CN109708241A - New blower - Google Patents

Abstract

The present invention discloses a kind of new blower, comprising: shell, shell include top shell and cover board, and the bottom wall of top shell opens wide, and cover board is located at the bottom wall of top shell, and top shell has opposite the first side wall and second sidewall；Heat exchanger core, heat exchanger core is located in the shell and both ends of heat exchanger core and contacts the first cabling channel for being formed with the length direction extension along the first side wall on the lower end surface of the part corresponding with heat exchanger core of the first side wall the intracorporal space of shell is separated into mutually independent first chamber and second chamber with the first side wall and second sidewall respectively；First blower；Electric-controlled box；Second blower, the second blower include the second wind wheel and the second motor, and the second motor lines of the second motor protrude into the first cabling channel from second chamber and are partially received in the first cabling channel and are connected to electric-controlled box from the second motor lines of part that the first cabling channel stretches out.New blower according to the present invention avoids the interference that the second motor lines generate other structures, improves the reliability of new blower.

Description

New blower

Technical field

The present invention relates to living electric apparatus fields, more particularly, to a kind of new blower.

Background technique

In the related technology, new blower generally comprises return air fan and fresh-air fan, for convenience to return air fan and fresh air Connection between the motor lines and electric-controlled box of blower generally requires the motor lines by one of blower directly through heat exchange Core.However, when the motor lines of one of blower are directly through heat exchanger core, since the motor lines are located at heat exchanger core and shell Between the inner wall of body, it is easy to generate interference to other structures of new blower, is easy to cause at motor line position and leaks out, new blower Reliability reduce.

Summary of the invention

The present invention is directed at least solve one of the technical problems existing in the prior art.For this purpose, one object of the present invention It is to propose that a kind of new blower, fresh air machine have improved first cabling slot structure, avoids the second motor lines and others are tied The interference that structure generates avoids Air Leakage, while the first cabling channel can also play positioning and protect the work of the second motor lines With improving the reliability of new blower.

New blower according to an embodiment of the present invention, comprising: shell, the shell include top shell and cover board, the top shell Bottom wall opens wide, and the cover board is located at the bottom wall of the top shell, and the top shell has opposite the first side wall and second sidewall；Heat is handed over Change core, the heat exchanger core be located in the shell and the both ends of the heat exchanger core respectively with the first side wall and described the Two side walls are contacted so that the intracorporal space of the shell is separated into mutually independent first chamber and second chamber, the first side wall Part corresponding with the heat exchanger core lower end surface on be formed with along the first side wall length direction extension first Cabling channel；First blower, first blower are located in the first chamber, and first blower includes the first wind wheel and first Motor, the first motor is for driving first wind wheel to rotate；Electric-controlled box, the electric-controlled box is set to the shell, described Electric-controlled box is located at the ipsilateral of the heat exchanger core with first blower, and the first motor line of the first motor is not by way of described Heat exchanger core and it is connected to the electric-controlled box；Second blower, second blower are located in the second chamber, second wind Machine includes the second wind wheel and the second motor, and second motor is used to that second wind wheel to be driven to rotate, second motor Second motor lines protrude into first cabling channel from the second chamber and are partially received in first cabling channel and from described Part second motor lines that first cabling channel stretches out are connected to the electric-controlled box.

New blower according to an embodiment of the present invention, the lower end of the part corresponding with heat exchanger core by making the first side wall Be formed with the first cabling channel on face, the second motor lines from second chamber protrude into the first cabling channel after along the first cabling channel extension Direction is routed and is contained in the first cabling channel, then stretches out the first cabling channel and is connected with electric-controlled box, without directly through heat It exchanges core and avoids Air Leakage, while the first cabling so as to avoid the interference that the second motor lines generate other structures Slot can also play the role of the second motor lines of positioning and protection, improve the reliability of new blower.

According to some embodiments of the present invention, institute is protruded into from part second motor lines that first cabling channel stretches out It states in first chamber and is connected to the electric-controlled box with first motor congruence conjunction.

According to some embodiments of the present invention, the electric-controlled box is located at the outside of the shell and is located at the second sidewall On, second motor lines and the first motor line pass through the second sidewall and are connected to the electric-controlled box.

According to some embodiments of the present invention, screen support plate, screen support plate edge are equipped in the first chamber The septal direction of the first side wall and the second sidewall extends, and the screen support plate is equipped with the second cabling channel, from institute Part second motor lines for stating the stretching of the first cabling channel are partially received in second cabling channel.

According to some embodiments of the present invention, the inner wall of second cabling channel is equipped with locating button, and the locating button is used It is located at part second motor lines of second cabling channel in positioning.

