CN2921491Y - Multipath output control valve - Google Patents

Abstract

The utility model aims to provide a multipath output control valve where a valve port is closed by a spring force behind a seal gasket. When the valve port is closed, an arc-shaped boss on a valve core need not be in touch with a concaved part of a cam and clearance shall be kept, thereby greatly reducing requirement on manufacturing accuracy of the cam compared with the prior art. In the next place, as the spring force is adopted to close the valve port, the valve port can be securely closed with a small active force and the moment of force of motor is correspondingly reduced. In addition, as the seal gasket which is used as a device to close the valve port is made of rubber material or other plastic cement material or other soft materials, requirement on the fineness and concentricity of the valve port surface is greatly reduced, thereby realizing an easier closing of the valve port without leakage. The utility model basically has no leakage when the valve port is closed with small power consumption of motor, low manufacturing cost, easy processing of products, better performance, more competitive cost and easy large-scale production.

Description

Multi-path output controlling valve

Technical field

The utility model relate to a kind of with stepper motor as the multi-path output controlling valve of driving source, liquid or the gas that flows into is carried out multichannel output open and close controlling, be specially adapted to refrigeration system especially refrigerator refrigeration system do refrigerant and distribute and regulate control.

Background technique

As the stream of the refrigeration agent of refrigerator, air conditioner or other refrigerating appliance etc. is opened and closed, the device so that the temperature of the refrigeration cabinet that is communicated in stream is controlled generally adopts solenoid valve or adopts the step motor control valve to carry out switch control.But it is big and volume is big and when needs are controlled the stream of several refrigeration agents to adopt the system of general solenoid valve control to exist solenoid valve to open and close motion and sound, with regard to the shortcoming of need several solenoid valves controlling.

For example, China Patent No. is 03210179.1 bistable state two-position three way magnetic valve, is being located on the refrigerator refrigerant runner, and the state by solenoid valve switches changes the flow of refrigerant direction, thereby reaches the temperature of the different refrigeration cabinets of control refrigerator.This solenoid valve is made up of electromagnetic coil, valve body, permanent magnet etc., described valve body is made up of spool, sealing gasket, valve casing and inlet tube and two outer pipes and yoke, when input positive pulse or negative impulse the time, spool is by field drives that electromagnetic coil produced, move to the another one position by a position, at this moment spool and yoke are collided and are sent the bigger on-off action sound.This solenoid valve also can only be controlled the temperature of a refrigerator refrigeration cabinet.

The Chinese utility model patent that China Patent No. is 00118835.6, the model utility name is called valve drive discloses a kind of new step motor control valve, have the main body portion that is connected with outlet pipe with intake channel, the valve body that in predetermined range, can be opened and closed and the drive portion that drives this valve body to the opening that is connected with described outlet pipe, drive portion has cam member, and its setting has protuberance and low facial camming surface; By rotating the not relative driving source that makes described valve body action of the protuberance that drives this cam member and make camming surface with described valve body with low face portion.This valve drive, when on-off action, produce the bigger problem of sound though solved above-mentioned existing solenoid valve, but the while exists difficulty of processing height, internal leakage index to be not easy to control very for a short time technically so that can't satisfy the problem of the requirement of refrigeration system High Accuracy Control temperature.

The model utility content

The purpose of this utility model provides does not a kind ofly have substantially under the valve port closed condition that leakage, motor power consumption are little, the multi-path output controlling valve of low cost of manufacture, product easy processing.

For achieving the above object, multi-path output controlling valve of the present utility model comprises: motor stator portion is arranged at the valve body in the stator department axis hole, and is fixed between described valve body and the stator department and is sheathed on the outer scaffold of described valve body; Described valve body comprises: valve seat, valve nozzle, spool stand, spool, sealing gasket, spring and cam are characterized in:

Described cam is arranged between described valve seat and the spool, and be fixed on the machine shaft and rotate with motor synchronous, on described cam, be formed with and promote the projecting surface and the low concave surface that can allow described spool that described spool leaves the valve port of described valve nozzle one end near described valve port, be formed with the inclined-plane that is connected that is used for smooth excessiveness between described projecting surface and low concave surface, it is used for allowing described sealing gasket open or close described valve port within the limits prescribed; Wherein,

The moving preposition of leading of described cam revolution, the projecting surface of described cam is towards described spool direction, and act on described spool and drive that described sealing gasket leaves described valve port so that described valve port is opened, the low concave surface of described cam makes described sealing gasket drive described spool under the spring force effect of described spring and contacts with described valve port face to the sealing surface that described valve port direction moves on the described sealing gasket, and described sealing gasket is reliably closed described valve port under the effect of described spring force.

