CN110073132A - Valve arrangement, pipe arrangement and air handling system - Google Patents

Abstract

The present invention relates to a kind of valves of operational mode selector for air handling system to arrange (2), the valve arranges that (2) include tube elements (3), the tube elements include discharge port (4), inhalation port (5) and evaporator port (6), the valve arranges that (2) further include two or more model selection valves (9,10), these model selection valves are arranged to optionally set up fluidly connecting by the discharge port (4) or inhalation port (5).The object of the present invention is to provide a kind of compact design while still allowing for voicelessly switching between operating modes.The purpose is realized by the way that one or more of these model selection valves are two-step opening formula valves.It include the air handling system that such valve arranges (2) or such pipe arrangement (1) the invention further relates to a kind of pipe arrangement (1) including one or more valves arrangement in those valves arrangement (2) and one kind.

Description

Valve arrangement, pipe arrangement and air handling system

The present invention relates to a kind of valve of operational mode selector for air handling system arrangement, valve arrangement includes pipe Element, the tube elements include discharge port, inhalation port and evaporator port, and valve arrangement further includes two or more moulds Formula selector valve, these model selection valves are arranged to optionally set up the fluid by the discharge port or the inhalation port Connection.

In addition, the present invention relates to a kind of pipe arrangement of operational mode selector for air handling system, the pipeline Arrangement includes delivery pipe, suction line and at least one valve arrangement, and valve arrangement is fluidly coupled to the delivery pipe and the suction line It is optionally set up with to will pass through valve arrangement and is fluidly connected with one of the delivery pipe and the suction line, the delivery pipe packet One or more discharge port bonding pads are included, these discharge port bonding pads are respectively fluidly coupled to the corresponding row of valve arrangement Port is put, and the suction line includes one or more inhalation ports bonding pad, respectively fluid connects for these inhalation port bonding pads It is connected to the corresponding inhalation port of valve arrangement.

In addition, the present invention relates to it is a kind of including valve arrangement or pipe arrangement air handling system.

Air handling system including operational mode selector, more specifically variable refrigerant running system (VRF- system) Commonly known.In general, such air handling system includes passing through the one or more outdoor of system for pump refrigerant Unit, one or more conditioners including heat exchanger and expansion valve and the pipe including delivery pipe and suction line One or more outdoor units are fluidly coupled to the one or more sky in building by road system, the delivery pipe and the suction line Gas control device, the device being for example ceiling mounted, so as to by cold-producing medium supply to conditioner and from air Regulating device receives refrigerant.

In general, there are three types of operational modes: heating mode, refrigeration mode and close pattern for conditioner tool.Operation Mode selector allows selectively to control the fluid stream for passing through air handling system correspondingly to select three kinds of moulds One of formula.

To achieve it, operational mode selector includes two or more model selection valves, these model selections Valve is arranged to optionally set up fluidly connecting so as in the heating mode to air tune by delivery pipe or suction line Regulating device provides refrigerant, about 70 DEG C of hot gas and in cooling mode supplies back refrigerant from conditioner To outdoor unit.

Especially in office building, in order to reduce the noise during pattern switching, usually using four model selection valves To allow to be stepped up fluid stream.Fluid stream from delivery pipe is by means of the first mould with relatively low maximum fluid stream Formula selector valve and second mode selector valve with relatively large maximum fluid stream throttle.Into the stream of suction line The also control by two valves of body stream.One operational mode selector setting is used for each sky between delivery pipe and suction line Gas control device or one group of conditioner.Due to necessary pipe and four model selection valves, such operational mode Selector is often very complicated and occupies sizable space.

2003/0132409 A1 of US discloses a kind of valve arrangement for vacuum system.The valve arrangement include auxiliary valve and Main valve, and it is designed to two-step opening formula valve.Also from US 5,865,213, US 8,602,381 B2 and US 5,735, The valve arrangement with similar functions is learnt in 582.

The object of the present invention is to provide a kind of with good integration, still maintains noiseless valve cloth in operation simultaneously It sets, pipe arrangement and air handling system.

The purpose of the present invention is being realized by the arrangement of the valve as described in introductory song, it is in these model selection valves One or more is two-step opening formula valve.

Thus, it is possible to reduce the quantity of individual model selection valve, effectively result in this way space consuming reduce and by This leads to good integration.Due to still can gradually control fluid stream during mode changes, system keeps noiseless.

Preferably, valve arrangement is in planar configuration, and the tube elements and these model selection valves prolong on the same plane It stretches.Preferred tube elements are valve chests.Plane means that valve arranges the two spaces direction substantially in three direction in spaces Upper extension, and the extension on third direction in space is relatively small.It is thus preferable that model selection valve and valve chest form Plate structure.Model selection valve, discharge port, inhalation port and evaporator port can advantageously prolong on the same plane It stretches.It is therefore preferred that discharge port, inhalation port and/or evaporation port are radially on the outward direction of plate structure in phase Co-extensive be stretched flat on face from valve chest extends.Preferred valve chest is made of metal.Valve chest is preferably included for Installation Modes The valve of selector valve installs port.Preferably, longitudinal extension compared to plate structure on third direction in space, plate structure Extension of the edge on one or two of three direction in spaces direction in space be twice big, 2.5 times preferably big, more preferably It is five times greater.On the first direction in space, longitudinal extension of valve arrangement is 1.5 times preferably big, more excellent compared to second space direction Selection of land is 2 times big.For example, the length of the preferred first edge of valve arrangement is 20cm.The length of preferred second edge is 10cm. The length at the preferred third edge of valve arrangement is 4cm.

Preferably, one or more of these model selection valves provide the first unlatching step, the first unlatching step It is related to throttling to the fluid stream for passing through the model selection valve.Allow to open to establish in step first in this way and be selected across mode The fluid stream of valve is selected to establish the pressure drop of reduction on model selection valve.

Preferably, one or more of these model selection valves provide the second unlatching step, the second unlatching step It suddenly is voluntarily activated according to the scheduled reduced pressure drop on the model selection valve.Cause so once in model selection Scheduled reduced pressure drop is established on valve, then voluntarily actuating is all turned on model selection valve in the second unlatching step.