According to some embodiments of the present invention, the locating button includes: two positioning plates for being spaced apart setting, each described One end of positioning plate is connected to the inner wall of second cabling channel；The connecting plate of arc, the both ends of the connecting plate of arc respectively with The free end of two positioning plates, which is connected, to be limited jointly with the inner wall with second cabling channel for second motor lines The located space passed through.

According to some embodiments of the present invention, the inner sidewall of first cabling channel is equipped with lug boss to be used for sprocket bit In the part of first cabling channel second motor lines.

According to some embodiments of the present invention, the top shell includes: the air duct side plate of outer housing and annular, the air duct side Plate is located on the inner sidewall of the outer housing, and the heat exchanger core is located in the air duct side plate, the both ends of the heat exchanger core It is connected respectively with the opposing sidewalls of the air duct side plate, first cabling channel is formed on the lower end surface of the air duct side plate, The part part between first cabling channel and the outer housing of the air duct side plate is inwardly projecting to limit State lug boss.

According to some embodiments of the present invention, enclosing for the top shell sets the lower end surface of the side wall of the second chamber and is equipped with Third cabling channel, one end of the third cabling channel are connected with first cabling channel, the other end of the third cabling channel Neighbouring second motor is arranged, and second motor lines protrude into institute after protruding into the third cabling channel from the second chamber again State the first cabling channel.

According to some embodiments of the present invention, the inner sidewall of the third cabling channel is equipped with for positioning second electricity The positioning protrusion of machine line.

According to some embodiments of the present invention, it is equipped with air duct part in the second chamber, is formed on the air duct part new Wind air intake passage, the shell are equipped with fresh inlet, and the air duct part is connected to the heat exchanger core and the fresh inlet Between, temperature-detecting device is equipped in the fresh air air intake passage.

According to some embodiments of the present invention, the signal lead of the temperature-detecting device passes through the side wall of the air duct part It protrudes into after the second chamber and protrudes into first cabling channel again and be partially received in first cabling channel, walked from described first The part signal lead that wire casing stretches out is connected to the electric-controlled box.

Additional aspect and advantage of the invention will be set forth in part in the description, and will partially become from the following description Obviously, or practice through the invention is recognized.

Detailed description of the invention

Above-mentioned and/or additional aspect of the invention and advantage will become from the description of the embodiment in conjunction with the following figures Obviously and it is readily appreciated that, in which:

Fig. 1 is the structural schematic diagram of the new blower for not installing cover board according to some embodiments of the invention,；

Fig. 2 is the enlarged drawing at A according to figure 1；

Fig. 3 is the enlarged drawing at B according to figure 1；

Fig. 4 is the structural schematic diagram in another orientation of the new blower according to figure 1 for not installing cover board；

Fig. 5 is the new blower for not installing cover board, high efficiency particulate air and the second motor lines according to some embodiments of the invention Partial structure diagram；

Fig. 6 is the structural schematic diagram of screen support plate according to some embodiments of the invention；

Fig. 7 is the enlarged drawing at C according to figure 6.

Appended drawing reference:

New blower 100；

Shell 1；Top shell 11；The first side wall 111；First cabling channel 1111；Lug boss 1112；Second sidewall 112；Access panel 1121；Outer housing 113；Air duct side plate 114；Third cabling channel 115；Positioning protrusion 116；First chamber a；Second chamber b；Cross line Hole 117；Fresh inlet c；Fresh air exports d；Return air inlet e；Return air exports f；

Heat exchanger core 2；

First blower 3；

Electric-controlled box 4；

Second blower 5；Second motor lines 51；

Screen support plate 6；Second cabling channel 61；Locating button 62；Positioning plate 621；Connecting plate 622；

Air duct part 7；

Signal lead 8；

High efficiency particulate air filter 9；

Air duct portion 10.

Specific embodiment

The embodiment of the present invention is described below in detail, examples of the embodiments are shown in the accompanying drawings, wherein from beginning to end Same or similar label indicates same or similar element or element with the same or similar functions.Below with reference to attached The embodiment of figure description is exemplary, and for explaining only the invention, and is not considered as limiting the invention.

Below with reference to the accompanying drawings new blower 100 according to an embodiment of the present invention is described, new blower 100 can draw outdoor fresh air Enter in indoor environment, with to indoor infeed fresh air.Optionally, new blower 100 can only have fresh air function, certainly, newly Blower 100 can also have other functions, such as new blower 100 has the function of that air conditioner indoor unit, new blower 100 are equipped with Refrigerant circulation passage and indoor sensible heat exchanger etc., new blower 100 can be fitted together with air-conditioner outdoor unit to realize to room The effect of interior refrigeration or heating.

