heat exchange efficiency, and temperature has a certain upgrade when getting in outdoor air.Due to inlet duct Air cavity 5 is divided into discharge chamber 7 and ventilation lumen 6, the work of exhaust pump 9 and scavenger pump 8 makes to be formed in discharge chamber 7 and ventilation lumen 6 Negative pressure drives the flowing of gas, and the higher gas of indoor temperature is pumped into discharge chamber 7 by exhaust pump 9, and room air was sequentially passed through Filter screen 21, lower airway 12, passage 13 are entered in discharge chamber 7, meanwhile, scavenger pump 8 takes out the relatively low air of outdoor temperature Enter into ventilation lumen 6, outdoor air sequentially passes through air filter plate 16, upper airway 11, passage 13 and enters ventilation lumen 6 Interior, gas temperature is higher in discharge chamber 7, and heat is delivered in ventilation lumen 6 by transparent heat-conducting plate 10, to the sky in ventilation lumen 6 Gas enters trip temperature lifting.Now, the air after heat exchange occurs in temperature change, discharge chamber 7, under the air of top temperature reduction Drop, bottom heat onward to while the higher gas of temperature ramp up, keep the air themperature of the lower section of transparent heat-conducting plate 10 In higher state, be conducive to temperature to be communicated up, in ventilation lumen 6, the air of the heated heating in bottom rises, upper temp compared with Low air drop, makes the upper air temperature of transparent heat-conducting plate 10 be in relatively low state, temperature difference is conducive to the biography of temperature Pass.Temperature higher gas in top is pumped into interior by scavenger pump 8, and outdoor cold air continues to enter from upper airway 11 to change The lower section of air cavity 6；Temperature relatively low gas in lower section is discharged to outdoor by aspiration pump, and indoor hot-air need to only enter from lower airway 12 Enter into discharge chamber 7 top.The work period of scavenger pump 8 and exhaust pump 9 can be time-continuing process at a slow speed, to ensure that temperature is exchanged Time, or intermittent work.

Can be in the connected modes such as Nian Jie or increase screw connection, tank 18 between tank 18 and top mounting shell 1 There is water, when needed, the bottom of cavernous body 19 is dipped into the water of tank 18, when gas is extracted into interior by scavenger pump 8, you can By the humidification of moisture in cavernous body 19, the air humidity of interior is improved to a certain extent.

The use of diffused reflection film 20 can be when summer, outside air temperature be higher, to avoid intense direct illumination from entering interior, then A large amount of scattering illuminations can be gone out in the lower interpolation of airway 12 access diffused reflection film 20, shadow of the reduction illumination to indoor temperature Ring, while when the utility model can also be used for summer, indoor temperature is less than ventilation during outdoor temperature.When indoor temperature is relatively low When, then lower section send the air themperature in discharge chamber 7 relatively low, it is impossible to use the principle that the higher gas of temperature rises, realization More preferable faster temperature exchange, but when can not have extension temperature exchange by the intermittent work of scavenger pump 8 and exhaust pump 9 Between, or in the heat-transfer device of both sides increase vertical direction, heat conduction path is improved, while not influenceing sight installed in both sides, you can.

In accompanying drawing, partially transparent structure does not do transparent processing, it is to avoid lines confusion is unintelligible.

Claims (4)

1. one kind life bilayer ventilation glass device, it is characterised in that：Top mounting shell including upper and lower ends（1）And bottom Mounting shell（2）, top mounting shell（1）With bottom mounting shell（2）Between seal the outer glass of installation（3）With interior glass（4）；Outer glass Glass（3）With interior glass（4）Between form air cavity（5）；Air cavity（5）Interior middle part is tiltedly installed with inlet duct；Inlet duct is by gas Chamber（5）Inside is divided into the ventilation lumen on top（6）With the discharge chamber of bottom（7）, ventilation lumen（6）With discharge chamber（7）Between do not connect It is logical；Top mounting shell（1）Scavenger pump is inside installed（8）, scavenger pump（8）Suction port and ventilation lumen（6）Inside connection, output Hold through top mounting shell（1）Connected with indoor；Bottom mounting shell（2）Exhaust pump is inside installed（9）, exhaust pump（9）Pumping Port and discharge chamber（7）Connection, output end passes through bottom mounting shell（2）Connected with outdoor；

Described inlet duct includes the transparent heat-conducting plate being obliquely installed（10）；Transparent heat-conducting plate（10）Right-hand member and interior glass（4） Top is fixedly connected, left end and outer glass（3）Bottom is fixedly connected；Transparent heat-conducting plate（10）Inside it is provided with airway（11）With under Airway（12）, upper airway（11）In lower airway（12）Top；Transparent heat-conducting plate（10）Upper and lower surface is provided with uniform point The passage of cloth（13）Respectively with upper airway（11）With lower airway（12）Connection；Outer glass（3）Bottom is provided with external admission mouthful （14）With upper airway（11）Connection；Interior glass（4）Top is provided with interior air inlet（15）With lower airway（12）Connection；External admission Mouthful（14）Air filter plate is inside installed（16）；Interior air inlet（15）Interpolation is connected to screen pack in succession（21）.

2. life according to claim 1 bilayer ventilation glass device, it is characterised in that：Top mounting shell（1）Interior peace Equipped with negative oxygen ion generator（17）, negative oxygen ion generator（17）Output end and ventilation lumen（6）Connection.

3. life according to claim 1 bilayer ventilation glass device, it is characterised in that：Top mounting shell（1）Room Interior one end is provided with tank（18）；Tank（18）On be connected with vertical cavernous body（19）, cavernous body（19）Bottom and tank （18）Interior water contact, scavenger pump（8）Output end and cavernous body（19）It is corresponding.

4. life according to claim 1 bilayer ventilation glass device, it is characterised in that：Lower airway（12）Interior grafting There is diffused reflection film（20）.