Preferably, two or more in these model selection valves are two-step opening formula valves.In some embodiments, valve Arrangement includes two model selection valves for being two-step opening formula valve just.Two-step opening formula valve is preferably adapted to first It partly opens in step and fully opens in the second step.This means that the fluid stream in first step compares second step Fluid stream in rapid is relatively smaller.Two individual valves can be replaced so as a result, to allow the fluid stream in first step Fluid stream in relatively small and second step is relatively large, the operational mode such as in the air handling system of the prior art It is applied in the valve arrangement of selector.Compact valve is arranged as possibility as a result, this still allows for voicelessly changing operation mould Formula.

Preferably, one or more of these model selection valves include auxiliary valve and main valve, which includes auxiliary Valve components and auxiliary valve seat are helped, which includes main valve element and main valve seat, which arranges and provide translatablely The auxiliary valve seat.Allow that there is extraordinary pile-up valve to arrange in this way.Substantially, two valve cells are integrated into one in this way A model selection valve.Preferred main valve element is biased by biasing element to open position.First in model selection valve opens In step, auxiliary valve components translate away from the auxiliary valve seat provided by main valve element.Fluid can flow through auxiliary valve seat and arrive as a result, Up to the downstream of main valve element, the pressure drop in main valve element is reduced in this way.Main valve element is set to be biased away from the biasing member of main valve seat Part is adapted to provide sufficiently strong power for only overcoming the pressure drop of reduction.It is opened in step second as a result, works as pressure drop When decreased predetermined amount, main valve element translates away from main valve seat completely to allow all to flow through model selection valve.Main valve Seat is formed preferably by the inner wall of valve chest, preferably by the end section of cylinder shape inner wall.Preferably, main valve element includes chamber Body, biasing element are arranged in the cavity.It is thus preferable that main valve element is radially around biasing element, the biasing element is by cloth It sets for making main valve element be biased away from main valve seat.Preferred biasing element be supported on the inner face of main valve element and It is supported on the support shoulder being arranged at auxiliary valve components.Then, main when assisting valve components to move away auxiliary valve seat The biasing element of valve components can be tensioned, and when the pressure drop that the power that the biasing element of tensioning provides is more than main valve element generates When power, main valve element will move away main valve seat, and whole fluid streams is thus made to pass through throttle valve.Preferably, main valve element packet Include cylindrical portion.Cylindrical portion preferably extends to the direction of main valve seat from auxiliary valve seat.It is also known as nozzle The purpose of cylindrical portion is that low pressure is provided to the cavity of main valve element to prevent the master when high-velocity fluid flows through main valve seat Valve components are closed.As a result, in the closed state, cylindrical portion will be by phase advantageously according to which of two ports The main valve element answered blocks and is respectively facing evaporator port or extends towards inhalation port.In other words, it is preferred that the first mould Formula selector valve controls the fluid stream relative to inhalation port, and second mode selector valve controls the fluid relative to discharge port Stream.Because fluid stream will both pass through evaporator port under heating mode and refrigeration mode, can be omitted to across evaporation The third mode selector valve that the fluid stream of device port is controlled.In the heating mode, discharge port and evaporator port it Between establish fluid stream.In cooling mode, fluid stream is established between inhalation port and evaporator port.

Preferably, it is arranged to by the main flow direction of the auxiliary valve seat of first mode selector valve and passes through the second mould The main flow direction of the auxiliary valve seat of formula selector valve is vertical.It can permit especially good integration in this way, because saving very much The construction in space is possible.It is thus preferable that the nozzle of main valve element defines the main flowing side by auxiliary valve seat To.If there is no such nozzle, then main flow direction be auxiliary valve seat aperture towards direction.Preferably, main valve seat Aperture towards direction identical with the aperture of auxiliary valve seat or nozzle.The preferred internal diameter in the aperture of main valve seat 8mm with Between 16mm.Preferred inner orifice diameter is such as 12mm or 14mm.Preferably, pass through the main flow direction quilt of discharge port It is arranged to parallel with by the main flow direction of inhalation port.Preferably, pass through the main flow direction quilt of evaporator port It is arranged to vertical with by the main flow direction of discharge port.Preferably, pass through the main flow direction quilt of evaporator port It is arranged to vertical with by the main flow direction of inhalation port.However, in some embodiments, in the master by discharge port Want angle of the setting greater than 0 ° between flow direction and the main flow direction for passing through inhalation port.It is advantageously possible for fluid in this way Dynamics and/or is conducive to for discharge port to be connected to delivery pipe and inhalation port is connected to suction line.

As a result, in view of the foregoing, it is preferred that the auxiliary valve components of first mode selector valve be arranged in translatablely with On the direction vertical across the primary fluid stream of discharge port and translatable the main stream for being arranged to and passing through evaporator port Dynamic direction is parallel.Preferably, the auxiliary valve components of second mode selector valve are arranged in translatablely and pass through evaporator port On the main vertical direction in flow direction and translatable the primary fluid stream for being arranged to and passing through discharge port and inhalation port In parallel.

Moreover it is preferred that main valve seat be arranged to by the main flow direction of evaporator port it is vertical.In this way may be used To further decrease fluid velocity and thus reduce noise.In addition, reducing fluid velocity can reduce main valve element in fluid The risk of closed state is moved back by main valve element and when passing through main valve seat.For being carried out to the fluid stream for passing through inhalation port For the second mode selector valve of control, this feature is highly preferred.

In a preferred embodiment, main valve seat is arranged to offset above the mid-diameter of evaporator port.Thus it is preferred to Ground, the primary fluid stream across evaporator or port are arranged to vertical and vertical with the offer cylindrical outer wall of main valve seat Ground is directed on the outer wall.The fluid velocity for entering or leaving the fluid of evaporator port can be further decreased in this way.It is excellent The offset of choosing is a quarter of the diameter of the overcentre of the fluid stream across evaporator port of evaporator port.Across steaming The center for sending out the primary fluid stream of device port is preferably consistent with the geometric center of evaporator port.For to across inhalation port For the second mode selector valve that fluid stream is controlled, this feature is highly preferred.

