CN109442578A - Air conditioner - Google Patents

Abstract

The present invention discloses a kind of air conditioner, which includes chassis, shell, outer thermomechanical components and interior thermomechanical components；Chassis is located at the outside to temperature adjustment region；Shell is located at the outside to temperature adjustment region, and is enclosed inner cavity with chassis, and inner cavity is equipped with partition, inner cavity is isolated to form the first cavity and the second cavity；Outer thermomechanical components are built in the first cavity, and including interconnected First Heat Exchanger and compressor, the lower end of First Heat Exchanger and compressor is connect with chassis；Interior thermomechanical components include the second heat exchanger, inlet air part and outlet air part, and the second heat exchanger is built in the second cavity to form mutually independent first heat exchanging chamber and the second heat exchanging chamber so that the second cavity to be isolated；Inlet air part is set to lower part of the housing and is connected to the first heat exchanging chamber, and outlet air part is set to above shell and is connected to the second heat exchanging chamber, and inlet air part and outlet air part are and to temperature adjustment regional connectivity.Technical solution of the present invention can make the structure of air conditioner more simply to reduce indoor occupied space.

Description

Air conditioner

Technical field

The present invention relates to air-conditioning technical field, in particular to a kind of air conditioner.

Background technique

Nowadays, air conditioner using more more and more universal, and be usually in split type set for domestic air conditioner common at present Meter, i.e. air conditioner, which are divided into, to be installed on indoor air conditioner indoor unit and is installed on outdoor air-conditioner outdoor unit, then air conditioning chamber The associated pipe of interior machine wears that wall etc. is rear to be connect with air-conditioner outdoor unit.Here, air conditioner indoor unit not only structure is complicated dismounting it is numerous It is trivial, and the interior space occupied is larger.

Summary of the invention

The main object of the present invention is to provide a kind of air conditioner, it is intended to account for the structure of air conditioner more simply to reduce interior Use space.

To achieve the above object, air conditioner proposed by the present invention includes chassis, shell, outer thermomechanical components and interior thermomechanical components； The chassis is located at the outside to temperature adjustment region；The shell is located at the outside to temperature adjustment region, and encloses shape with the chassis At inner cavity, the inner cavity is equipped with partition, and the inner cavity is isolated to form the first cavity and the second cavity；Outer thermomechanical components are built in First cavity, the outer thermomechanical components include interconnected First Heat Exchanger and compressor, the First Heat Exchanger and institute The lower end for stating compressor is connect with the chassis；Interior thermomechanical components include the second heat exchanger, inlet air part and outlet air part, described second Heat exchanger is built in second cavity to be isolated second cavity to form mutually independent first heat exchanging chamber and second Heat exchanging chamber；The inlet air part is set to the lower part of the housing and is connected to first heat exchanging chamber, and the outlet air part is set to the shell It is connected to above body and with second heat exchanging chamber, the inlet air part and outlet air part are and to temperature adjustment regional connectivity.

Preferably, second heat exchanger includes refrigerant runner pipe, and the refrigerant runner pipe is stretched from second heat exchanger It is connected to out and after wearing the partition with the compressor.

Preferably, the lower end of second heat exchanger is connect with chassis, be formed in arrange on left and right directions it is mutual solely Vertical first heat exchanging chamber and the second heat exchanging chamber；Alternatively,

The neighboring of second heat exchanger is connect with the shell, be formed in arrange in up and down direction it is mutual solely Vertical first heat exchanging chamber and the second heat exchanging chamber.

Preferably, the interior thermomechanical components further include drip tray, and second heat exchanger is supported by the drip tray, described Drip tray is placed on the chassis, and is equipped with the drainpipe for stretching out the chassis.

Preferably, the interior thermomechanical components further include heat preservation member and lateral coaming plate, the lower part of the lateral coaming plate offer with it is described The air intake vent of inlet air part connection, the heat preservation member are set between second heat exchanger and the partition；

The top surface of the lateral coaming plate is equipped with the first notch, and the top surface of the heat preservation member is equipped with the second notch, and described first lacks Mouth forms the wind passage mouth being connected to the outlet air part with the second notch split.

Preferably, the air inlet of the outlet air part is connected to the wind passage mouth, and the outlet air part and the wind passage mouth Side wall rounding off.

