CN205957442U - Full heat exchanger of air purification type suspension type - Google Patents

Abstract

The utility model provides a full heat exchanger of air purification type suspension type, including box and energy recuperation core to injectd and be located the first cavity and the second cavity of energy recuperation core both sides, first cavity includes by separated fresh air cavity of baffle and exhaust cavity, fresh air cavity is provided with outdoor new trend entry and air inlet valve, exhaust cavity is provided with outdoor export and the valve for air exhaust of airing exhaust, be provided with intercommunication mouth and wind channel valve on the baffle for intercommunication / isolated fresh air cavity with exhaust cavity, be close to in the fresh air cavity one side of energy recuperation core is provided with the filter screen subassembly, the second cavity is provided with indoor new trend and exports and the indoor entry of airing exhaust, and with indoor new trend export with indoor entry new fan of matched with and the exhaust fan of airing exhaust.

Description

Air purification type ceiling mounting type total-heat exchanger

Technical field

This utility model is related to total-heat exchanger field, more particularly, to a kind of air purification type ceiling mounting type total-heat exchanger.

Background technology

Pollution with atmospheric environment is increasingly severe, and various air cleaning facilities are widely applied, wherein typical case Product guarantee replacement two kinds：Air purifier and suspended-ceiling-type high-efficient purify total-heat exchanger.The cardinal principle of air purifier is profit With blower fan, indoor air circulation is passed through special filter screen, with reach absorption or decompose indoor in the air harmful substance, obtain clean The purpose of net air.The Main Function of air purifier is the air purifying indoor pollution, is applied to single room.Ceiling mounting type is high Effect purifies total-heat exchanger in addition to possessing the basic function of energy regenerating, ventilation, and typically built-in efficient filter has simultaneously There is following function：Filter the fresh air that outdoor is polluted by PM2.5, to reach during introducing fresh air, realize purification Purpose, is applied to a whole set of house (multiple room).In order to purify the air of a room, people need to buy air purifier, each room Between be required for individually being equipped with one.According to current technology, in order to process the indoor air environment in a whole set of house, need to be equipped with simultaneously Multiple stage air purifier, is economically not only not calculate very much, and takies the interior space.

Therefore, those skilled in the art is devoted to air cleaner is attached in ceiling mounting type total-heat exchanger, this Sample just can realize the dual function with air cleaning of divulging information simultaneously, thus also brings machine system, wind path valve controls system The exploitation of aspect and the improvement such as system, air quantity equalization problem, energy recovery efficiency and purification efficiency.

Utility model content

For realizing the Optimal improvements for machine system, it is entirely hot that this utility model provides a kind of air purification type ceiling mounting type Exchanger, including casing and energy regenerating core, and defines the first chamber and second positioned at described energy regenerating core both sides Chamber；Described first chamber includes the fresh air chamber being separated by dividing plate and air draft chamber, and described fresh air chamber is provided with outdoor fresh air and enters Mouthful and air intake valve, described air draft chamber is provided with outdoor wind exhausting outlet and valve for air exhaust, described dividing plate is provided with connected entrance and Air channel valve, for connecting/completely cutting off described fresh air chamber and described air draft chamber；Described fresh air intracavity is near described energy regenerating core Side is provided with net-filter assembly；Described second chamber be provided with indoor fresh air outlet and indoor exhaust wind entrance, and with described room New blower fan and exhaust blower that interior fresh air outlet matches with described indoor exhaust wind entrance.

Further, described energy regenerating core has rectangle heat exchange section, the height of described casing and rectangle heat exchange Section minor face matches.

Further, described new blower fan and described exhaust blower are arranged on the different chamber separating in described second chamber In, thus can be formed successively through described indoor exhaust wind entrance, described exhaust blower, described energy regenerating core, described air draft chamber and The air draft path of described outdoor wind exhausting outlet, and return through described outdoor fresh air entrance, described net-filter assembly, described energy successively Receive core, described new blower fan, the fresh air path of described indoor fresh air outlet.

Further, described air intake valve, described valve for air exhaust and described air channel valve are respectively by respective driving means Drive.

Further, the keying of described air intake valve, described valve for air exhaust and described air channel valve is all using Motor drive Valve block rotates to be realized.