According to above-mentioned conception of the present utility model, be preferably:

Described valve seat is used to connect the inlet tube of importing fluid and the outer pipe of exporting fluid;

Described valve nozzle is arranged on the described valve seat, and the one end is formed with the fluid through-hole that communicates with described outer pipe, and the other end is formed with the described valve port that opens and closes usefulness as pipeline;

Described spool stand is fixedly arranged on the described valve seat, and it is used for being formed with spool mounting hole and corresponding configuration with described valve nozzle for described spool provides a framework that slides along axial direction on described spool stand;

Described spool is arranged in the spool mounting hole that forms on the described spool stand, also is formed with the sealing gasket mounting hole on described spool, and it is used for linking with described sealing gasket under described cam action;

Described sealing gasket is arranged in the sealing gasket mounting hole that forms on the described spool, is used for opening and closing described valve port; And

Described spring is arranged in the spool mounting hole that forms on the described spool stand and places between described sealing gasket and the spool stand, and it is used for allowing described sealing gasket reliably close described valve port.

According to above-mentioned conception of the present utility model, be preferably, described valve body also comprises:

Valve pocket is set on the boss of described valve seat formation;

Rotor part is provided with a rotating shaft, inserts in the axis hole of the formation on the described spool stand;

Locating column is pressed into the locating column hole that forms on described valve seat; And

Jump ring snaps in the jump ring groove that forms in the described rotating shaft.

According to above-mentioned conception of the present utility model, be preferably, described cam whenever turns to preposition, the pairing spool of valve port that the projecting surface of described cam can be opened one or several regulations be pushed to the position that described valve port is opened with sealing gasket, and the low concave surface of described cam can provide enough spaces for the pairing described spool of stipulating of one or several valve ports of closing so that its reliable close port.

According to above-mentioned conception of the present utility model, be preferably, described spool and the corresponding configuration of described valve port, described sealing gasket under the effect of spring force to described valve port pressuring direction and drive described spool and move to described valve port direction.

According to above-mentioned conception of the present utility model, be preferably, described spool is only to do axial motion in the spool installation axle hole of described spool stand.

According to above-mentioned conception of the present utility model, be preferably, the cylindrical or polygon cylindricality of described spool is provided with arc boss at an end face of described spool and at the end near described valve port.

According to above-mentioned conception of the present utility model, be preferably, described sealing gasket be by rubber or other plastic cement or similarly flexible material make.

According to above-mentioned conception of the present utility model, be preferably, down, the low recess of arc boss on the described spool and described cam leaves the gap and does not contact with each other described valve port in off position.

Adopt the multi-path output controlling valve of the present utility model of such said structure, come close port by sealing gasket spring force behind, under the valve port closing state, arc boss on the spool does not need to contact and leave the gap with the low recess of described cam, and therefore compared with the prior art the accuracy of manufacturing to cam is more significantly reduced; Secondly, taked to use the spring force close port, allowing valve port reliably close necessary forces can be very little, so motor torque is also corresponding reduces; The device of described valve port is closed in the sealing gasket conduct of also having adopted rubber material or other plastic cement or similar flexible material to make in addition, make the valve port face degree of finish and the concentricity requirement of described valve nozzle reduce greatly, thereby it is easier to make the realization close port not have leakage.Multi-path output controlling valve of the present utility model does not have leakage substantially under the valve port closed condition, and motor power consumption is little, the product easy processing.This shows that multi-path output controlling valve of the present utility model does not need to adopt high precision equipment just can make, so little investment, low cost of manufacture, assembling are simple, but product performance are better, cost is more competitive and be convenient to produce in enormous quantities.

For further specifying above-mentioned purpose of the present utility model, structural feature and effect, the utility model is described in detail below with reference to accompanying drawing.

Description of drawings

Fig. 1 a is the structural representation of the utility model multi-path output controlling valve; Fig. 1 b is along the obtained sectional view of the A-A line of Fig. 1 a.

Fig. 2 is the schematic representation that concerns from eight state position switch valve ports of the cam member of multi-path output controlling valve.

Fig. 3 a is the structural representation of cam member; Fig. 3 b is that the B of Fig. 3 a is to view.