Preferably, the lower edge of first notch has extended to form overhead gage, the overhead gage towards the heat preservation member It is abutted with the upper end of second heat exchanger, the lateral coaming plate, the overhead gage, second heat exchanger and the chassis are enclosed Conjunction forms first heat exchanging chamber, enters described second through second heat exchanger from first heat exchanging chamber to tempering air and changes Hot chamber.

Preferably, the inlet air part is cylindrical in shape setting, and one end is with air intake vent sealed connection, the other end and to temperature adjustment area Domain connection.

Preferably, the outlet air part includes upper volute, lower spiral case, centrifugal wind wheel and for driving the centrifugal wind wheel First motor, the upper volute and lower spiral case splice up and down surrounds air duct, and the centrifugal wind wheel is built in the first motor In the air duct；

The free end far from second heat exchanger of the upper volute and the lower spiral case extends to form chimney fan, described Chimney fan with to temperature adjustment regional connectivity.

Preferably, along the vertical direction, the top surface of the centrifugal wind wheel is equipped with supplies the centrifugation to the axial direction of the centrifugal wind wheel The bottom surface of the resigning recess portion of wind wheel accommodating, the resigning recess portion is equipped with connector, described first motor one end and the upper snail Shell connection, the other end are connect with the connector.

In the technical solution of the air condition of that present invention, since chassis and shell are respectively positioned on the outside to temperature adjustment region, i.e., outer machine The second heat exchanger etc. of component and interior thermomechanical components is respectively positioned on the outside to temperature adjustment region, and simultaneously in thermomechanical components inlet air part with go out Wind part with to temperature adjustment regional connectivity, therefore air conditioner in actual work, the air to temperature adjustment region will enter from inlet air part In first heat exchanging chamber, then enter in the second heat exchanging chamber after the second heat exchanger therewith heat exchange, finally, having changed temperature The outlet air part through communicating with the second heat exchanging chamber is returned to temperature adjustment region air again, carries out temperature tune to realize and treat temperature adjustment region The purpose of section.Compared to the air conditioner of common indoor and outdoor or window machine at present or it is placed in indoor mobile air conditioner, Technical solution of the present invention can not have to setting air conditioner indoor unit etc. in temperature adjustment region, and only need inlet air part and outlet air part with to Temperature adjustment regional connectivity, so set, the structure of air conditioner on the one hand can be made as simple as possible and occupied in temperature adjustment region Space it is small as far as possible；On the other hand, since two blowers and two heat exchangers are mounted on to temperature adjustment region exterior, therefore It can be effectively reduced bring noise problem due to being provided with indoor unit to temperature adjustment region.

Detailed description of the invention

In order to more clearly explain the embodiment of the invention or the technical proposal in the existing technology, to embodiment or will show below There is attached drawing needed in technical description to be briefly described, it should be apparent that, the accompanying drawings in the following description is only this Some embodiments of invention for those of ordinary skill in the art without creative efforts, can be with The structure shown according to these attached drawings obtains other attached drawings.

Fig. 1 is the structural schematic diagram of one embodiment of the air condition of that present invention；

Fig. 2 is the structural schematic diagram of another angle of air conditioner in Fig. 1；

Fig. 3 is the explosive view of air conditioner in Fig. 1；

Fig. 4 is the explosive view of heat preservation member in Fig. 3, the second heat exchanger, drip tray and lateral coaming plate；

Fig. 5 is the rearview of air conditioner in Fig. 1；

Fig. 6 is the schematic diagram of the section structure in Fig. 5 along the direction S-S.

Drawing reference numeral explanation:

The embodiments will be further described with reference to the accompanying drawings for the realization, the function and the advantages of the object of the present invention.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiment is only a part of the embodiments of the present invention, instead of all the embodiments.Base Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts it is all its His embodiment, shall fall within the protection scope of the present invention.

It is to be appreciated that if relating to directionality instruction (such as up, down, left, right, before and after ...) in the embodiment of the present invention, Then directionality instruction be only used for explain under a certain particular pose (as shown in the picture) between each component relative positional relationship, Motion conditions etc., if the particular pose changes, directionality instruction is also correspondingly changed correspondingly.