Preferably, the auxiliary valve components, the stroke length that being arranged to has are the internal diameter in the aperture of the main valve seat 25% or more.Preferably, it is at least 4mm that auxiliary valve components, which are arranged to the stroke length having,.It can understand from the above Ground finds out, auxiliary valve components are arranged to translatable to selectively turn on or close auxiliary valve.

Preferably, auxiliary valve components are arranged to solenoid-actuated in model selection valve by being located at.Due to main valve element Should have relatively large stroke length so as to be fully retracted from main valve seat and main valve element provide auxiliary valve seat, therefore, Auxiliary valve components should also have relatively large stroke length.Preferably, stroke length is at least 4mm, is more preferably At least 8mm.It obtains from the above, the preferred stroke length of main valve element is identical as the auxiliary stroke length of valve components.Nozzle Diameter is preferably more than 1mm, more preferably larger than 1.5mm from there through the internal diameter of the inner cavity of nozzle.

In a preferred embodiment, the auxiliary valve of one or more of these model selection valves is arranged to by applying peak Value electric power and open and be arranged to by apply keep electric power keep it turning on, the peaking power be greater than the holding electric power. Preferred model selection valve includes power supply or is arranged to by power supply power supply.Preferred power supply is 24V DC power supply.It needs opposite Biggish peaking power compensates the relatively large stroke length of auxiliary valve.Model selection valve is preferably arranged use as a result, In providing the peaking power of 25W to 75W, preferably 50W, duration amount is 100ms to 1000ms, preferably 150ms, more Preferably 500ms.In addition, model selection valve is arranged to once assist valve components in the open state and assists valve components It should keep providing the holding electric power of preferably 1W to 5W, more preferably 2.5W when then at open position in actuating.It is excellent Selection of land supplies peaking power by providing 2A to 3A, more preferably 2.2A.When apply keep electric power when, the electric current supplied It can reduce 0.05A to 0.7A, preferably 0.1A.As a result, if model selection valve is solenoid valve, solenoid can be by Arrangement is for actuating auxiliary valve components in the manner described above.

Preferably, evaporator port includes cylindrical conduit, which includes having and passing through evaporator port At least one section of radial outer wall for extending parallel to of main flow direction and have with main flow direction on the contrary The tapered section of tapered radial outer wall, the main flow direction are directed into tube elements.Preferably, it is parallel to main flowing Tilt angle between the inner surface of the radial outer wall of the inner surface and tapered section of the radial outer wall of the section of direction arrangement is small In 15 °.Preferably, gradient is less than 10 °.Preferably, there are two sections to have and the main fluid stream by evaporator port The radial outer wall that dynamic direction extends parallel to, and tapered section is arranged between the two parallel sections.Preferably, it will be far from The fluid speed of the end of the cylindrical conduit of the fluid velocity of the end of the cylindrical conduit of tube elements and neighbouring tube elements Degree is compared, and tapered section is preferably equivalent to the fluid velocity reduction for entering the fluid that tube elements pass through evaporator port Or it is greater than 1.5 times, more preferably equal to or greater than 2.5 times, most preferably equal to or greater than 3.5 times.Speed is reduced before valve It can reduce noise.

In addition, being that these valves are arranged the purpose of the present invention is realizing by the pipe arrangement as described in introductory song At least one of be valve as described above arrangement.

Pipe arrangement has compact dimensioning and reduced complexity as a result, while still can be with silent running.

Preferably, one or more of inhalation port bonding pad and/or one or more of discharge port bonding pad It is arranged in the radially-outer surface of corresponding pipe.Allow with the port in the radially-outer surface for being arranged in corresponding pipe for inciting somebody to action Valve arrangement installation to corresponding pipe has high positional flexibility.Preferably, two or more inhalation port bonding pads setting exists In the radially-outer surface of suction line.Preferably, the radial appearance of delivery pipe is arranged in two or more discharge port bonding pads In face.Preferably, suction line includes two or more inhalation port bonding pads in radially-outer surface, in radially-outer surface More preferably three or more, more preferably four or more, more preferably five or more, more preferably six or More, more preferably seven or more and most preferably eight or more inhalation port bonding pads.In addition necessary The discharge port bonding pad of accommodation, the quantity is preferably provided in delivery pipe.In some embodiments, corresponding port connects Area's setting is embarked on journey.Each of pipe may include two row port bonding pads of facing each other.It is built via corresponding port bonding pad Fluidly connecting between standpipe and valve arrangement.

In some embodiments, which includes with planar configuration and being connected to the delivery pipe and the suction line Two or more valves arrangement, these valves are arranged through air gap and are separated from each other.Preferably, two or more valves arrangement via The port bonding pad being arranged on the radially-outer surface of respective tube is connected to suction line and delivery pipe.Because valve has plane structure It makes, therefore section space-efficient array (valve of similar a line is arranged) can be set in pipe arrangement.The adjacent valve cloth of valve array The amount of air gap between setting should be 0.1cm to 10cm, more preferably 0.3cm to 1cm.For example, the amount of good air gap should be 0.5cm。

Preferably, which includes two or more valves of a line arrangement, the discharge port and suction of these valves arrangement Inbound port is successively arranged in every root canal in this two root canal.Row means that valve arrangement is arranged such that corresponding port exists A team is lined up in respective tube.This allows compact construction.However, adjacent port bonding pad can be arranged in alternative solution It is deviated at along respective tube.It can contribute to increase the air gap between two adjacent valve arrangements in a space-saving manner in this way.

Preferably, which includes the two valves arrangement being arranged at the delivery pipe as a pair, this is to valve cloth The discharge port that the discharge port for the valve arrangement set arranges another valve in valve arrangement towards this.Allow in this way Two or more valves arrangement is arranged on identical pipe while there is maximum air gap between them.Two pairs or more are arranged valve Be preferably arranged on the radially-outer surface of respective tube each pair of valve arrangement each of valve arrangement between have 180 ° Angular displacement.Each pipe arrangement can have a pair of, two pairs, three pairs, four pairs or even more pairs of valve arrangements.Preferred discharge Pipe is elongate tube, which includes two Guan Lian for delivery pipe to be fluidly coupled to the other elements of air handling system Fitting.Preferred suction line is elongate tube, the elongate tube include for by suction line be fluidly coupled to air handling system its Two pipe connections of his element.Preferred pipe is straight tube.