As shown in Figure 1, new blower 100 according to an embodiment of the present invention, may include shell 1, heat exchanger core 2, the first wind Machine 3, electric-controlled box 4 and the second blower 5.Heat exchanger core 2, the first blower 3 and the second blower 5 may be provided in shell 1.

Electric-controlled box 4 is set to shell 1.Optionally, electric-controlled box 4 can be located in shell 1, and certainly, electric-controlled box 4 can also be located at The outside of shell 1.

Specifically, shell 1 includes top shell 11 and cover board, and the bottom wall of top shell 11 opens wide, and cover board is located on the bottom wall of top shell 11. For example, cover board is detachably arranged on the bottom wall of top shell 11.Or during assembling new blower 100, first by heat exchanger core 2, the structures such as the first blower 3 and the second blower 5 are mounted in top shell 11, and cover board is unremovably mounted on to the spacious of top shell later Open side.

Top shell 11 has opposite the first side wall 111 and second sidewall 112, and heat exchanger core 2 is located in shell 1 and heat exchange The both ends of core 2 contact with the first side wall 111 and second sidewall 112 mutually independent the space in shell 1 to be separated into respectively First chamber a and second chamber b.Specifically, for example, when heat exchanger core 2 is located in shell 1, heat exchanger core 2 first The both ends of the septal direction of side wall 111 and second sidewall 112 are contacted with the first side wall 111 and second sidewall 112 respectively, heat exchange One side surface of the inner roof wall towards top shell 11 of core 2 is contacted with the inner roof wall of top shell 11, one towards cover board of heat exchanger core 2 Side surface is contacted with cover board, so that the space in shell 1 is separated into mutually independent first chamber a and second chamber b.

Wherein, the first blower 3 is located in first chamber a, and the first blower 3 includes the first wind wheel and first motor, the first electricity For driving the rotation of the first wind wheel, the second blower 5 is located in second chamber b machine, and the second blower 5 includes the second wind wheel and the second electricity Machine, the second motor is for driving the rotation of the second wind wheel.Optionally, the first wind wheel is fresh air wind wheel, and the second wind wheel is return air wind wheel； Certainly, in further embodiments, the first wind wheel can be return air wind wheel, and the second wind wheel is fresh air wind wheel.

Specifically, for example, as shown in Figure 1, Figure 4 and Figure 5, top shell 11 is formed as substantially rectangular-shape, the bottom of top shell 11 Wall opens wide, and cover board is located on the bottom wall of top shell 11, has fresh inlet c, fresh air outlet d, return air inlet e and return air in top shell 11 Export f, wherein fresh inlet c and return air outlet f is located at the same side wall (example third side wall described as follows) of top shell 11, fresh air Outlet d and return air inlet e is located at the same side wall (the side side wall opposite with following third side walls) of top shell 11, in shell 1 It is formed with the fresh air channel being separated from each other and return air channel, fresh air channel connection exports between d in fresh inlet c and fresh air, Return air channel connection return air inlet e and return air outlet f between, heat exchanger core 2 in the first side wall 111 and second sidewall 112 The both ends of septal direction contacted respectively with the first side wall 111 and second sidewall 112, heat exchanger core 2 towards in top shell 11 One side surface of roof is contacted with the inner roof wall of top shell 11, and the side surface towards cover board of heat exchanger core 2 is contacted with cover board, from And the space in shell 1 is separated into mutually independent first chamber a and second chamber b, heat exchanger core 2 includes mutually exchanging heat First airflow channel and the second airflow channel, the first airflow channel are connected in fresh air channel, and the second airflow channel is connected on back On wind channel, the first blower 3 is located in first chamber a, and the second blower 5 is located in second chamber b, and wind is equipped in first chamber a Road portion 10, air duct portion 10 are formed with return air air intake passage, air duct portion 10 be connected between return air inlet e and heat exchanger core 2 so that It obtains return air air intake passage to be connected to the second airflow channel, air duct part 7 is equipped in second chamber b, air duct part 7 is formed with fresh air air inlet Channel, air duct part 7 is connected between heat exchanger core 2 and fresh inlet c so that fresh air air intake passage and the first airflow channel connect It is logical, a part of the space composition fresh air channel of remaining not set solid structure in the removing air duct portion 10 of first chamber a, second The space of remaining not set fixed structure of the removing air duct part 7 of chamber b constitutes a part of return air channel.

As a result, when the first wind wheel and the second wind wheel rotate, the air-flow entered from fresh inlet c is first into air duct part 7 fresh air air intake passage, then flows to the first airflow channel, and fresh air flows to first chamber a simultaneously after the outflow of the first airflow channel Further from fresh air outlet d discharge under the driving positioned at the first wind wheel of first chamber a；From the interior that return air inlet e enters Return air stream is first into the return air air intake passage in air duct portion 10, then flows to the second airflow channel, the second airflow channel It exchanges heat between indoor return air air-flow and the fresh air of the first airflow channel, subsequent indoor return air air-flow is from the second airflow channel stream To second chamber b, and under the further driving of the second wind wheel positioned at second chamber b, from return air outlet, f is discharged to outdoor ring In border.