In addition, being somebody's turn to do " first ", " second " etc. if relating to the description of " first ", " second " etc. in the embodiment of the present invention Description be used for description purposes only, be not understood to indicate or imply its relative importance or implicitly indicate indicated skill The quantity of art feature." first " is defined as a result, the feature of " second " can explicitly or implicitly include at least one spy Sign.It in addition, the technical solution between each embodiment can be combined with each other, but must be with those of ordinary skill in the art's energy It is enough realize based on, will be understood that the knot of this technical solution when conflicting or cannot achieve when occurs in the combination of technical solution Conjunction is not present, also not the present invention claims protection scope within.

The present invention proposes a kind of air conditioner.

Referring to Fig.1, Fig. 3 and Fig. 6, in an embodiment of the present invention, the air conditioner include chassis 1, shell 2, outer unit Part 3 and interior thermomechanical components.Chassis 1 is located at the outside to temperature adjustment region；Shell 2 is located at the outside to temperature adjustment region, shell 2 and chassis 1 is enclosed inner cavity, and inner cavity is equipped with partition 5, inner cavity is isolated to form the first cavity and the second cavity；Built in outer thermomechanical components 3 In the first cavity, outer thermomechanical components 3 include the First Heat Exchanger 31 and compressor 32 being interconnected, First Heat Exchanger 31 and compressor 32 lower end is connect with chassis 1；Interior thermomechanical components include the second heat exchanger 41, inlet air part 42 and outlet air part 43, the second heat exchanger 41 are built in the second cavity to form mutually independent first heat exchanging chamber 211 and the second heat exchanging chamber 212 so that the second cavity to be isolated； Inlet air part 42 is set to 2 lower part of shell and is connected to the first heat exchanging chamber 211, and outlet air part 43 is set to 2 top of shell and exchanges heat with second Chamber 212 is connected to, and inlet air part 42 and outlet air part 43 are and to temperature adjustment regional connectivity.

In the present embodiment, specifically as shown in figures 1 and 3 for the structure of entire air conditioner.Wherein, shell 2 specifically wraps Include front panel 22, upper cover plate 23, left coaming plate 24, front shroud 25 and back shroud 26.Interior thermomechanical components are located at the right side of outer thermomechanical components 3, I.e. partition 5 is stood on vertically on chassis 1, and outer thermomechanical components 3 are located in first cavity in the left side of partition 5, and the second heat exchanger 41 then position In in second cavity on 5 right side of partition.Second heat exchanger 41 includes refrigerant runner pipe (not indicating), and refrigerant runner pipe is from second Heat exchanger 41 is stretched out and is connected to after wearing partition 5 with compressor 32.Certainly, in other embodiments, interior thermomechanical components be may be alternatively located at The left side or upside or downside etc. of outer thermomechanical components 3.Outer thermomechanical components 3 further include axial-flow windwheel 33, for drive shaft stream it is distinguished and admirable Two motors 34 and electric machine support 35 for fixing the second motor 34, while being also equipped on front panel 22 to prevent safely The mesh enclosure 221 of shield.Specifically, First Heat Exchanger 31 is arranged in the bending that cross section is L-type, and is placed on chassis 1 adjacent The outer edge on nearly chassis 1；The lower end of electric machine support 35 connect and is located at the medial surface side of First Heat Exchanger 31 with chassis 1, Meanwhile compressor 32 is installed between electric machine support 35 and partition 5；One end of second motor 34 is connect with electric machine support 35, separately One end is connect with axial-flow windwheel 33.It should be noted that, when air conditioner is single-cooling type air-conditioning, First Heat Exchanger 31 is as cold herein Condenser, and the second heat exchanger 41 is evaporator.In addition, in the actual installation process of this air conditioner, if with the interior in a room Space is to temperature adjustment region, then the interior thermomechanical components of the chassis 1 of this air conditioner, shell 2, outer thermomechanical components 3 and the overwhelming majority are pacified Loaded on outdoor, the only interior inlet air part 42 of thermomechanical components and the free end of outlet air part 43 wear wall and extend back into interior.