Preferably, which arranges including two or more valves of two rows, the row of each valve arrangement in a line It puts port and inhalation port is arranged to discharge port and inhalation port towards the corresponding valve arrangement in another row.Permit in this way Perhaps arrange that two row valves are arranged on identical pipe arrangement in a very effective manner.In other words, the phase of delivery pipe and suction line Port bonding pad is answered to be preferably arranged on the radially-outer surface of every root canal in two root canals, two row valves arrangement is arranged in every Facing each other in root canal.180 ° of the angular displacement of port bonding pad relative to another row of port bonding pad of a line valve arrangement as a result,.

In the embodiment of pipe arrangement, each valve arrangement includes evaporator port, wherein the delivery pipe and the suction line It is arranged on common plane, and the evaporator port extends perpendicular to the common plane.When multiple valves arrangement along delivery pipe and When suction line is sequentially arranged, such arrangement has advantage.

In the embodiment of pipe arrangement, there are at least two valves arrangements that evaporator port extends in the opposite direction. Therefore, the space of the two sides of pipe arrangement can be used for connecting other pipelines.

In an alternative embodiment, there are at least two valves arrangements that evaporator port extends in the same direction.At this In the case of kind, pipe arrangement can be located at the position that can be touched from side.

In the embodiment of pipe arrangement, the evaporator port of adjacent valve arrangement is on the direction perpendicular to the delivery pipe It offsets relative to each other.In other words, evaporator port is arranged in a zigzag manner.

In the embodiment of pipe arrangement, the evaporator port is in the first plane by passing through the delivery pipe and passes through the suction Enter in region defined by the second plane of pipe and be parallel to first plane and extends from pipeline section.In this way, evaporator Port can extend the space for example across suction line and delivery pipe.

In addition, the purpose of the present invention is being realized by the air handling system as described in introductory song, the air conditioning System includes valve arrangement as described above or pipe arrangement as described above.Such air handling system have compact construction, Simultaneously because gradually being throttled when switching between operating modes to fluid stream and allowing to run under low noise.

Preferred air handling system includes one or more conditioners.Preferred conditioner is connected to Liquid line and including electric expansion valve.Furthermore it is preferred that air handling system can be in close pattern, refrigeration mode and confession Switch between warm mode, is disposed with the air conditioning to reduce temperature or the increase in the room for being disposed with the air handling system The temperature in the room of system.Preferably, there are connecting tubes between the evaporator port and conditioner of valve arrangement.By This, preferred conditioner is evaporator in cooling mode, or is condenser in the heating mode.Therefore, in view of The above content, first mode selector valve are preferably heating mode valve, the heating mode valve be arranged to discharge port with Fluid stream between evaporator port is controlled.Accordingly, it is preferred that second mode selector valve is refrigeration mode valve, the refrigeration mould Formula valve is arranged to control the fluid stream between inhalation port and evaporator port.Preferred pressure at inhalation port Between 7bar and 10bar.Preferred pressure at discharge port is between 35bar and 40bar.Preferred pressure at evaporator port Power is between 20bar and 30bar.

Hereinafter, the preferred embodiment of the present invention will be described with reference to attached drawing, in the accompanying drawings:

Fig. 1 shows the perspective view of first embodiment according to the present invention；

Fig. 2 shows the section views of first embodiment through the invention；

Fig. 3 a shows the first state of a control according to first embodiment under heating mode；

Fig. 3 b shows the second state of a control according to first embodiment under heating mode；

Fig. 4 a show it is according to first embodiment it is in refrigeration mode under the first state of a control；

Fig. 4 b show it is according to first embodiment it is in refrigeration mode under the second state of a control；

Fig. 5 shows the perspective view of second embodiment according to the present invention；

Fig. 6 shows the third embodiment of the present invention；

Fig. 7 a shows the section of second embodiment through the invention；

The side view for two pipe arrangements that Fig. 7 b is connected to each other with showing tandem according to the second embodiment；

Fig. 8 shows the section of model selection valve used in the embodiment of the present invention；

Fig. 9 shows main valve element used in the embodiment of the present invention；

Figure 10 illustrates in perspective view the fourth embodiment of the present invention；

Figure 11 shows the section of fourth embodiment through the invention；

Figure 12 illustrates in perspective view the fifth embodiment of the present invention；And

Figure 13 shows the front view of the embodiment of Figure 12.

In order to increase readability, attached drawing mark is added in the described in detail below and the attached claims of embodiment Note.Appended drawing reference is not intended to be limited in any way.Moreover, it will be understood that feature shown in one embodiment can To be freely combined with feature shown in other embodiments and above-described any feature, as long as these features are not mutual Mutually conflict.Moreover, it will be understood that the present invention is not limited to exemplary embodiments.

Fig. 1 shows the first exemplary embodiment according to the present invention.Depict the operation mould for air handling system The pipe arrangement 1 of formula selector.Pipe arrangement 1 includes valve arrangement 2, and valve arrangement includes the tube elements 3 for being herein valve chest, should Tube elements include discharge port 4, inhalation port 5 and evaporator port 6.Pipe arrangement 1 includes delivery pipe 7 and suction line 8.Valve Arrangement 2 is fluidly coupled to delivery pipe 7 via discharge port 4.In addition, valve arrangement 2 is fluidly coupled to suction line via inhalation port 5 8.For this purpose, delivery pipe 7 includes discharge port bonding pad, which is fluidly coupled to the corresponding row of valve arrangement 2 Put port 4.In addition, suction line 8 includes inhalation port bonding pad, which is fluidly coupled to the suction of valve arrangement 2 Inbound port 5.It is fluidly connected by valve arrangement 2 with one of delivery pipe 7 and suction line 8 to optionally set up, valve cloth Setting 2 includes two model selection valves 9,10.More specifically, valve arrangement includes first mode selector valve 9, the first mode selector valve It is arranged to control the fluid stream from delivery pipe 7 to evaporator port 6.In addition, valve arrangement 2 includes that second mode is selected Valve 10 is selected, which is arranged to control the fluid stream from evaporator port 6 to suction line 8.