For another example, in further embodiments, top shell 11 is formed as substantially rectangular-shape, and the bottom wall of top shell 11 opens wide, cover board It is located on the bottom wall of top shell 11, there is fresh inlet c, fresh air outlet d, return air inlet e and return air to export f in top shell 11, wherein Fresh inlet c and return air outlet f is located at the same side wall (example third side wall described as follows) of top shell 11, and fresh air exports d and return air Import e is located at the same side wall (the side side wall opposite with following third side walls) of top shell 11, is formed with to each other in shell 1 The fresh air channel and return air channel separated, fresh air channel connection is between fresh inlet c and fresh air outlet d, return air channel connection Between return air inlet e and the return air outlet f, heat exchanger core 2 in the septal direction of the first side wall 111 and second sidewall 112 Both ends are contacted with the first side wall 111 and second sidewall 112 respectively, the side table of the inner roof wall towards top shell 11 of heat exchanger core 2 Face is contacted with the inner roof wall of top shell 11, and the side surface towards cover board of heat exchanger core 2 is contacted with cover board, thus by shell 1 Space be separated into mutually independent first chamber a and second chamber b, heat exchanger core 2 includes that the first air-flow for mutually exchanging heat is logical Road and the second airflow channel, the first airflow channel are connected in fresh air channel, and the second airflow channel is connected on return air channel, the One blower 3 is located in first chamber a, and the second blower 5 is located in second chamber b, and air duct portion 10, air duct are equipped in first chamber a Portion 10 is formed with fresh air air-out passage, and air duct portion 10 is connected between fresh air outlet and heat exchanger core so that fresh air air-out passage It is connected to the first airflow channel, air duct part 7 is equipped in second chamber b, air duct part 7 is formed with return air air-out passage, and air duct part 7 connects It connects between heat exchanger core 2 and return air outlet f so that return air air-out passage is connected to the second airflow channel, first chamber a's The space for removing remaining not set solid structure in air duct portion 10 is remaining removed other than return air air-out passage of return air channel The space of part, remaining not set fixed structure of the removing air duct part 7 of second chamber b is the removing fresh air return air of fresh air channel Rest part other than channel.

As a result, when the first wind wheel and the second wind wheel rotate, the fresh air entered from fresh inlet c is flowed in second chamber b, Then the first airflow channel is further flowed towards, fresh air flows to the fresh air air-out passage in air duct portion 10 after the outflow of the first airflow channel Interior, further from fresh air outlet, d is discharged in indoor environment；The return air entered from return air inlet e flow in first chamber a and The second airflow channel, the indoor return air of the second airflow channel are further flowed towards under the driving of the first blower 3 of first chamber a Exchange heat between the fresh air of the first airflow channel, subsequent air-flow further flow towards the return air air-out passage of air duct part 7 and from Return air outlet f is discharged in outdoor environment.

In the related technology, since first chamber a and second chamber b are independent from each other, the first wind wheel is located at first chamber A, the second wind wheel are located at second chamber b, for convenience the company between the first blower 3 and the motor lines and electric-controlled box 4 of the second blower 5 It connects, generally requires the motor lines of one of blower directly through heat exchanger core 2 and the motor lines are located at heat exchanger core 2 and shell Between the inner wall of body 1, it is connected after then converging with another motor lines with electric-controlled box 4.However, working as the motor of one of blower When line is directly through heat exchanger core 2, since the motor lines are between heat exchanger core 2 and the inner wall of shell 1, it is easy to new blower 100 other structures generate interference, are easy to cause at motor line position and leak out, and the reliability of new blower 100 reduces.

In contrast, in an embodiment of the present invention, referring to Fig.1 shown in-Fig. 2 and Fig. 4-Fig. 5, electric-controlled box 4 and first Blower 3 is located at the ipsilateral of heat exchanger core 2, that is to say, that electric-controlled box 4 and the first blower 3 are respectively positioned on separate the second of heat exchanger core 2 The side of chamber b, the first motor line of first motor by way of heat exchanger core 2 and are not connected to electric-controlled box 4, the first side wall 111 The first upwardly recessed cabling channel 1111, the first cabling channel 1111 are formed on the lower end surface of part corresponding with heat exchanger core 2 Length direction along the first side wall 111 extends, and the second motor lines 51 of the second motor protrude into the first cabling channel from second chamber b 1111 and be partially received in the first cabling channel 1111 and from the first cabling channel 1111 stretch out the second motor lines of part be connected to electricity Control box 4, it follows that the second motor lines 51 from second chamber b protrude into the first cabling channel 1111 after along the first cabling channel 1111 Extending direction be routed and be contained in the first cabling channel 1111, then stretch out the first cabling channel 1111 and be connected with electric-controlled box 4, and It will not be spaced apart with heat exchanger core 2 directly through heat exchanger core 2, either first motor line or the second motor lines 51, from And the interference that 51 pairs of the second motor lines other structures generate is avoided, avoid Air Leakage, while the first cabling channel 1111 It can also play the role of the second motor lines 51 of positioning and protection, improve the reliability of new blower 100.