In the present embodiment, since chassis 1 and shell 2 are respectively positioned on the outside to temperature adjustment region, i.e., outer thermomechanical components 3 and interior machine Second heat exchanger 41 of component etc. is respectively positioned on the outside to temperature adjustment region, and the inlet air part 42 and outlet air part 43 of interior thermomechanical components simultaneously With to temperature adjustment regional connectivity, therefore air conditioner in actual work, the air to temperature adjustment region will enter the from inlet air part 42 In one heat exchanging chamber 211, then enter in the second heat exchanging chamber 212 after the second heat exchanger 41 therewith heat exchange, finally, having changed The outlet air part 43 through communicating with the second heat exchanging chamber 212 is returned to temperature adjustment region the air of temperature again, treats temperature adjustment area to realize The purpose of domain progress temperature adjusting.Compared to the air conditioner of common indoor and outdoor or window machine at present or it is placed in interior Mobile air conditioner, the technical solution of the present embodiment can not have to setting air conditioner indoor unit etc. in temperature adjustment region, and only need inlet air Part 42 and outlet air part 43 with to temperature adjustment regional connectivity, so set, the structure of air conditioner on the one hand can be made as simple as possible and The space occupied is small as far as possible in temperature adjustment region；On the other hand, since two blowers and two heat exchangers are respectively mounted In to temperature adjustment region exterior, therefore it can be effectively reduced bring noise problem due to being provided with indoor unit to temperature adjustment region.

Specifically, as shown in Figure 3 and Figure 6, in the present embodiment, the lower end of the second heat exchanger 41 is connect with chassis 1, with shape At in mutually independent first heat exchanging chamber 211 and the second heat exchanging chamber 212 arranged on left and right directions.Meanwhile second heat exchanger 41 It is preferred that arc-shaped bending setting improves heat exchange efficiency to expand heat exchange area.Right the design is without being limited thereto, in other implementations In example, the neighboring for being also possible to the second heat exchanger 41 is connect with shell 2, be formed in arrange in up and down direction it is mutual only Vertical the first heat exchanging chamber 211 and the second heat exchanging chamber 212.

Further, as shown in Figure 3 and Figure 4, in the present embodiment, interior thermomechanical components further include drip tray 44, drip tray 44 On be supported by the second heat exchanger 41, drip tray 44 is placed on chassis 1, i.e. the second heat exchanger 41 by drip tray 44 indirectly and bottom Disk 1 connects, meanwhile, the drainpipe 441 for stretching out chassis 1 is additionally provided on drip tray 44.In this way, the second heat exchanger 41 produces at work Raw condensed water will drip in the drip tray 44, be then discharged by drainpipe 441, the structure setting phase of water receiving draining It is simpler for discharge structure compared with air conditioner indoor unit common at present.And further, corresponding second on drip tray 44 The lower end of heat exchanger 41 is equipped with support protrusion 442, and the second heat exchanger 41 is vertically placed in the support protrusion 442, so as to The ponding in drip tray 44 is avoided to infiltrate the lower end of the second heat exchanger 41 and impact to the normal work of the second heat exchanger 41.

Referring to Figure 1 and Figure 3, in the present embodiment, further, interior thermomechanical components further include heat preservation member 45 and lateral coaming plate 46. Chassis 1, lateral coaming plate 46, partition 5, front shroud 25 and back shroud 26 etc. enclose the second cavity；The lower part of lateral coaming plate 46 opens up There is the air intake vent (not indicating) being connected to inlet air part 42, heat preservation member 45 is then set between the second heat exchanger 41 and partition 5, main to use In isolation heat, usually it is made of plastic parts.Together referring to Fig. 4, the top surface of lateral coaming plate 46 is equipped with the first notch 461, heat preservation The top surface of part 45 is equipped with the second notch 453, the wind that the first notch 461 is connected to the 453 split formation of the second notch with outlet air part 43 Road junction (does not indicate), in this way, the tempering air in the second heat exchanging chamber 212 can enter the air duct of outlet air part 43 by wind passage mouth In then drain into temperature adjustment region.And further, to avoid influence of the air duct shape to wind condition out, the air inlet of outlet air part 43 Mouth is connected to wind passage mouth, and the side wall rounding off of outlet air part 43 and wind passage mouth, specifically, in the present embodiment, the wind passage mouth And the air inlet of the outlet air part 43 is circle.Herein specifically, in the present embodiment, heat preservation member 45 is in abnormity Plate, the inner plate surface towards the second heat exchanger 41 are being in half of horn-like setting of flaring along direction from the bottom up, this The volume for not only expanding the second heat exchanging chamber 212 is set and be conducive to improve air conditioner refrigerating efficiency, also may make wind passage mouth It can be adapted and connect with the air inlet of outlet air part 43.In addition, the top of heat preservation member 45 is equipped with top plate 451, the second notch 453 is It is opened on the top plate 451, and the leading edge of the top plate 451 and left edge flip up and be formed with flange (not indicating), it should Flange is connect with partition 5 and front shroud 25 respectively, to further fix heat preservation member 45, while also being opened in the lower end of heat preservation member 45 The via hole 452 worn equipped with the refrigerant runner pipe for the second heat exchanger 41.