In the case of ensureing that inner air and outer air is unmixed, above-mentioned total-heat exchanger can change air exhaust passage air-flow to new Wind passage, but need 3 independent Valve controlling air switch just can accomplish.Therefore, circuit needs to control 3 valve electricity The rotation of machine, so can cause system complex, unstable, and fault rate is higher；Meanwhile, manufacturing cost and after service cost Higher level can be in.

Therefore, this utility model additionally provides a kind of more simplification and practical total-heat exchanger wind path valve control system System, described total-heat exchanger includes energy regenerating core, and the side of described energy regenerating core includes the fresh air chamber being separated by dividing plate And air draft chamber, the fresh air valve block that described fresh air chamber is provided with outdoor fresh air entrance and opens and closes described outdoor fresh air entrance, described The air draft valve block that air draft chamber is provided with outdoor wind exhausting outlet and opens and closes described outdoor wind exhausting outlet, the company of being provided with described dividing plate Port and the air channel valve block opening and closing described connected entrance；Described fresh air valve block, described air channel valve block, the valve shaft of described air draft valve block It is connected, thus synchronous axial system can be driven by same driving means.

Further, described fresh air valve block, described air channel valve block, described air draft valve block valve shaft coaxially connected.

Further, described fresh air valve block, described air channel valve block, described air draft valve block share same valve shaft.

Further, the valve shaft that described fresh air valve block, described air channel valve block, described air draft valve block share is horizontally disposed with.

Further, described air channel valve block is each held by being arranged on described fresh air valve block, described air draft valve block respectively The gear engagement in portion connects.

Further, described driving means adopt motor, and described motor arranges described fresh air chamber or described row Wind chamber.

On the other hand, when increasing net-filter assembly in fresh air side, resh air requirement and exhaust air rate can be led to uneven, thus affecting energy Amount organic efficiency and house purifying efficiency.

Therefore, this utility model additionally provides a kind of high-efficiency purifying total-heat exchanger, including casing and energy regenerating core, And define the first chamber positioned at described energy regenerating core both sides and second chamber；Described first chamber includes separating Fresh air chamber and air draft chamber, described fresh air chamber is provided with outdoor fresh air entrance, and described air draft chamber is provided with outdoor wind exhausting outlet；Described Fresh air intracavity is provided with net-filter assembly near the side of described energy regenerating core；Described second chamber is provided with indoor fresh air outlet With indoor exhaust wind entrance, and with the outlet of described indoor fresh air and the new blower fan that matches of described indoor exhaust wind entrance and air draft Machine；In described second chamber, the side of described energy regenerating core is provided with booster cavity, described booster cavity and described exhaust blower Outlet is connected, thus can be formed returning through described indoor exhaust wind entrance, described exhaust blower, described booster cavity, described energy successively Receive the air draft path of core, described air draft chamber and described outdoor wind exhausting outlet.

Further, described energy regenerating core has rectangle heat exchange section, the height of described casing and rectangle heat exchange Section minor face matches.

Further, the bottom of described energy regenerating core is provided with core body bottom cavity, described core body bottom cavity and described booster cavity It is connected, thus can be formed successively through described indoor exhaust wind entrance, described exhaust blower, described booster cavity, described core body bottom cavity, institute State the air draft path of energy regenerating core, described air draft chamber and described outdoor wind exhausting outlet.

Further, the top of described energy regenerating core is provided with core body top chamber, described core body top chamber and described air draft chamber Be connected, thus can be formed successively through described indoor exhaust wind entrance, described exhaust blower, described booster cavity, described energy regenerating core, The air draft path in described core body top chamber, described air draft chamber and described outdoor wind exhausting outlet.

Preferably, the bottom of described energy regenerating core and top are respectively arranged with core body bottom cavity and core body top chamber, described core Body top chamber is connected with described air draft chamber, thus can be formed successively through described indoor exhaust wind entrance, described exhaust blower, described supercharging Chamber, described core body bottom cavity, described energy regenerating core, described core body top chamber, described air draft chamber and described outdoor wind exhausting outlet Air draft path.

Further, separate in described first chamber and be provided with connected entrance on described fresh air chamber and the dividing plate of described air draft chamber And air channel valve, for connecting/completely cutting off described fresh air chamber and described air draft chamber.