Fig. 4 is the structural representation of spool stand member.

Fig. 5 a is the generalized section of spool members; Fig. 5 b is that the C of Fig. 5 a is to view.

Fig. 6 a is the generalized section of valve seat member; Fig. 6 b is that the D of Fig. 6 a is to view; Fig. 6 c is that the E of Fig. 6 a is to view.

Fig. 7 is the structural representation of rotor part.

Fig. 8 a is the structural representation of stator component; Fig. 8 b is the left view of Fig. 8 a; Fig. 8 c is the plan view of Fig. 8 a.

Embodiment

The agent structure of the utility model multi-path output controlling valve can be divided into three parts on external structure shown in Fig. 1 a, 1b, comprising: valve body 1, motor stator portion 2 and scaffold 3.Be provided with stator department 2 near rotor magnetic steel 1.1.5 one end, described valve body 1 places in the axis hole 2.12 of stator department 2 as shown in Figure 8, and scaffold 3 is fixed between described valve body 1 and the stator department 2 and is set on the valve pocket 1.11 of described valve body 1.

Above-mentioned valve body 1 comprises: rotor part 1.1, spool stand 1.2, spool 1.3a, 1.3b, 1.3c, spring 1.4a, 1.4b, 1.4c, sealing gasket 1.5a, 1.5b, 1.5c, cam 1.6, valve nozzle 1.7a, 1.7b, 1.7c, locating column 1.9, valve seat 1.10, valve pocket 1.11, outlet pipe (also can claim outer pipe) 1.12a, 1.12b, 1.12c, intake channel (also can claim inlet tube) 1.13, jump ring 1.14.

Described rotor part 1.1 has adopted the form of disperseing the part assembling, and it comprises: rotating shaft 1.1.1, nut 1.1.2, spring washer 1.1.3, plain washer 1.1.4, magnet steel 1.1.5, magnet steel upper bracket 1.1.6, magnet steel lower support frame 1.1.7.

Described valve seat 1.10 is used to connect the intake channel 1.13 of importing fluid and outlet pipe 1.12a, 1.12b, the 1.12c that exports fluid, outlet pipe 1.12a, 1.12b, 1.12c insert hole 1.10.8a, the 1.10.8b, the 1.10.8c interior (shown in Fig. 6 a, 6c) that form on the described valve seat 1.10 respectively and also use the method for soldering to weld, and intake channel 1.13 inserts the interior method welding of also using soldering of the hole 1.10.9 of formation on the described valve seat 1.10.

Described valve nozzle 1.7a, 1.7b, 1.7c are pressed into respectively on the described valve seat 1.10 in the cone shape hole 1.10.3a, the 1.10.3b that form, the 1.10.3c, the conical surface of cone shape hole 1.10.3a, 1.10.3b, 1.10.3c and valve nozzle 1.7a, 1.7b, 1.7c closely cooperates, the end of valve nozzle 1.7a, 1.7b, 1.7c is formed with the fluid through-hole that communicates with described outlet pipe 1.12a, 1.12b, 1.12c, and the other end is formed with valve port 1.8a, 1.8b, the 1.8c that opens and closes usefulness as pipeline.

The locating column hole 1.10.1 close-fitting that forms on described locating column 1.9 and the described valve seat 1.10 is pressed into.

The positioning hole 1.10.5a, the 1.10.5b that form on the described valve seat 1.10 are the auxiliary holes that is used to install described spool stand 1.2.

Described sealing gasket 1.5a, 1.5b, 1.5c can by rubber or other plastic cement or similarly flexible material make, be installed in respectively in the hole 1.3.4 of described spool 1.3a, the last formation of 1.3b, 1.3c, as shown in Figure 5, each sealing gasket 1.5a, 1.5b, 1.5c and spool 1.3a, 1.3b, the corresponding configuration of 1.3c are used for opening and closing corresponding valve port 1.8a, 1.8b, 1.8c.

Described spool 1.3a, 1.3b, 1.3c be installed in the spool mounting hole 1.2.1a that described spool stand 1.2 forms respectively, 1.2.1b, 1.2.1c in, in conjunction with shown in Figure 4, each spool 1.3a, 1.3b, 1.3c with each valve nozzle 1.7a, 1.7b, 1.7c corresponding configuration, and with described spool 1.3a, 1.3b, 1.3c on locating slot 1.3.1 and with described spool stand 1.2 on positioning key 1.2.3a, 1.2.3b, 1.2.3c match, each spool 1.3a, 1.3b, 1.3c only with corresponding spool mounting hole 1.2.1a at spool stand 1.2,1.2.1b, 1.2.1c in do axial motion, and can not do radial motion, spool 1.3a, 1.3b, 1.3c can cylindrical or polygon cylindricality, at spool 1.3a, 1.3b, 1.3c an end face and near corresponding valve port 1.8a, 1.8b, 1.8c an end be provided with arc boss 1.3.2 separately, shown in Fig. 5 b.