As shown in Figure 1, pipe arrangement has very compact design.This is because first mode selector valve 9 and the second mould Formula selector valve 10 is two-step opening formula valve.Two model selection valves 9,10 are provided which to be related to the fluid across model selection valve 9,10 The the first unlatching step and make a reservation for according on first mode selector valve 9 and second mode selector valve 10 that stream throttles Reduced pressure drop and voluntarily activate second open step.Two two-step opening formula valves rather than four are arranged as a result, to separate Valve to ensure undisturbedly to change between operating modes.Thus, it is possible to provide close pattern, heating with compact construction Noiseless change between mode and refrigeration mode.

As shown, valve arrangement 2 is planar configuration, tube elements 3 and model selection valve 9,10 extend on the same plane. This means that tube elements 3, discharge port 4, inhalation port 5,10 base of evaporator port 6, first throttle valve 9 and second throttle All extend on the same plane in sheet.

Fig. 2 discloses the further details about first embodiment now with section view.Because of two model selections Valve 9,10 is identical in terms of its Design and Features, therefore herein only with reference to the details of first mode selector valve 9.Fig. 2 is retouched The state drawn is an off.First mode selector valve 9 and second mode selector valve 10 are in completely closed state as a result,. Therefore, do not occur fluid stream between discharge port 4 and evaporator port 6 or between inhalation port 5 and evaporator port 6.The One model selection valve 9 is solenoid valve.Therefore, which includes solenoid 11a.Solenoid 11a can be by benefit It is screwed to the power supply of the shell of first mode selector valve 9 and motivates.When solenoid 11a is motivated, valve components are assisted 12a will be pulled up on the contrary with the bias force of first biasing element 13a (coil spring).Assist valve components 12a by main valve member Part 14a and the second biasing element 15a (coil spring) are radially around second biasing element is arranged to make main valve element 14a is biased in open position.In addition, main valve element 14a includes auxiliary valve seat 16a, which includes longitudinal nozzle.Such as It can be seen that, under the closed state of first mode selector valve 9, nozzle is extended to by the aperture of main valve seat 17a by providing In inner cavity provided by the cylindrical wall of main valve seat 17a.It is opened in step first as a result, solenoid 11a is motivated, in this way So that auxiliary valve components 12a moves away the auxiliary valve seat 16a provided by main valve element 14a.Pass through auxiliary valve seat 16a as a result, Relatively small fluid stream be possibly realized, and the second biasing element 15a become tensioning main valve element 14a is pushed away to generate The dynamic power for leaving main valve seat 17a.However, being preset to by the bias force that the second biasing element 15a is generated so that the bias force is small In the bias force generated by the pressure drop in main valve element, until establishing the scheduled reduced pressure drop on main valve element 14a.? On this time point, the pressure drop on main valve element 14a sufficiently reduces and makes main valve element 14a pushing off main valve seat Thus 17a executes second and opens step.Because the internal diameter in the aperture of main valve seat 17a is 8mm, it is greater than the hole of auxiliary valve seat 16a The internal diameter of mouth, therefore the fluid stream in the second unlatching step is than only having the first unlatching step of the aperture of auxiliary valve seat 16a unlatching In fluid stream it is much bigger.

Fig. 3 a depicts the state that heating mode will start now.In the first embodiment, by means of 24V DC power supply Continue 500ms at 2.2A and provides the peaking power of 50W for the solenoid 11a of first mode selector valve 9.However, instead of 24V DC power supply, can be used can supply enough peaking powers so that dynamic auxiliary valve components 12a any power supply.As shown in Figure 3a, First open step in, be arranged in auxiliary valve components 12a front end on shoulder be arranged to and auxiliary valve seat 16a phase The second biasing element 15a is compressed between the surface of anti-main valve element 14a.In this state, by the second biasing member The power that part 15a is provided still is not large enough to overcome power caused by the pressure drop of main valve element 14a.When since fluid is across auxiliary When helping the aperture of valve components 16a and reducing pressure drop, after establishing scheduled reduced pressure drop, by the second biasing element The power that 15a is generated is by strong to being enough to overcome by the power of pressure drop generation.Then main valve element 14a will be lifted from main valve seat 17a, such as What Fig. 3 b described.

Fig. 3 b then shows the heating mode under full effect.Make first segment since auxiliary valve is in the open position when When flowing the pressure drop reduction on valve 9, main valve element 14a is lifted from main valve seat 17a completely.Therefore, make main valve element 14a inclined It sets and leaves the second biasing element 15a of main valve seat 17a and produce sufficiently strong power so that main valve element 14a moves to open position It sets.In order to make that valve components 12a is assisted to be maintained in open position, the holding electric power supplied from power supply to solenoid 11a is sufficient , peaking power, which is greater than, keeps electric power.In the embodiment depicted, if having selected heating mode, electric power is kept to be 2.5W, be applied with such as 60 seconds or longer time.After by closing the deactivated heating mode of first mode selector valve 9, the One model selection valve 9 returns to the state of Fig. 2 description.

Fig. 4 a refers to the state of refrigeration mode to be started now.In this state, second mode selector valve is activated 10 to allow fluid to flow between evaporator port 6 and suction line 8.As described above, second mode selector valve 10 is set Meter and function are identical as the Design and Features of first mode selector valve 9.Therefore, continued at 2.2A by means of 24V DC power supply 500ms and provide the peaking power of 50W for the solenoid 11b of second mode selector valve 10.Being connected by screw to makes power attachment To second mode selector valve 10, as shown in fig. 4 a.However, can be used can supply enough peak value electricity instead of 24V DC power supply Any power supply of power.Auxiliary valve components 12b is lifted from auxiliary valve seat 16b, and permission fluid flows to suction from evaporator port 6 in this way Inbound port 5.Refrigerant can be from being fluidly coupled to the conditioner of evaporator port, 2 be transferred to across valve arrangement as a result, Inhalation port 5 simultaneously enters suction line 8.