New blower 100 according to an embodiment of the present invention, by the portion corresponding with heat exchanger core 2 for making the first side wall 111 Point lower end surface on be formed with the first cabling channel 1111, after the second motor lines 51 protrude into the first cabling channel 1111 from second chamber b It is routed and is contained in the first cabling channel 1111 along the extending direction of the first cabling channel 1111, then stretch out the first cabling channel 1111 are connected with electric-controlled box 4, without directly through heat exchanger core 2, so as to avoid 51 pairs of the second motor lines other structures The interference of generation avoids Air Leakage, while the first cabling channel 1111 can also play the second motor lines 51 of positioning and protection Effect, improve the reliability of new blower 100.

In some embodiments of the invention, first is protruded into from the second motor lines of part 51 that the first cabling channel 1111 stretches out Electric-controlled box 4 is connected to after closing in chamber a and with the first motor congruence, that is to say, that from the part that the first cabling channel 1111 stretches out Second motor lines 51 protrude into first chamber a, and the second motor lines 51 in first chamber a are in first chamber a with first Motor lines are converged, and first motor line and the second motor lines 51 converge rear, the two and are connected to electric-controlled box 4 together.For example, can be by first First motor line and the second motor lines 51 in chamber a are banded together by bounding wire to realize converging for the two.As a result, not But structure is simple, and is conducive to further realize the protection to wire body.

In some optional embodiments of the invention, electric-controlled box 4 is located at the outside of shell 1 and is located at second sidewall 112 On, the second motor lines 51 pass through second sidewall 112 with first motor line and are connected to electric-controlled box 4.Specifically, as shown in Figure 1, Two side walls 112 are equipped with cable-through hole 117, and cable-through hole 117 runs through second sidewall 112, position on the thickness direction of second sidewall 112 In the first motor line of first chamber a and the second motor lines 51 pass through cable-through hole 117 reach the outside of shell 1 with be located at shell The electric-controlled box 4 in 1 outside is connected.Not only structure is simple as a result, and facilitates installation.

Specifically, as shown in Figure 1, second sidewall 112 includes entity plate and access panel 1121, entity plate is equipped with maintenance Mouthful, electric-controlled box 4 is set to entity plate, and access hole is located at the side of the neighbouring second chamber b of electric-controlled box 4 and access hole face heat exchange Core 2 is arranged, and access panel 1121 is used to open or closes access hole.When the structure in shell 1 is there are when failure, detachable lower maintenance Plate 1121, manpower are extend into shell 11 by access hole e to repair or replace to dependency structure row, and new blower is facilitated To the maintenance of 1 inside dependency structure of shell after 100 installation of ceiling

In some instances, access panel 1121 can be fixed on entity plate by screw fastener.Certainly, the present invention is unlimited In this, access panel 1121 can be removably mounted on entity plate by buckle structure etc..

According to some embodiments of the present invention, as shown in fig. 6, being equipped with screen support plate 6, screen support in first chamber a Plate 6 extends along the septal direction of the first side wall 111 and second sidewall 112, and screen support plate 6 is equipped with the second cabling channel 61, from The second motor lines of part 51 that first cabling channel 1111 stretches out are partially received in the second cabling channel 61.As a result, when the second electricity After machine line 51 stretches to the first cabling channel 1111 out of second chamber b, the second motor lines 51 are partially received in the first cabling channel In 1111, then the second motor lines of part 51 protrude into first chamber a from the first cabling channel 1111, protrude into the part of first chamber a Second motor lines 51 be partially received in the second cabling channel 61 in order to the second cabling channel 61 to second motor lines of part 51 into Row protection, to improve the service life of the second motor lines 51, but also can be to avoid because the second motor lines 51 are in first chamber a It is interior arbitrarily to droop and the work of other structures such as the first blower 3 is had an impact.