Described spring 1.4a, 1.4b, 1.4c also are installed in respectively in spool mounting hole 1.2.1a that described spool stand 1.2 forms, 1.2.1b, the 1.2.1c, the one end places respectively on spring seat 1.2.2a, 1.2.2b on the spool stand 1.2, the 1.2.2c, the other end contacts with described sealing gasket 1.5a, 1.5b, 1.5c, each spring 1.4a, 1.4b, 1.4c and each sealing gasket 1.5a, 1.5b, the corresponding configuration of 1.5c.

Rotating shaft 1.1.1 on the described rotor part 1.1 inserts in the hole 1.2.9 on the described spool stand 1.2, described cam 1.6 is arranged at described valve seat 1.10 and spool 1.3a, 1.3b, 1.3c between, and the rotating shaft 1.1.1 that is fixed on motor goes up and motor synchronous is rotated, simultaneously near an end of described valve seat 1.10 and at valve port 1.8a, 1.8b, 1.8c the inboard of position circle contour, and be fixed on the machine shaft 1.1.1 and the motor synchronous rotation, in conjunction with shown in Figure 3, on described cam 1.6, be formed with and promote described spool 1.3a, 1.3b, 1.3c leave corresponding valve port 1.8a, 1.8b, 1.8c projecting surface 1.6.1, with can allow described spool 1.3a, 1.3b, 1.3c near corresponding valve port 1.8a, 1.8b, 1.8c low concave surface 1.6.2, between projecting surface 1.6.1 and low concave surface 1.6.2, be provided be used for smooth excessiveness be connected inclined-plane 1.6.3, it is used for allowing described sealing gasket 1.5a, 1.5b, 1.5c open or close described corresponding valve port 1.8a within the limits prescribed, 1.8b, 1.8c.

Described jump ring 1.14 is in the jump ring groove 1.1.1.1 that snaps on the described rotating shaft 1.1.1, as shown in Figure 7.

Described spool stand 1.2 (having assembled spool) is arranged on the described valve seat 1.10 and makes spool mounting hole 1.2.1a, 1.2.1b on the described spool stand 1.2,1.2.1c position and described valve nozzle 1.7a, 1.7b, 1.7c corresponding, and by links such as screws described spool stand 1.2 is fixed on the described valve seat 1.10.

Described valve pocket 1.11 is set on the boss 1.10.7 of described valve seat 1.10 formation, and integrally welded with the method for inferior arc welding.

The concrete enforcement of stepper motor: 24 utmost point permanent magnetism pawl formula stepper motor schemes have been adopted in the stepper motor design.As shown in Figure 8, described motor stator portion 2 comprises: coil rack 2.3,2.8, coil 2.4,2.10, upper core 2.5, lower core 2.9, middle iron core 2.6,2.7, tenminal block 2.11.1,2.11.2,2.11.3,2.11.4,2.11.5,2.11.6, connector 2.2, combine one 24 utmost point stator department 2, and it is corresponding with described rotor 1.1, it is 3.75 degree that stepper motor whenever makes a move, and can forward and reversely rotate.

Below, by the utility model multi-path output controlling valve state action transfer process that illustrates shown in Figure 2.Be not difficult to find out that from Fig. 2 when described multi-path output controlling valve was equipped with 3 outflow pipelines, it can control 3 switchings of flowing out pipelines, and can realize following 8 steady states:

(1) initial state: former dotted state, three valve port A, B, C are in full closing state;

(2) the 2nd kinds of states: from former light described cam rotate along clockwise direction 45 the degree, described valve port A, B valve port are opened, valve port C closes;

(3) three states: from former light described cam rotate along clockwise direction 90 the degree, described valve port A opens, valve port B, C close;

(4) the 4th kinds of states: from former light described cam rotate along clockwise direction 135 the degree, described valve port A, C open, valve port B closes;

(5) the 5th kinds of states: from former light described cam rotate along clockwise direction 180 the degree, described valve port C opens, valve port A, B close;

(6) the 6th kinds of states: from former light described cam rotate along clockwise direction 225 the degree, described three valve ports are all opened;

(7) the 7th kinds of states: from former light described cam rotate along clockwise direction 270 the degree, described valve port B opens, valve port A, C close;

(8) the 8th kinds of states: from former light described cam rotate along clockwise direction 315 the degree, described valve port B, C open, valve port A closes.