Technique effect：

Air purification type ceiling mounting type total-heat exchanger of the present utility model meets general ceiling mounting type total-heat exchanger function Meanwhile, indoor and outdoor air can be purified, save the extraneous expense buying air purifier for each room.Simultaneously blower fan and The integral layout of each chamber contributes to, when realizing function of purifying indoor air, providing bigger CADR value (Clean air delivery rate)； Compare the energy regenerating core in square heat exchange section and its diagonal is disposed vertically, the energy in the rectangle heat exchange section of horizontal positioned Amount recovery core can effectively reduce whole machine height and layout is more compact.

Total-heat exchanger wind path valve control system of the present utility model, can control one group of valve block by a motor, One action of execution can achieve and changes air exhaust passage air-flow to fresh air channel, and avoids inside and outside air-flow mixing.Decrease electricity The quantity of machine, simplifies control system, improves stability and the reliability of system, reduces manufacturing cost simultaneously.

High-efficiency purifying total-heat exchanger of the present utility model, makes air-supply and exhaust resistance trend towards balancing, is conducive to carrying High-energy organic efficiency and purification efficiency；Compare the energy regenerating core in square heat exchange section and its diagonal is disposed vertically, water The energy regenerating core in the rectangle heat exchange section of placing flat can effectively reduce whole machine height and layout is more compact.

Below with reference to accompanying drawing, the technique effect of design of the present utility model, concrete structure and generation is made furtherly Bright, to be fully understood from the purpose of this utility model, feature and effect.

Brief description

Fig. 1 is a kind of structural representation of total-heat exchanger of the present utility model；

The structural representation at another visual angle of total-heat exchanger in Fig. 1 in Fig. 2；

Fig. 3 is the schematic diagram that in Fig. 1, total-heat exchanger realizes air flow path during indoor air purification；

Fig. 4 be along along Fig. 1 A-A to generalized section, show the wind path valve control system in casing.

Description of reference numerals：

101 casings；102 new blower fans；103 indoor fresh air outlets；104 indoor exhaust wind entrances；105 air drafts Machine；106 energy regenerating cores；107 core body bottom cavity；108 net-filter assemblies；109 fresh air chambeies；110 outdoor fresh air entrances； 1101 fresh air valve blocks；111 outdoor wind exhausting outlets；1111 air draft valve blocks；112 air draft chambers；113 core body tops chamber； 114 exhaust blower booster cavities；115 dividing plates；116 air channel valves；1161 air channel valve blocks；117 valve shafts；118 steppings Motor.

Specific embodiment

In the description of embodiment of the present utility model it is to be understood that term " on ", D score, "front", "rear", The orientation of instruction or the position such as "left", "right", " vertical ", " level ", " top ", " bottom ", " interior ", " outward ", " clockwise ", " counterclockwise " The relation of putting is based on orientation shown in the drawings or position relationship, is for only for ease of description this utility model and simplifies description, and It is not instruction or the hint device of indication or element must have specific orientation, with specific azimuth configuration and operation, therefore It is not intended that to restriction of the present utility model.Accompanying drawing is schematic diagram or concept map, the pass between each several part thickness and width System, and the proportionate relationship between each several part etc., not completely the same with its actual value.

Fig. 1 and Fig. 2 is based on a kind of structural representation of total-heat exchanger of the present utility model, including casing 101 and energy Amount reclaims core 106, and energy regenerating core 106 is arranged substantially in the middle part of casing 101, and energy regenerating core 106 left side casing is arranged Indoor fresh air outlet 103 and indoor exhaust wind entrance 104, and fresh air outlet indoors 103 and other point of indoor exhaust wind entrance 104 It is not provided with the new blower fan 102 being separated by dividing plate and exhaust blower 105.Connect exhaust blower booster cavity in the exit of exhaust blower 105 114.

It is provided with the fresh air chamber 109 being separated by dividing plate 115 and air draft chamber 112 in energy regenerating core 106 right side casing, and And outdoor fresh air entrance 110 and the valve being opened and closed, the casing of air draft chamber 112 are provided with the wall box in fresh air chamber 109 Outdoor wind exhausting outlet 111 and the valve being opened and closed are provided with the wall of side, dividing plate 115 is provided with connected entrance and air channel valve 116, For connecting/completely cutting off fresh air chamber 109 and air draft chamber 112.It is additionally provided with filter screen at energy regenerating core 106 in fresh air chamber 109 Assembly 108, for filtering and purifying the air passing through.