Specifically, for example, as shown in Fig. 1, Fig. 4-Fig. 5, its remaining part in the above-mentioned air duct portion 10 of the removing of first chamber a Divide a part for being formed as fresh air channel, the rest part of the above-mentioned air duct part 7 of the removing of second chamber b is formed as return air channel A part, on the one hand the parts of the second motor lines 51 can be received in the second cabling channel 61 on screen support plate 6, Another aspect screen support plate 6 is used to support high efficiency particulate air filter 9, flows out from the first above-mentioned airflow channel of heat exchanger core 2 Fresh air flows directly into the high efficiency particulate air filter 9 positioned at first chamber a, after the filtering of high efficiency particulate air filter 9, further in the first wind From fresh air outlet, d is discharged in indoor environment under the driving of machine 3.

Specifically, the part of the second cabling channel of stretching 61 of the second motor lines 51 is connected to electricity after closing with the first motor congruence Control box 4.Structure is simple as a result,.

In some specific examples, as Figure 6-Figure 7, the inner wall of the second cabling channel 61 is equipped with locating button 62, positioning Button 62 is for positioning the second motor lines of part 51 positioned at the second cabling channel 61.Be conducive to further increase to the second electricity as a result, The locating effect of machine line 51 avoids the second motor lines 51 from being shifted out from the second cabling channel 61.

Optionally, locating button 62 is multiple, and multiple locating buttons 62 are spaced apart setting along the extending direction of the second cabling channel 61.

Specifically, as shown in fig. 7, locating button 62 includes: the connecting plate of two positioning plates 621 for being spaced apart setting and arc 622, one end of each positioning plate 621 is connected to the inner wall of the second cabling channel 61, and the both ends of the connecting plate 622 of arc are respectively with two The free end of a positioning plate 621 is connected to limit jointly with the inner wall with the second cabling channel 61 determines for what the second motor lines 51 passed through Bit space.Not only structure is simple as a result, and good positioning effect, simultaneously because two positioning plates 621 are spaced apart and are arranged, two The distance between positioning plate 621, which can produce, is varied so that connecting plate 622 generates elastic deformation to adapt to the of various outer diameter Two motor lines 51.

In some optional embodiments of the invention, as shown in Fig. 2, the inner sidewall of the first cabling channel 1111 is equipped with convex Portion 1112 is played so that for positioning the second motor lines of part 51 for being located at the first cabling channel 1111, not only structure is simple as a result, and Conducive to the locating effect further increased to the second motor lines 51, the second motor lines 51 is avoided to shift from the first cabling channel 1111 Out.

In some further embodiments of the invention, as shown in Fig. 2-Fig. 3, top shell 11 includes: outer housing 113 and annular Air duct side plate 114, air duct side plate 114 is located on the inner sidewall of outer housing 113, i.e. the periphery wall and shell of air duct side plate 114 The internal perisporium of body 113 is connected, and heat exchanger core 2 is located in air duct side plate 114, the above-mentioned both ends of heat exchanger core 2 respectively with air duct side The opposing sidewalls of plate 114 are connected, that is to say, that the first side of one of composition in the opposing sidewalls of air duct side plate 114 A part of wall 111, another in the opposing sidewalls of air duct side plate 114 constitute a part of second sidewall 112, and heat is handed over The both ends of core 2 are changed respectively with the part of the first side wall 1111 being made of air duct side plate 114 and second sidewall 112 by air duct The part that side plate 114 is constituted is connected.

The first upwardly recessed cabling channel 1111 is formed on the lower end surface of air duct side plate 114, air duct side plate 114 is located at Part part between first cabling channel 1111 and outer housing 113 is inwardly projecting to limit lug boss 1112, as a result, can be in wind Interval region is formed at position corresponding with lug boss 1112 between road side plate 114 and outer housing 113, consequently facilitating in shell Screw hole is equipped at the position corresponding with interval region of body 113, due to the setting of interval region, when screw fixing shell body 113 and when the side plate 114 of air duct, interval region can play the role of avoiding screw to a certain extent, avoid the apex of screw It pierces in the first cabling channel 1111 and the structure of the second motor lines 51 of destruction, protects the second motor lines 51.

It is understood that " the portions between the first cabling channel 1111 and outer housing 113 of air duct side plate 114 It is point inside " "inner" refer to that opposite direction is outer towards the direction at the center close to air duct side plate 114.

Optionally, lug boss 1112 is multiple, and multiple lug bosses 1112 are along the extending direction interval of the first cabling channel 1111 It opens up and sets.Be conducive to further increase the locating effect to the second motor lines 51 as a result,.