To be described in detail above-mentioned 8 kinds of states by the action of each several part and in conjunction with above-mentioned specific embodiment of the utility model below.

On-off action from start transition to the 2 states:

The cam position of initial state: on described cam 1.6, be provided with positive stop lug boss 1.6.4, when described cam 1.6 turns to its boss 1.6.4 when contacting with described limited post 1.9 to counter clockwise direction, this state is the initial state of valve, this moment described spool 1.3a, 1.3b, 1.3c on the projecting surface of the arc boss 1.3.2 that is respectively equipped be in the corresponding position of the low concave surface 1.6.2 on the described cam 1.6, described spool 1.3a, 1.3b, 1.3c at described spring 1.4a, 1.4b, 1.4c under the effect of spring force respectively to described valve port 1.8a, 1.8b, 1.8c direction moves to described sealing gasket 1.5a, 1.5b, 1.5c with described valve port 1.8a, 1.8b, 1.8c contact, and at described spring 1.4a, 1.4b, 1.4c closely close described valve port 1.8a under the effect of spring force, 1.8b, 1.8c; When the stepper motor clockwise direction rotated for 12 steps, be that described cam 1.6 rotates 45 when spending along clockwise direction, the state of multi-path output controlling valve is transformed into the 2nd state by initial state: this moment described spool 1.3a, 1.3b on the projecting surface of the arc boss 1.3.2 that is respectively equipped with contact with projecting surface 1.6.1 on the described cam 1.6, described sealing gasket 1.5a, 1.5b left described valve port 1.8a respectively, 1.8b the position, thereby open valve port, the projecting surface of the arc boss 1.3.2 that described spool 1.3c is provided with is in the corresponding position of the low concave surface 1.6.2 on the described cam 1.6, and described spool 1.3c contacts with described valve port 1.8c and closely close described valve port 1.8c under the effect of described spring 1.4c spring force moving to described sealing gasket 1.5c to described valve port 1.8c direction under the effect of described spring 1.4c spring force.

On-off action from the 2nd state exchange to the 3 states:

Multi-path output controlling valve is under the 2nd state, when the stepper motor clockwise direction was rotated further for 12 steps, be that described cam 1.6 is rotated further 45 degree along clockwise direction, the state of valve is by the 2nd state exchange to the 3 states: this moment, the projecting surface of the arc boss 1.3.2 that described spool 1.3a is provided with contacted with projecting surface 1.6.1 on the described cam 1.6, described sealing gasket 1.5a has left the position of described valve port 1.8a, thereby opens valve port; The projecting surface of the arc boss 1.3.2 that described spool 1.3b, 1.3c are provided with is in the corresponding position of the low concave surface 1.6.2 on the described cam 1.6, described spool 1.3b, 1.3c under the effect of described spring 1.4b, 1.4c spring force to described valve port 1.8b, 1.8c direction move to described sealing gasket 1.5b, 1.5c with described valve port 1.8b, 1.8c contacts and closely close described valve port 1.8b, 1.8c under the effect of described spring 1.4b, 1.4c spring force.

On-off action from the 3rd state exchange to the 4 states:

Multi-path output controlling valve is under the 3rd state, when the stepper motor clockwise direction was rotated further for 12 steps, be that described cam 1.6 is rotated further 45 degree along clockwise direction, the state of valve is by the 3rd state exchange to the 4 states: this moment described spool 1.3a, 1.3c on the projecting surface of the arc boss 1.3.2 that is respectively equipped with contact with projecting surface 1.6.1 on the described cam 1.6, described sealing gasket 1.5a, 1.5c left described valve port 1.8a respectively, 1.8c the position, thereby open valve port, the projecting surface of the arc boss 1.3.2 that described spool 1.3b is provided with is in the corresponding position of the low concave surface 1.6.2 on the described cam 1.6, and described spool 1.3b contacts with described valve port 1.8b and closely close described valve port 1.8b under the effect of described spring 1.4b spring force moving to described sealing gasket 1.5b to described valve port 1.8b direction under the effect of described spring 1.4b spring force.