Fig. 4 b shows the refrigeration mode under full effect.When the pressure difference of second mode selector valve 10 is due to auxiliary valve member When part 12b is in the open position and reduces, main valve element 14b is lifted from main valve seat 17b completely.Therefore, make main valve first The second biasing element 15b that part 14b is biased away from main valve seat 17b produces sufficiently strong power so that main valve element 14b is moved to Open position.It is sufficient, peak by the holding electric power that power supply is supplied to make that valve components 12b is assisted to be maintained in open position It is worth electric power and is greater than holding electric power.In the present embodiment, similar to first mode selector valve 9, keeping electric power is 2.5W.If selection Refrigeration mode then applies and keeps electric power such as 60 seconds or the longer time.After this, by closing second mode selector valve 10 And refrigeration mode is deactivated, it is thereby returned to the state of Fig. 2 description.

Fluid velocity in refrigeration mode in order to reduce Fig. 4 a and Fig. 4 b description and thus reduce noise, evaporator end Mouth 6 includes cylindrical conduit, which includes with parallel with by the main fluid flow direction of evaporator port 6 Ground extend radial outer wall two sections and with tapered on the contrary with the main fluid flow direction in refrigeration mode One section of radial outer wall.Tapered section is arranged between two parallel sections.The inner surface and tapered section of parallel section Inner surface between tilt angle less than 15 °.When the flow direction when cylindrical conduit in refrigeration mode broadens as a result, Fluid velocity reduces.In the illustrated embodiment, reduce 2.5 times by the fluid velocity of cylindrical conduit.In addition, second mode The main valve seat 17b of selector valve 10 is arranged to vertical with by the main flow direction of evaporator port 6.In addition, main valve seat 17b It is arranged to the mid-diameter offset relative to evaporator port 6.The two features further reduced to be selected across second mode It selects valve 10 and enters the fluid-flow rate of the fluid of suction line 8.Noise can be reduced during operational mode switches in this way, this It is highly preferred in working environment.

Therefore, it is based on Fig. 3 and Fig. 4, it is clear that when two or more in model selection valve 9,10 are two-step opening formula valves When, this is very favorable.When one or more of model selection valve 9,10 include auxiliary valve and main valve when, it is extraordinary by Step open be it is possible, auxiliary valve include auxiliary valve components 12a, 12b and auxiliary valve seat 16a, 16b, main valve include main valve element 14a, 14b and main valve seat 17a, 17b, main valve element 14a, 14b arrange translatablely and provide auxiliary valve seat 16a, 16b, such as What Fig. 3 and Fig. 4 described.As shown, being arranged by the main flow direction of the auxiliary valve seat 16a of first mode selector valve 9 At vertical with by the main flow direction of auxiliary valve seat 16b of second mode selector valve 10.This arranges valve 2 plane structure It makes, be thus highly beneficial for plate valve arrangement 2.Valve arrangement 2 is preferably sized 20x 10x 4cm³.According to the present invention Valve arrangement 2 be very saving space.

In general, in the state that Fig. 2 describes, before enabling heating mode, thus on startup, it is connected to evaporator end The electric expansion valve (EEV) of the conditioner (not shown) of mouth 6 is in the closed state for not allowing fluid to flow.In Fig. 3 a In the state of description, EEV is in the closed state for preventing fluid from flowing.In the state that Fig. 3 b describes, EEV, which is in, allows fluid The open state of flowing.When deactivating heating mode, EEV enters closed state, first mode selector valve 9 and second mode selection Valve 10 is also at closed state.

Before enabling refrigeration mode, EEV is in close state.When refrigeration mode is ready to, go out as shown in fig. 4 a, EEV is still within closed state.It is to open thus according to Fig. 4 b, EEV when running refrigeration mode.When deactivated refrigeration mode When, EEV, first mode selector valve 9 and second mode selector valve 10 all enter closed state.

Fig. 5 shows the second embodiment of the pipe arrangement 1 of the operational mode selector for air handling system, pipeline Arrangement 1 includes delivery pipe 7, suction line 8 and four valve arrangements 2, this four valve arrangements are fluidly coupled to delivery pipe 7 and suction line 8 are optionally set up with to will pass through each valve arrangement 2 and fluidly connect with one of delivery pipe 7 and suction line 8.Delivery pipe 7 Including four discharge port bonding pads, each discharge port bonding pad is fluidly coupled to the corresponding discharge end of each valve arrangement 2 Mouth 4, and suction line 8 includes four inhalation port bonding pads, and each inhalation port bonding pad is fluidly coupled to each valve cloth Set 2 corresponding inhalation port 5.As shown in figure 5, four valve arrangements 2 are all two-step opening formula valve, more specifically the above Solenoid valve.The radially-outer surface of corresponding pipe 7,8 is arranged in due to inhalation port bonding pad and discharge port bonding pad for this On the fact and be possibly realized.Each of valve arrangement 2 is all fluidly coupled to 7 He of delivery pipe by radially-outer surface as a result, Suction line 8.Therefore, four valve arrangements 2 have planar configuration.As shown, allowing to make valve arrangement 2 along delivery pipe 7 in this way and inhale The extension for entering pipe 8 is arranged side by side.More specifically, as shown in figure 5, being equipped with four valve arrangements 2 of a line, the discharge end of valve arrangement 2 Mouth 4 and inhalation port 5 are successively arranged in every root canal in two root canals 7,8.

Fig. 6 shows third embodiment according to the present invention.If here, pipe arrangement 1 includes being arranged at delivery pipe 7 Dry to arrange 2 to two valves, the discharge port 4 of the valve arrangement 2 of a centering is towards the discharge of another valve arrangement 2 of this centering Port 4.Three pairs of valve arrangements 2, thus six valves arrangements 2 of total are configured to be connected to delivery pipe 7 and suction line 8.Exist as a result, Two or more valves of two rows arrangement 2, the discharge port 4 and inhalation port 5 of each valve arrangement in a line be arranged to towards The discharge port 4 and inhalation port 5 of corresponding valve arrangement 2 in another row.Thus provide very compact pipe arrangement 1.