In some embodiments of the invention, top shell 11 enclose set the side wall of second chamber b lower end surface be equipped with it is upward Recessed third cabling channel 115, one end of third cabling channel 115 are connected with the first cabling channel 1111, third cabling channel 115 The other end is arranged adjacent to the second motor, and the second motor lines 51 protrude into after third cabling channel 115 from second chamber b to be protruded into first again and walk Wire casing 1111.Specifically, for example, the first side wall 111 one end far from the first blower 3 and second sidewall 112 far from the Between one end of one blower 3 by third side wall be connected, the first side wall 111 between heat exchanger core 2 and third side wall Partially, the part between heat exchanger core 2 and third side wall of third side wall and second sidewall 112 collectively forms top shell 11 Enclose the side wall for setting second chamber b, third cabling channel 115 includes two parts, and a portion is located under the first side wall 111 On end face, another part is located on the lower end surface of third side wall.To which the second motor lines 51 protrude into third from second chamber b Cabling channel 115 is simultaneously partially received in the first cabling channel 1111 after being partially received in third cabling channel 115, without directly wearing Heat exchanger core 2 is crossed, the interference that 51 pairs of the second motor lines other structures generate is avoided, avoids Air Leakage, while first Cabling channel 1111 and third cabling channel 115 can also play the role of the second motor lines 51 of positioning and protection, improve new blower 100 reliability.

Optionally, as shown in figure 3, the inner sidewall of third cabling channel 115 is equipped with for positioning determining for the second motor lines 51 Position protrusion 116.Not only structure is simple as a result, and is conducive to improve the locating effect to the second motor lines 51, avoids the second electricity Machine line 51 is shifted from third cabling channel 115.

Optionally, the inner sidewall of third cabling channel 115 is equipped with multiple for positioning the positioning protrusion of the second motor lines 51 116, multiple positioning protrusion 116 are spaced apart setting along the extending direction of third cabling channel 115, are conducive to further increase as a result, To the locating effect of the second motor lines 51.

Optionally, third cabling channel 115 is located on the lower end surface of above-mentioned air duct side plate 114.Structure is simple as a result,.

In some optional embodiments of the invention, it is equipped with air duct part 7 in second chamber b, is formed on air duct part 7 new Wind air intake passage, shell 1 are equipped with fresh inlet c, and air duct part 7 is connected between heat exchanger core 2 and fresh inlet c, fresh air into Temperature-detecting device is equipped in wind channel, temperature-detecting device is used to detect the temperature of fresh air, and the signal of temperature-detecting device is walked The side wall that line 8 passes through air duct part 7, which protrudes into after second chamber b, to be protruded into the first cabling channel 1111 again and is partially received in the first cabling channel 1111, the part signal cabling 5 stretched out from the first cabling channel 1111 is connected to electric-controlled box 4.

Specifically, the side wall that the signal lead 8 of temperature-detecting device passes through air duct part 7 is stretched again after protruding into second chamber b Enter the first cabling channel 1111 and part is located at the first cabling channel 1111, the part signal cabling and second stretched out from the first cabling channel Motor lines 51 are connected to electric-controlled box 4 together.That is, signal lead 8 and the second motor lines 51 are protruding into the first cabling channel Wiring path after 1111 is identical.Structure is simple as a result,.

In some alternative embodiments, air quality sensor component is equipped in above-mentioned return air channel, for example, air Mass sensitivity device assembly includes PM2.5 sensor, CO₂In sensor, formaldehyde sensor, VOC sensor and dust sensor At least one, for detecting indoor air quality.As a result, when indoor air enters return air channel by return air inlet e When, fraction can flow through air quality sensor component in order to the air of air quality sensor component detection indoor return air Quality, so as to the indoor air quality of real-time detection, consequently facilitating carrying out phase to new blower 100 according to indoor air quality For example when indoor someone smokes, the detected value of PM2.5 sensor can be substantially increased, and can be improved at this time above for the control answered The revolving speed of the return air wind wheel (the second wind wheel as escribed above) referred to, is discharged flue dust as early as possible.

In some embodiments of the invention, it is fixedly connected between top shell 11 and cover board by screw.Alternatively, at other In optional embodiment, dependency structure such as the first blower 3, the second blower 5 and the heat of new blower 100 are installed in top shell 11 After exchange core 2 is equal, cover board can also be welded on the bottom wall of top shell 11.

Specifically, the outer edge of cover board is concordant with the periphery wall of top shell 11.To be conducive to optimize the structure of shell 1.

In the description of the present invention, the meaning of " plurality " is two or more.

New blower 100 according to an embodiment of the present invention other constitute and operate for those of ordinary skill in the art and It says it is all known, is not detailed herein.

In the description of this specification, reference term " one embodiment ", " some embodiments ", " illustrative examples ", The description of " example ", " specific example " or " some examples " etc. means specific features described in conjunction with this embodiment or example, knot Structure, material or feature are included at least one embodiment or example of the invention.In the present specification, to above-mentioned term Schematic representation may not refer to the same embodiment or example.Moreover, specific features, structure, material or the spy of description Point can be combined in any suitable manner in any one or more of the embodiments or examples.