Further, as shown in Figure 3 and Figure 4, in the present embodiment, the lower edge of the first notch 461 is towards heat preservation member 45 Overhead gage 462 is extended to form, overhead gage 462 is abutted with the upper end of the second heat exchanger 41, in this way, lateral coaming plate 46, overhead gage 462, the second heat exchanger 41 and chassis 1 can be enclosed the first heat exchanging chamber 211.It is appreciated that making interior thermomechanical components structure Under the premise of as simple and compact as possible, when wind passage mouth is consistent with the air inlet mouth-shaped of outlet air part 43 to connect, the second heat exchanger 41 Top in wind passage mouth, if being not provided with the overhead gage 462 at this time, the first heat exchanging chamber 211 can be with outlet air part 43 air duct is directly connected to, i.e., partial air will be discharged without the second heat exchanger 41 and directly from outlet air part 43, thus pole The earth affects the thermoregulation effect of air conditioner, and then can avoid the generation of this phenomenon after the overhead gage 462 setting, so that into The air of first heat exchanging chamber 211 must just can enter the second heat exchanging chamber 212 after the second heat exchanger 41, then through 43 row of outlet air part Enter to temperature adjustment region.

Referring to Fig.1, Fig. 2 and Fig. 6, in the present embodiment, specifically, inlet air part 42 is preferably cylindrical in shape setting, one end and Air intake vent is tightly connected, and to prevent air from leaking, and the other end is then and to temperature adjustment regional connectivity, will be to the sky in temperature adjustment region Gas is sent by with the tempering air after 41 heat exchange of the second heat exchanger to temperature adjustment region.And for outlet air part 43, this implementation In example, outlet air part 43 specifically includes upper volute 431, lower spiral case 432, centrifugal wind wheel 435 and for driving centrifugal wind wheel 435 First motor 434.For convenience of the installation and disassembly of component, upper volute 431 surrounds air duct with the splicing of lower about 432 spiral case and (does not mark Show), and centrifugal wind wheel 435 and first motor 434 are then built in air duct.The under shed of lower spiral case 432 connects with wind passage mouth Outlet air part 43 air inlet, and the free end far from the second heat exchanger 41 of upper volute 431 and lower spiral case 432 is then towards wait adjust Temperature area extends to form chimney fan 435, chimney fan 435 with to temperature adjustment regional connectivity.Here, after centrifugal blower operation Negative pressure is formed in air duct, so that air can be smoothly laggard through 41 heat exchange of the second heat exchanger from the first heat exchanging chamber 211 Enter the second heat exchanging chamber 212, and flows into from chimney fan 435 to temperature adjustment region.

Further, as shown in fig. 6, in the present embodiment, the axial direction of centrifugal wind wheel 435 along the vertical direction, is being centrifuged wind When 435 rotation of wheel, it can be changed to from below to up by the blade of centrifugal wind wheel 435 into the air of centrifugal wind wheel 435 along backward Direction discharge.Here, being equipped in the top surface of centrifugal wind wheel 435 for being centrifuged wind to further decrease the overall volume of air conditioner The resigning recess portion (not indicating) of 435 accommodating of wheel, the bottom surface of resigning recess portion are equipped with connector (not indicating), 434 one end of first motor It is connect with upper volute 431, the other end is connect with connector.In specific assembly, the upper end elder generation of first motor 434 and upper volute 431 connections, then its lower end and the inner connection of centrifugal wind wheel 435, the last lid of upper volute 431 closes on lower spiral case 432, and passes through spiral shell Nail etc. is attached thereto.