On-off action from the 4th state exchange to the 5 states:

Multi-path output controlling valve is under the 4th state, when the stepper motor clockwise direction was rotated further for 12 steps, be that described cam 1.6 is rotated further 45 degree along clockwise direction, the state of valve is by the 4th state exchange to the 5 states: this moment, the projecting surface of the arc boss 1.3.2 that described spool 1.3c is provided with contacted with projecting surface 1.6.1 on the described cam 1.6, described sealing gasket 1.5c has left the position of described valve port 1.8c, thereby open valve port, described spool 1.3a, 1.3b on the projecting surface of the arc boss 1.3.2 that is respectively equipped be in the corresponding position of the low concave surface 1.6.2 on the described cam 1.6, described spool 1.3a, 1.3b at described spring 1.4a, 1.4b under the effect of spring force to described valve nozzle 1.8a, 1.8b direction moves to described sealing gasket 1.5a, 1.5b with described valve port 1.8a, 1.8b contact and at described spring 1.4a, 1.4b closely close described valve port 1.8a under the effect of spring force, 1.8b.

On-off action from the 5th state exchange to the 6 states:

Multi-path output controlling valve is under the 5th state, when the stepper motor clockwise direction was rotated further for 12 steps, be that described cam 1.6 is rotated further 45 degree along clockwise direction, the state of valve is by the 5th state exchange to the 6 states: the projecting surface of the arc boss 1.3.2 that be respectively equipped with on described spool 1.3a, 1.3b, the 1.3c this moment contacts with the projecting surface 1.6.1 on the described cam 1.6, described sealing gasket 1.5a, 1.5b, 1.5c have left the position of described valve port 1.8a, 1.8b, 1.8c respectively, thereby open whole valve ports.

On-off action from the 6th state exchange to the 7 states:

Multi-path output controlling valve is under the 6th state, when the stepper motor clockwise direction was rotated further for 12 steps, be that described cam 1.6 is rotated further 45 degree along clockwise direction, the state of valve is by the 6th state exchange to the 7 states: this moment, the projecting surface of the arc boss 1.3.2 that described spool 1.3b is provided with contacted with projecting surface 1.6.1 on the described cam 1.6, described sealing gasket 1.5b has left the position of described valve port 1.8b, thereby opens valve port; The projecting surface of the arc boss 1.3.2 that is respectively equipped with on described spool 1.3a, the 1.3c is in the corresponding position of the low concave surface 1.6.2 on the described cam 1.6, described spool 1.3a, 1.3c under the effect of described spring 1.4a, 1.4c spring force to described valve nozzle 1.8a, 1.8c direction move to described sealing gasket 1.5a, 1.5c with described valve port 1.8a, 1.8c contacts and closely close described valve port 1.8a, 1.8c under the effect of described spring 1.4a, 1.4c spring force.

On-off action from the 7th state exchange to the 8 states:

Multi-path output controlling valve is under the 7th state, when the stepper motor clockwise direction was rotated further for 12 steps, be that described cam 1.6 is rotated further 45 degree along clockwise direction, the state of valve is by the 7th state exchange to the 8 states: the projecting surface of the arc boss 1.3.2 that be respectively equipped with on described spool 1.3b, the 1.3c this moment contacts with the projecting surface 1.6.1 on the described cam 1.6, described sealing gasket 1.5b, 1.5c have left the position of described valve port 1.8b, 1.8c respectively, thereby open valve port; The projecting surface of the arc boss 1.3.2 that described spool 1.3a is provided with is in the corresponding position of the low concave surface 1.6.2 on the described cam 1.6, and described spool 1.3a contacts with described valve port 1.8a and closely close described valve port 1.8a under the effect of described spring 1.4a spring force moving to described sealing gasket 1.5a to described valve port 1.8a direction under the effect of described spring 1.4a spring force.

In sum, multi-path output controlling valve of the present utility model comes close port by sealing gasket spring force behind, under the valve port closing state, arc boss on the spool does not need to contact and leave the gap with the low recess of described cam, and therefore compared with the prior art the accuracy of manufacturing to cam is more significantly reduced; Secondly, taked to use the spring force close port, allowing valve port reliably close necessary forces can be very little, so motor torque is also corresponding reduces; The device of described valve port is closed in the sealing gasket conduct of also having adopted rubber material or other plastic cement or similar flexible material to make in addition, make the valve port face degree of finish and the concentricity requirement of described valve nozzle reduce greatly, thereby it is easier to make the realization close port not have leakage.Multi-path output controlling valve of the present utility model does not have leakage substantially under the valve port closed condition, and motor power consumption is little, the product easy processing.This shows that multi-path output controlling valve of the present utility model does not need to adopt high precision equipment just can make, so little investment, low cost of manufacture, assembling are simple, but product performance are better, cost is more competitive and be convenient to produce in enormous quantities.