Fig. 7 a shows the section of the pipe arrangement 1 according to Fig. 5.Delivery pipe 7 and suction line 8 are covered each by plug 18 First end, and the other end is arranged to the fluid circuit for being fluidly coupled to air handling system.As can see in this drawing , four valve arrangements 2 have planar configuration and are connected to delivery pipe 7 and suction line 8, and valve arrangement 2 is divided each other by air gap 19 From.The width of air gap is 0.5cm.As a result, in the present embodiment, the distance between two adjacent valve arrangements 2 are 0.5cm.Two The distance between two center lines of a adjacent valve arrangement 2 are 3.8cm.

As shown in Figure 7b, when removing corresponding plug 18, two or more pipe arrangements 1 can form one group.Often The delivery pipe 7 and suction line 8 of a pipe arrangement 1 are connected to each other to tandem respectively.It is connect in the example shown using soldering as a result, Eight valves are arranged in a compact fashion and arrange 2 for head.

Fig. 8 now illustrates the longitudinal section by first mode selector valve 9, discloses more details.As shown, auxiliary Valve components 12a includes the cavity for accommodating first biasing element 13a.Biasing element 13a makes that valve components 12a is assisted to be biased into closing Thus position is pressed on auxiliary valve seat 16a.Auxiliary valve seat 16a is a part of main valve element 14a.Main valve element 14a is by brass It is made.However, in some embodiments, auxiliary valve seat 16a is made of molded polymeric object or Teflon.Allow with molding part Further omit the sealing device for sealing main valve element 14a.Assist the end of valve components 12a equipped with ball type device 20a. Ball type device 20a ensures that auxiliary valve seat 16a has excellent sealing in the off state.In alternate embodiment (not shown), Provided with substantially cylindrical element rather than ball type device 20a.

As shown in figure 8, the second biasing element 15a by main valve element 14a radially around.Allow compact design in this way.The Two biasing element 15a (coil spring) make main valve element 14a be biased into open position, thus be biased away from main valve seat 17a.So And the power that the second biasing element 15a is provided is only just sufficient after the scheduled reduced pressure drop for establishing first mode selector valve 9 It is enough strong.As shown, the second biasing element 15a is supported on the shoulder on the front end of auxiliary valve components 12a and ball type device 20a is adjacent.When assisting valve components 12a to translate backward and (translate 4mm in the present embodiment) into space 21a, the second biasing member Part 15a is compressed, and main valve element 14a can be forced immediately to leave master in the pressure drop decreased predetermined amount of main valve element 14a Valve seat 17a.Stroke length is the 50% of the internal diameter in the aperture of main valve seat 17a.However, in other embodiments, stroke length can Be only more than main valve seat 17a aperture internal diameter 25% to provide sufficient fluid ability.In addition necessary flexible and base In Fig. 4 a and Fig. 4 b, second mode selector valve 10 is same, follows principle of identity.

Finally, Fig. 9 shows the main valve element 14a applied in the first mode selector valve 9 of three embodiments.Main valve element 14a includes the supply mouth 22a across the radially-outer surface of conical main valve element 14a.Supply mouth 22a is arranged to and sealing surface 23 is adjacent.Supply mouth 22a also serves as outlet.Sealing surface 23a is ensured when main valve element 14a is in fully open state Sealing, thus main valve element 14a lifts the total travel of such as 4mm to 10mm from main valve seat 17a.Fluid can the row of respectively flowing through Put pipe 7 or suction line 8, and pass through when assisting valve components 12a far from auxiliary valve seat 16a supply mouth 22a, auxiliary valve seat 16a, Nozzle and evaporator port 6.It should be noted that the length of the tubular nozzle of auxiliary valve seat 16a depends on auxiliary valve components 12a Stroke length.The length of nozzle is selected to even make the direction of nozzle under the fully open state of main valve element 14a Front end far from auxiliary valve components 12a is kept by the cylindrical wall of main valve seat 17a radially around as Fig. 3 b can see.By This, low pressure is supplied to the inside of main valve element 14a from the upstream of main valve element 14a, prevents in fluid along its outer surface and passes through Main valve seat 17a closes main valve element 14a when flowing.This is opposite with the inhalant effect of the fluid of flowing.Further more, above description is also Main valve element 14b suitable for second mode selector valve 10.

As set forth above, it is possible to be arranged compared with the existing technology while be compact still allow for it is noiseless between operating modes Valve arrangement 2, pipe arrangement 1 and the air handling system (not shown) of change.This is because in fact in each valve arrangement 2 Using one or more two-step valves (being two two-step valves in the embodiments described) rather than multiple single step open-types Valve allows to save in this way space-efficient design while keeping function identical.

Figure 10 and Figure 11 show the fourth embodiment of the present invention, wherein arranging eight valve cloth in a very compact manner It sets.

For this purpose, delivery pipe 7 and suction line 8 self ground arrangement on common plane 30.

The evaporator port 6 of first group of 31 valve arrangement extends in one direction perpendicular to plane 30, and another group of 32 valves The evaporator port 6 of arrangement extends in the opposite direction perpendicular to plane 30.

Figure 12 shows the fifth embodiment of the present invention, similar to the embodiment of Figure 10 and Figure 11.However, two groups 31, The evaporator port 6 of 32 valve arrangement extends perpendicular to plane 30 in the same direction.

Such as Figure 13 it can be seen that, the evaporator port 6 of adjacent valve arrangement is opposite on the direction perpendicular to delivery pipe 7 In being offset from one another.In other words, evaporator port 6 can most preferably use available space to be arranged such that in a zigzag.

As specifically as seen from Figure 11, at least one evaporator port 6 (shows all evaporators in embodiment Port) as by region defined by the first plane 34 of delivery pipe 7 and the second plane 35 by suction line 8 from pipeline section 33 extend, wherein the first plane 34 and the second plane 35 are parallel to each other.Pipeline section 33 forms a part of valve arrangement 2

Claims (23)

1. a kind of valve of operational mode selector for air handling system arranges (2), which arranges that (2) include tube elements (3), which includes that discharge port (4), inhalation port (5) and evaporator port (6), the valve arrange that (2) further include two A or more model selection valve (9,10), these model selection valves are arranged to optionally set up through the discharge port (4) or inhalation port (5) fluidly connect, which is characterized in that one or more of these model selection valves (9,10) are Two-step opening formula valve.