Although an embodiment of the present invention has been shown and described, it will be understood by those skilled in the art that: not A variety of change, modification, replacement and modification can be carried out to these embodiments in the case where being detached from the principle of the present invention and objective, this The range of invention is defined by the claims and their equivalents.

Claims (12)

1. a kind of new blower characterized by comprising

Shell, the shell include top shell and cover board, and the bottom wall of the top shell opens wide, and the cover board is located at the bottom of the top shell Wall, the top shell have opposite the first side wall and second sidewall；

Heat exchanger core, the heat exchanger core be located in the shell and the both ends of the heat exchanger core respectively with the first side wall It contacts with the second sidewall the intracorporal space of the shell is separated into mutually independent first chamber and second chamber, it is described The length direction being formed on the lower end surface of the part corresponding with the heat exchanger core of the first side wall along the first side wall prolongs The first cabling channel stretched；

First blower, first blower are located in the first chamber, and first blower includes the first wind wheel and the first electricity Machine, the first motor is for driving first wind wheel to rotate；

Electric-controlled box, the electric-controlled box are set to the shell, and the electric-controlled box and first blower are located at the heat exchanger core Ipsilateral, the first motor line of the first motor by way of the heat exchanger core and is not connected to the electric-controlled box；

Second blower, second blower are located in the second chamber, and second blower includes the second wind wheel and the second electricity Machine, second motor is for driving second wind wheel to rotate, and the second motor lines of second motor are from second chamber The part institute that room protrudes into first cabling channel and is partially received in first cabling channel and stretches out from first cabling channel It states the second motor lines and is connected to the electric-controlled box.

2. new blower according to claim 1, which is characterized in that from the part described second that first cabling channel stretches out Motor lines protrude into the first chamber and are connected to the electric-controlled box with first motor congruence conjunction.

3. new blower according to claim 2, which is characterized in that the electric-controlled box is located at the outside of the shell and is located at In the second sidewall, second motor lines are connected to the first motor line across the second sidewall described automatically controlled Box.

4. new blower according to claim 3, which is characterized in that screen support plate is equipped in the first chamber, it is described Screen support plate extends along the septal direction of the first side wall and the second sidewall, and the screen support plate is equipped with second Cabling channel, part second motor lines stretched out from first cabling channel are partially received in second cabling channel.

5. new blower according to claim 4, which is characterized in that the inner wall of second cabling channel is equipped with locating button, The locating button is used to position part second motor lines positioned at second cabling channel.

6. new blower according to claim 5, which is characterized in that the locating button includes:

Two are spaced apart the positioning plate of setting, and one end of each positioning plate is connected to the inner wall of second cabling channel；

The connecting plate of arc, the both ends of the connecting plate of arc are connected respectively with described with the free end of two positioning plates The inner wall of two cabling channels limits the located space passed through for second motor lines jointly.

7. new blower according to claim 1, which is characterized in that the inner sidewall of first cabling channel is equipped with lug boss For positioning part second motor lines for being located at first cabling channel.

8. new blower according to claim 7, which is characterized in that the top shell includes: the air duct side of outer housing and annular Plate, the air duct side plate are located on the inner sidewall of the outer housing, and the heat exchanger core is located in the air duct side plate, the heat The both ends of exchange core are connected with the opposing sidewalls of the air duct side plate respectively, are formed on the lower end surface of the air duct side plate described The part part between first cabling channel and the outer housing of first cabling channel, the air duct side plate is inwardly projecting To limit the lug boss.

9. new blower according to claim 1, which is characterized in that the top shell encloses the side wall for setting the second chamber Lower end surface is equipped with third cabling channel, and one end of the third cabling channel is connected with first cabling channel, and the third is walked The other end of wire casing is arranged adjacent to second motor, and second motor lines protrude into the third cabling from the second chamber First cabling channel is protruded into after slot again.

10. new blower according to claim 9, which is characterized in that the inner sidewall of the third cabling channel is equipped with and is used for Position the positioning protrusion of second motor lines.

11. new blower according to claim 1, which is characterized in that be equipped with air duct part, the air duct in the second chamber Be formed with fresh air air intake passage on part, the shell is equipped with fresh inlet, the air duct part be connected to the heat exchanger core and Between the fresh inlet, temperature-detecting device is equipped in the fresh air air intake passage.

12. new blower according to claim 11, which is characterized in that the signal lead of the temperature-detecting device passes through institute The side wall for stating air duct part, which protrudes into after the second chamber, to be protruded into first cabling channel again and is partially received in first cabling Slot, the part signal lead stretched out from first cabling channel are connected to the electric-controlled box.