CN217977501U - Distribution valve - Google Patents

Abstract

A distribution valve comprises a valve body, a switching component arranged on the valve body and a driving mechanism used for driving the switching component to act, wherein the valve body is provided with a water inlet, a first water outlet and a second water outlet; the switching component is connected in the valve body in a sliding mode and controls the first water outlet and the second water outlet to be communicated with the water inlet in a switching mode through sliding of the switching component. The utility model provides a novel distributing valve, optimize the switching part that often sets up for rotating among the prior art to the slip setting, and select solenoid valve head and water pressure differential pressure synergism as the drive power of drive switching part, need not to install reduction gear train, simple structure; simultaneously, the common structural style in a water route of a relative control valve control, the utility model provides an one advances two nevertheless only need a actuating mechanism's novel distributing valve, sets up the intercommunication that realizes the water inlet respectively with between first delivery port and second delivery port through switching part's slip, realizes the water route and switches.

Description

Distribution valve

Technical Field

The utility model relates to a water route switching control technical field especially relates to a distributing valve.

Background

The common distributing valve adopts a motor to drive a distributing rotary disc, and the distributing holes in the distributing rotary disc are selectively matched with the internal flow passages of the valve body, so that the function of switching water paths by rotating the distributing rotary disc is realized. Because the switching part distribution turnplate is usually arranged in a rotating way, the power source has larger limitation and can only select a motor; the motor is used as power source input and generally needs to cooperate with a reduction gear set, the defect that the rotating effect of the distribution turntable is reduced due to the fact that the fit clearance of gears is increased when the motor is used for a long time can occur, and the structure is complex. The utility model provides a novel distributing valve, its switching part sets up to the slidingtype, makes actuating mechanism's selection more diversified.

SUMMERY OF THE UTILITY MODEL

To the deficiency that prior art exists, the utility model aims to provide a distributing valve.

In order to achieve the above purpose, the utility model provides a following technical scheme:

a distribution valve comprises a valve body, a switching component and a driving mechanism, wherein the switching component is arranged on the valve body, the driving mechanism is used for driving the switching component to act, and the valve body is provided with a water inlet, a first water outlet and a second water outlet; the water inlet is perpendicular to the first water outlet or the second water outlet, the switching component is connected in the valve body in a sliding mode, and the first water outlet and the second water outlet are controlled to be communicated with the water inlet in a switching mode through sliding of the switching component.

Furthermore, the switching part comprises a water stop diaphragm, a sliding rod and a sealing gasket, the water stop diaphragm is sleeved at one end of the sliding rod, the sealing gasket is sleeved at the other end of the sliding rod, the water stop diaphragm is separated into a water inlet cavity and a back pressure cavity in the valve body, the back pressure cavity is provided with a pressure relief hole, and the pressure relief hole is controlled by the driving mechanism to be opened or not; the water inlet cavity comprises a first cavity and a second cavity, the first cavity is communicated with the water inlet, the second cavity is communicated with the first water outlet, and the water stop diaphragm is provided with a thin water hole communicated with the first cavity and the back pressure cavity; the second cavity is provided with a first opening which is used for communicating with the first cavity, and the opening and the closing of the first opening are controlled by the water stop diaphragm; the sliding rod penetrates through the second cavity in a sliding mode, part of the sliding rod penetrates through the second cavity in a sealing mode and enters the first cavity, the first cavity is provided with a second opening used for being communicated with the second water outlet, and the opening and the closing of the second opening are controlled by the sealing gasket; and an elastic piece for resetting the switching component is arranged in the back pressure cavity.

Further, when the pressure relief hole is in an open state, the water inlet is communicated with the first water outlet; and when the pressure relief hole is in a closed state, the water inlet is communicated with the second water outlet.

Further, slide bar one end is equipped with the supporting disk, in order to support the stagnant water diaphragm, this supporting disk with the position that the thin water hole corresponds is equipped with a thin water column, and this thin water column passes the thin water hole.

Furthermore, the other end of the sliding rod penetrates through the second opening, the sealing gasket is located on the outer side of the second opening, and the other end of the sliding rod is in threaded connection with a fastening screw which limits the sealing gasket to be separated from the sliding rod.

Furthermore, a sealing ring is sleeved on the sliding rod and is in sealing fit with the second cavity when the sliding rod penetrates out of the second cavity.

Furthermore, the radial section of the sealing ring is V-shaped.

Furthermore, the first cavity is located at the periphery of the second cavity, the water inlet and the first water outlet are located on the side surface of the first cavity, and the second water outlet is opposite to the second opening.

Further, the driving mechanism is an electromagnetic valve head or a mechanical switch.

Further, the electromagnetic valve head includes fixed bolster, coil pack, moves iron core and reset spring, and coil pack is fixed in through the fixed bolster outside the valve body, moves the iron core activity and sets up in coil pack, and moves the one end setting of iron core and be used for opening and close the end cap in pressure release hole, reset spring suit is in move outside the iron core, and be used for providing move the iron core and reset.

Furthermore, the mechanical switch comprises a fixed support, a pressure lever, a transmission rod and a return spring, wherein the pressure lever is hinged with one end of the transmission rod and used for controlling the transmission rod to move; the fixed bolster has the inner chamber, the other end of transfer line is arranged in the inner chamber just is connected through the connecting block and is used for opening and close the end cap in pressure release hole, the reset spring suit is in outside the connecting block, be used for restoring to the throne the end cap.