The above description is only a preferred embodiment of the present invention, is not intended to limit the scope of the invention, all at this Under the inventive concept of invention, using equivalent structure transformation made by description of the invention and accompanying drawing content, or directly/use indirectly It is included in other related technical areas in scope of patent protection of the invention.

Claims (10)

1. a kind of air conditioner characterized by comprising

Chassis, the chassis are located at the outside to temperature adjustment region；

Shell, the shell are located at the outside to temperature adjustment region, and the shell and the chassis are enclosed inner cavity, the inner cavity Equipped with partition, the inner cavity is isolated to form the first cavity and the second cavity；

Outer thermomechanical components, are built in first cavity, and the outer thermomechanical components include interconnected First Heat Exchanger and compressor, The lower end of the First Heat Exchanger and the compressor is connect with the chassis；And

Interior thermomechanical components, including the second heat exchanger, inlet air part and outlet air part, second heat exchanger are built in second cavity To be isolated second cavity to form mutually independent first heat exchanging chamber and the second heat exchanging chamber；The inlet air part is set to the shell Body lower part is simultaneously connected to first heat exchanging chamber, and the outlet air part is set to above the shell and connects with second heat exchanging chamber Logical, the inlet air part and outlet air part are and to temperature adjustment regional connectivity.

2. air conditioner as described in claim 1, which is characterized in that second heat exchanger includes refrigerant runner pipe, described cold Matchmaker's runner pipe, which is stretched out and worn from second heat exchanger, to be connected to after the partition with the compressor.

3. air conditioner as claimed in claim 2, which is characterized in that the lower end of second heat exchanger is connect with chassis, with shape At in mutually independent first heat exchanging chamber arranged on left and right directions and the second heat exchanging chamber；Alternatively,

The neighboring of second heat exchanger is connect with the shell, be formed in arrange in up and down direction it is mutually independent First heat exchanging chamber and the second heat exchanging chamber.

4. air conditioner as claimed in claim 3, which is characterized in that the interior thermomechanical components further include drip tray, the drip tray On be supported by second heat exchanger, the drip tray is placed on the chassis, and is equipped with the drainpipe for stretching out the chassis.

5. air conditioner as claimed in claim 4, which is characterized in that the interior thermomechanical components further include heat preservation member and lateral coaming plate, institute The lower part for stating lateral coaming plate offers the air intake vent being connected to the inlet air part, and the heat preservation member is set to second heat exchanger and institute It states between partition；

The top surface of the lateral coaming plate is equipped with the first notch, and the top surface of the heat preservation member is equipped with the second notch, first notch with The second notch split forms the wind passage mouth being connected to the outlet air part.

6. air conditioner as claimed in claim 5, which is characterized in that the air inlet of the outlet air part is connected to the wind passage mouth, And the side wall rounding off of the outlet air part and the wind passage mouth.

7. air conditioner as claimed in claim 5, which is characterized in that the lower edge of first notch prolongs towards the heat preservation member It stretches and is formed with overhead gage, the overhead gage is abutted with the upper end of second heat exchanger, the lateral coaming plate, the overhead gage, institute It states the second heat exchanger and the chassis is enclosed first heat exchanging chamber, to tempering air from first heat exchanging chamber through institute The second heat exchanger is stated into second heat exchanging chamber.

8. air conditioner as claimed in claim 5, which is characterized in that the inlet air part is cylindrical in shape setting, one end and the inlet air Mouthful be tightly connected, the other end with to temperature adjustment regional connectivity.

9. air conditioner as claimed in any one of claims 1 to 8, which is characterized in that the outlet air part includes upper volute, lower snail Shell, centrifugal wind wheel and the first motor for driving the centrifugal wind wheel, the upper volute splices up and down with lower spiral case to be surrounded Air duct, the centrifugal wind wheel and the first motor are built in the air duct；

The free end far from second heat exchanger of the upper volute and the lower spiral case extends to form chimney fan, the outlet air Cylinder with to temperature adjustment regional connectivity.

10. air conditioner as claimed in claim 9, which is characterized in that the axial direction of the centrifugal wind wheel along the vertical direction, it is described from The top surface of heart wind wheel is equipped with the resigning recess portion for centrifugal wind wheel accommodating, and the bottom surface of the resigning recess portion is equipped with connector, institute It states first motor one end to connect with the upper volute, the other end is connect with the connector.