Though the utility model is described with reference to current specific embodiment, but those of ordinary skill in the art will be appreciated that, above embodiment is used for illustrating the utility model, under the situation that does not break away from the utility model spirit, also can make the variation or the replacement of various equivalences, therefore, as long as in connotation scope of the present utility model in the scope to the variation of the foregoing description, claims that modification all will drop on the application.

Claims (8)

1. multi-path output controlling valve comprises: motor stator portion is arranged at the valve body in the stator department axis hole, and is fixed between described valve body and the stator department and is sheathed on the outer scaffold of described valve body; Described valve body comprises: valve seat, valve nozzle, spool stand, spool, sealing gasket, spring and cam is characterized in that:

Described cam is arranged between described valve seat and the spool, and be fixed on the machine shaft and rotate with motor synchronous, on described cam, be formed with and promote the projecting surface and the low concave surface that can allow described spool that described spool leaves the valve port of described valve nozzle one end near described valve port, be formed with the inclined-plane that is connected that is used for smooth excessiveness between described projecting surface and low concave surface, it is used for allowing described sealing gasket open or close described valve port within the limits prescribed; Wherein,

The moving preposition of leading of described cam revolution, the projecting surface of described cam is towards described spool direction, and act on described spool and drive that described sealing gasket leaves described valve port so that described valve port is opened, the low concave surface of described cam makes described sealing gasket drive described spool under the spring force effect of described spring and contacts with described valve port face to the sealing surface that described valve port direction moves on the described sealing gasket, and described sealing gasket is reliably closed described valve port under the effect of described spring force.

2. multi-path output controlling valve as claimed in claim 1 is characterized in that:

Described valve seat is used to connect the inlet tube of importing fluid and the outer pipe of exporting fluid;

Described valve nozzle is arranged on the described valve seat, and the one end is formed with the fluid through-hole that communicates with described outer pipe, and the other end is formed with the described valve port that opens and closes usefulness as pipeline;

Described spool stand is fixedly arranged on the described valve seat, and it is used for being formed with spool mounting hole and corresponding configuration with described valve nozzle for described spool provides a framework that slides along axial direction on described spool stand;

Described spool is arranged in the spool mounting hole that forms on the described spool stand, also is formed with the sealing gasket mounting hole on described spool, and it is used for linking with described sealing gasket under described cam action;

Described sealing gasket is arranged in the sealing gasket mounting hole that forms on the described spool, is used for opening and closing described valve port; And

Described spring is arranged in the spool mounting hole that forms on the described spool stand and places between described sealing gasket and the spool stand, and it is used for allowing described sealing gasket reliably close described valve port.

3. multi-path output controlling valve as claimed in claim 1 is characterized in that, described valve body also comprises:

Valve pocket is set on the boss of described valve seat formation;

Rotor part is provided with a rotating shaft, inserts in the axis hole that forms on the described spool stand;

Locating column is pressed into the locating column hole that forms on described valve seat; And

Jump ring snaps in the jump ring groove that forms in the described rotating shaft.

4. multi-path output controlling valve as claimed in claim 1, it is characterized in that: the number of described spool is corresponding with described valve port number, and corresponding one by one configuration, described sealing gasket under the effect of spring force to described valve port pressuring direction and drive described spool and move to described valve port direction.

5. multi-path output controlling valve as claimed in claim 1 is characterized in that: described spool is only to do axial motion in the spool mounting hole of described spool stand.

6. multi-path output controlling valve as claimed in claim 1 is characterized in that: the cylindrical or polygon cylindricality of described spool is provided with arc boss at an end face of described spool and at the end near described valve port.

7. multi-path output controlling valve as claimed in claim 1 is characterized in that: described sealing gasket be by rubber or other plastic cement or similarly flexible material make.

8. multi-path output controlling valve as claimed in claim 6 is characterized in that: down, the low recess of arc boss on the described spool and described cam leaves the gap and does not contact with each other described valve port in off position.

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