2. valve arrangement according to claim 1, which is characterized in that the valve arranges that (2) are planar configuration, the tube elements (3) Extend on the same plane with these model selection valves (9,10).

3. valve arrangement according to any one of claim 1 or 2, which is characterized in that in these model selection valves (9,10) One or more have first to open step, which is related to by the fluid of the model selection valve (9,10) Stream throttles.

4. valve arrangement according to any one of claim 1 to 3, which is characterized in that in these model selection valves (9,10) One or more have second open step, this second unlatching step be voluntarily activate and depend on the model selection valve Scheduled reduced pressure drop on (9,10).

5. valve arrangement according to any one of claim 1 to 4, which is characterized in that in these model selection valves (9,10) Two or more be two-step opening formula valve.

6. valve arrangement according to any one of claim 1 to 5, which is characterized in that in these model selection valves (9,10) One or more include auxiliary valve and main valve, the auxiliary valve include auxiliary valve components (12a, 12b) and auxiliary valve seat (16a, 16b), which includes main valve element (14a, 14b) and main valve seat (17a, 17b), which arranges translatablely And provide the auxiliary valve seat (16a, 16b).

7. valve arrangement according to claim 6, it is characterized in that, pass through the auxiliary valve seat (16a) of first mode selector valve (9) Main flow direction be arranged to and hang down with by the main flow direction of the auxiliary valve seat (16b) of second mode selector valve (10) Directly.

8. being arranged according to claim 6 or valve as claimed in claim 7, which is characterized in that the main valve seat (17a, 17b) is arranged At vertical with by the main flow direction of the evaporator port (6).

9. the valve according to any one of claim 6 to 8 is arranged, which is characterized in that the main valve seat (17a, 17b) is arranged At offset above the mid-diameter of the evaporator port (6).

10. valve arrangement according to any one of claims 6 to 9, which is characterized in that the auxiliary valve components (12a, 12b) The stroke length that being arranged to has is 25% or more of the internal diameter in the aperture of the main valve seat (17a, 17b).

11. valve arrangement according to any one of claim 1 to 10, which is characterized in that these model selection valves (9,10) One or more of auxiliary valve be arranged to by apply peaking power open and be arranged to by apply keep Electric power and keep it turning on, the peaking power be greater than the holding electric power.

12. valve arrangement according to any one of claim 1 to 11, which is characterized in that the evaporator port (6) includes circle Cylindrical conduit, the cylindrical conduit include with the radial direction extended parallel to the main flow direction by the evaporator port At least one section and tapered section of outer wall, the diameter of the inner surface of the radial outer wall of the parallel section and the tapered section To the gradient between the inner surface of outer wall less than 15 °.

13. a kind of pipe arrangement (1) of the operational mode selector for air handling system, which includes row Pipe (7), suction line (8) and at least one valve arrangement (2) are put, valve arrangement is fluidly coupled to the delivery pipe (7) and the sucking Pipe (8) arranges that (2) optionally set up the fluid with one of the delivery pipe (7) and the suction line (8) will pass through the valve Connection, the delivery pipe (7) include one or more discharge ports bonding pad, these discharge port bonding pads are respectively fluidly coupled to The valve arranges the corresponding discharge port (4) of (2), and the suction line (8) includes one or more inhalation ports bonding pad, this A little inhalation port bonding pads are respectively fluidly coupled to the corresponding inhalation port (5) of valve arrangement (2), which is characterized in that these At least one of valve arrangement (2) is valve arrangement (2) according to any one of claim 1 to 8.

14. pipe arrangement according to claim 13, it is characterized in that, which includes having planar configuration simultaneously And it is connected to the delivery pipe (7) and two or more valves arrangement (2) of the suction line (8), these valves arrangement (2) passes through air gap (19) it is separated from each other.

15. pipe arrangement described in any one of 3 or 14 according to claim 1, it is characterized in that, two or more valve cloth of a line (2) are set, the discharge port (4) and inhalation port (5) of these valves arrangement (2) are arranged in this two root canal (7,8) with being corresponding in turn to Every root canal on.

16. pipe arrangement described in any one of 3 to 15 according to claim 1, it is characterized in that, which includes making Two valves at the delivery pipe (7) are arranged in for a pair and arrange (2), this arranges the discharge end of (2) to a valve in valve arrangement Mouth (4) arranges the discharge port (4) of (2) towards this to another valve in valve arrangement.

17. pipe arrangement described in any one of 3 to 16 according to claim 1, it is characterized in that, two or more valve cloth of two rows It sets (2), each valve is arranged as, and the discharge port (4) and inhalation port (5) of each valve arrangement (2) in a line are arranged to face The discharge port (4) and inhalation port (5) of corresponding valve arrangement (2) into another row.

18. pipe arrangement described in any one of 3 to 17 according to claim 1, which is characterized in that each valve arranges that (2) include Evaporator port (6), wherein the delivery pipe (7) and the suction line (8) are arranged on common plane (30), and the evaporator Port (6) extends perpendicular to the common plane (30).

19. pipe arrangement according to claim 18, it is characterized in that, evaporator port (6) extend in the opposite direction At least two valves arrange (2).

20. pipe arrangement according to claim 18, it is characterized in that, evaporator port (6) extend in the same direction At least two valves arrange (2).

21. pipe arrangement according to claim 20, which is characterized in that the evaporator port (6) of adjacent valve arrangement (2) It is offset relative to each other on the direction perpendicular to the delivery pipe (7).

22. pipe arrangement described in any one of 8 to 21 according to claim 1, which is characterized in that the evaporator port (6) exists In the region as defined by the first plane (34) by the delivery pipe (7) and the second plane (35) by the suction line (8), And it is parallel to first plane (34) to extend from pipeline section (33).

23. a kind of air handling system, including valve according to any one of claim 1 to 12 arrange (2) or according to power Benefit require any one of 13 to 22 described in pipe arrangement (1).