The bottom of energy regenerating core 106 and top are respectively provided with core body bottom cavity 107 and core body top chamber 113, core body bottom cavity 107 are connected with exhaust blower booster cavity 114, and core body top chamber 113 is connected with air draft chamber 112.

When the total-heat exchanger in the present embodiment is used for indoor and outdoor ventilation use, open outdoor fresh air entrance 110 and room The valve of outer wind exhausting outlet 111 makes them connect with outdoor, close air channel valve 116 make fresh air chamber 109 and air draft chamber 112 every Absolutely.Foul indoor air is sucked by exhaust blower 105 through indoor exhaust wind entrance 104, sequentially enters exhaust blower booster cavity after blowout 114th, core body bottom cavity 107, energy regenerating core 106, core body top chamber 113, air draft chamber 112, after discharge through outdoor wind exhausting outlet 111 To outdoor.Meanwhile, new blower fan 102 sucks air and forms negative pressure, and outdoor air enters fresh air chamber 109 by outdoor fresh air entrance 110, Purify through net-filter assembly 108 successively again and energy regenerating core 106 energy absorption after, exported by indoor fresh air by new blower fan 102 103 send into interior.Thus it is achieved that purification for air from the outside into the room while completing to take a breath.

When the total-heat exchanger in the present embodiment is used for indoor air purification use, close outdoor fresh air inlet 110 He The valve of outdoor wind exhausting outlet 111 makes they and outdoor isolation, and opening air channel valve 116 makes fresh air chamber 109 and air draft chamber 112 even Logical.Foul indoor air is sucked by exhaust blower 105 through indoor exhaust wind entrance 104, sequentially enters exhaust blower booster cavity after blowout 114th, core body bottom cavity 107, energy regenerating core 106, core body top chamber 113, air draft chamber 112, and the connection opened on dividing plate 115 Mouth enters fresh air chamber 109.Meanwhile, new blower fan 102 sucks the foul indoor air entering fresh air chamber 109 so as to successively through filter screen Assembly 108 purify and energy regenerating core 106 after, indoor, whole process is sent into by indoor fresh air outlet 103 by new blower fan 102 Air flow path as shown in figure 3, it is achieved thereby that purification to room air.

The energy regenerating core 106 of the total-heat exchanger of the present embodiment adopt rectangle heat exchange section, its be directed to traditional just The energy regenerating core in square heat exchange section, in the case of heat exchange area identical, compresses heat exchange section bond length, increases heat exchange The long edge lengths in section, and horizontal positioned；Compare the energy regenerating core in square heat exchange section and its diagonal is disposed vertically, level The energy regenerating core in the rectangle heat exchange section placed can effectively reduce the height of casing 101 and layout is more compact.

Additionally, arranging net-filter assembly on the outdoor air intake path of the total-heat exchanger of traditional structure, resh air requirement can be led to Uneven with exhaust air rate, thus affecting energy recovery efficiency and house purifying efficiency, thus need to try one's best reducing the resistance of fresh air crosswind Power, increasing exhaust crosswind resistance, so can balance because increase net-filter assembly cause fresh air crosswind resistance excessive, what air quantity diminished asks Topic.Based on this, the path of air draft indoors in the present embodiment has set gradually exhaust blower booster cavity 114, core body bottom cavity 107, Core body top chamber 113, so that room air is from indoor exhaust wind entrance 104 to outdoor wind exhausting outlet 111, airflow direction change is many Secondary, resistance increases；And outdoor air is sent to indoor fresh air outlet 103 from outdoor fresh air entrance 110, airflow direction does not have substantially Change, resistance is less, being so achieved that air-supply and exhaust resistance trend towards balancing, and is conducive to improving energy recovery efficiency and net Change efficiency.

Because the total-heat exchanger in the present embodiment is in its functional realiey, need to control outdoor fresh air inlet 110 respectively With the valve of outdoor wind exhausting outlet 111, and air channel valve 116.If be respectively adopted 3 too valve driving machines drive, can cause be System is complicated, and unstable, and cost is also higher simultaneously.For this reason, the control system for this valve at three is further improved.As figure Shown in 4, air draft valve block 1111, air channel valve block 1161, fresh air valve block 1101 are respectively used to open and close outdoor wind exhausting outlet 111, dividing plate Connected entrance on 115 and outdoor fresh air entrance 110, and air draft valve block 1111, air channel valve block 1161, fresh air valve block 1101 adopt Same valve shaft 117, now dividing plate 115 include a horizontally disposed segmentation, air channel valve block 1161 is arranged on that segment, thus Dividing plate 115 is worn in valve shaft 117 insertion, is simultaneously connected with the fresh air valve block 1101 on fresh air chamber 109, the air draft valve block in air draft chamber 112 1111, and air channel valve block 1161.Motor 118 in fresh air chamber 109 for one end connect setting of valve shaft 117, thus can By a motor, i.e. motor 118, to simultaneously drive air draft valve block 1111, air channel valve block 1161 and fresh air valve block 1101.

It should be noted that the valve shaft 117 in the present embodiment is an integrally formed major axis, it is equally possible that adopting With by air draft valve block 1111, air channel valve block 1161, fresh air valve block 1101 respectively corresponding valve shaft do coaxially connected come to reach with The technique effect of sample.To realize the linkage between 3 valve blocks even through gear drive, with air draft valve block 1111 and air channel valve block As a example 1161 transmission, can be engaged by gear thus being attached both in an end device gear of both valve shafts, with Realize the purpose of linkage.

The total-heat exchanger of the present embodiment can purify indoor and outdoor air, save and buy air cleaning for each room The extraneous expense of device；Integral layout makes air-supply and exhaust resistance trend towards balancing, and is conducive to improving energy recovery efficiency and purification Efficiency；Two fans drive and can provide bigger CADR value (Clean air delivery rate)；And can control one group by a motor Valve block, one action of execution can achieve and changes air exhaust passage air-flow to fresh air channel, and avoids inside and outside air-flow mixing, reduces The quantity of motor, simplifies control system, improves stability and the reliability of system, reduces manufacturing cost simultaneously；Level is put The energy regenerating core in the rectangle heat exchange section put effectively reduces whole machine height and compactness, is suitable to installation of ceiling.

Preferred embodiment of the present utility model described in detail above.It should be appreciated that the ordinary skill people of this area Member just can make many modifications and variations according to design of the present utility model without creative work.Therefore, all this technology necks In domain, technical staff passes through logical analyses, reasoning or limited reality on the basis of existing technology according to design of the present utility model Test available technical scheme, all should be in the protection domain being defined in the patent claims.

Claims (5)

1. a kind of air purification type ceiling mounting type total-heat exchanger is it is characterised in that include casing and energy regenerating core, and limits It is located at first chamber and the second chamber of described energy regenerating core both sides；Described first chamber include by dividing plate separate new Wind chamber and air draft chamber, described fresh air chamber is provided with outdoor fresh air entrance and air intake valve, and described air draft chamber is provided with outdoor air draft Outlet and valve for air exhaust, described dividing plate is provided with connected entrance and air channel valve, for connecting/completely cutting off described fresh air chamber and described Air draft chamber；Described fresh air intracavity is provided with net-filter assembly near the side of described energy regenerating core；Described second chamber is provided with Indoor fresh air outlet and indoor exhaust wind entrance, and new with what the outlet of described indoor fresh air and described indoor exhaust wind entrance matched Blower fan and exhaust blower.

2. air purification type ceiling mounting type total-heat exchanger as claimed in claim 1 is it is characterised in that described energy regenerating core has There is rectangle heat exchange section, the height of described casing is matched with rectangle heat exchange section minor face.

3. air purification type ceiling mounting type total-heat exchanger as claimed in claim 1 is it is characterised in that described new blower fan and described Exhaust blower is arranged in the different chamber separating in described second chamber, thus can be formed enter through described indoor exhaust wind successively Mouth, described exhaust blower, the air draft path of described energy regenerating core, described air draft chamber and described outdoor wind exhausting outlet, Yi Jiyi Secondary through described outdoor fresh air entrance, described net-filter assembly, described energy regenerating core, described new blower fan, described indoor fresh air outlet Fresh air path.

4. air purification type ceiling mounting type total-heat exchanger as claimed in claim 1 is it is characterised in that described air intake valve, institute State valve for air exhaust and described air channel valve is driven by respective driving means respectively.

5. air purification type ceiling mounting type total-heat exchanger as claimed in claim 4 is it is characterised in that described air intake valve, institute State valve for air exhaust and the keying of described air channel valve all rotates realization using Motor drive valve block.