The utility model has the advantages that:

the utility model provides a distribution valve, optimize the switching part that often sets up for rotating among the prior art to the slip setting to select solenoid valve head and water pressure differential pressure synergism as the drive power of drive switching part, need not to install reduction gear train, simple structure; simultaneously, the common structural style in a water route of a relative control valve control, the utility model provides an one advances two nevertheless only need a actuating mechanism's novel distributing valve, sets up the intercommunication that realizes the water inlet respectively with between first delivery port and second delivery port through switching part's slip, realizes the water route and switches.

The utility model provides a distribution valve adopts the pilot valve structure, utilizes the pressure differential of stagnant water diaphragm both sides thereby to drive the slide bar and reciprocate, and then realizes the water inlet and communicates with first delivery port and second delivery port respectively, and structural reliability is good, and the operation is more laborsaving; in addition, a sealing ring is sleeved outside the sliding rod, so that the sliding rod can slide up and down to realize waterway switching and avoid the communication between the second cavity and the second water outlet.

The utility model provides a pair of distribution valve, its actuating mechanism can select solenoid valve head or mechanical switch according to actual conditions, and application scope is wide.

Drawings

In order to illustrate the embodiments of the present invention or the technical solutions in the prior art more clearly, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic view of a dispensing valve of the present invention using a solenoid valve head;

fig. 2 is a cross-sectional view of a dispensing valve employing a solenoid valve head according to the present invention;

fig. 3 is a schematic view of a valve body of a distribution valve according to the present invention;

fig. 4 is a top view of a valve body of a dispensing valve of the present invention;

fig. 5 is a first schematic water path diagram of a dispensing valve of the present invention;

fig. 6 is a first schematic water path view of another angle of a distributing valve of the present invention;

fig. 7 is a second schematic water path diagram of a dispensing valve of the present invention;

fig. 8 is a second schematic water path view of another angle of a dispensing valve of the present invention;

fig. 9A is a schematic view illustrating a first waterway connection valve core position of the distributing valve according to the present invention;

fig. 9B is a schematic diagram of a second waterway connection valve core position of the distributing valve according to the present invention;

fig. 10A is a schematic view of a dispensing valve of the present invention using a mechanical switch;

fig. 10B is a cross-sectional view of a dispensing valve of the present invention using a mechanical switch;

in the figure, 10, valve body; 101. a water inlet; 102. a first water outlet; 103. a second water outlet; 201. a first cavity; 202. a second cavity; 30. a back pressure chamber; 40. a pressure relief vent; 501. a first opening; 502. a second opening; 60. a switching member; 601. a water stop membrane; 602. a slide bar; 6021. a support disc; 6022. a fine water column; 603. a gasket; 604. a seal ring; 605. fastening screws; 70. an electromagnetic valve head; 701. a fixed support-I; 702. a coil assembly; 703. a movable iron core; 7031. a plug-I; 704. a return spring-I; 80. an elastic member; 90. a mechanical switch; 901. a fixed support-II; 902. a pressure lever; 903. a transmission rod; 904. a return spring-II; 905. connecting blocks; 906. and a plug-II.

Detailed Description

The present invention will be described in detail with reference to fig. 1 to 10.

A distribution valve comprises a valve body 10, a switching component 60 arranged on the valve body 10 and a driving mechanism for driving the switching component 60 to act, wherein the valve body 10 is provided with a water inlet 101, a first water outlet 102 and a second water outlet 103, and the water inlet 101 is vertical to the first water outlet 102 or the second water outlet 103; the switching member 60 is slidably connected in the valve body 10, and controls the first water outlet 102 and the second water outlet 103 to be switched and communicated with the water inlet 101 through the sliding switching member 60.

In this embodiment, the switching component 60 includes a water-stop diaphragm 601, a sliding rod 602 and a sealing gasket 603, the water-stop diaphragm 601 is sleeved at one end of the sliding rod 602, the sealing gasket 603 is sleeved at the other end of the sliding rod 602, the water-stop diaphragm 601 separates a water inlet cavity and a back pressure cavity 30 in the valve body 10, the back pressure cavity 30 is provided with a pressure relief hole 40, and the pressure relief hole 40 is controlled by a driving mechanism to be opened or not; the water inlet cavity comprises a first cavity 201 and a second cavity 202, the first cavity 201 is communicated with the water inlet 101, the second cavity 202 is communicated with the first water outlet 102, and the water stop diaphragm 601 is provided with a thin water hole communicated with the first cavity 201 and the back pressure cavity 30; the second cavity 202 is provided with a first opening 501 for communicating with the first cavity 201, and the opening and closing of the first opening 501 are controlled by a water stop diaphragm 601; the sliding rod 602 penetrates through the second cavity 202 in a sliding manner, part of the sliding rod penetrates through the second cavity 202 in a sealing manner and enters the first cavity 201, the first cavity 201 is provided with a second opening 502 used for being communicated with the second water outlet 103, and the opening and the closing of the second opening 502 are controlled by a sealing gasket 603; an elastic member 80 for restoring the switching member 60 is provided in the back pressure chamber 30.

In this embodiment, when the pressure relief hole 40 is in the open state, the water inlet 101 is communicated with the first water outlet 102; when the pressure relief hole 40 is in a closed state, the water inlet 101 is communicated with the second water outlet 103. The reason is that when the pressure relief hole 40 is in an open state, the water pressure in the back pressure cavity 30 is rapidly reduced, so that the water pressure in the water inlet cavity is greater than the water pressure in the back pressure cavity 30, the water stop diaphragm 601 is pushed open, the first opening 501 is opened, the second opening 502 is closed, external water flows enter from the water inlet 101 and then sequentially flow into the first cavity 201 and the second cavity 202, and finally flows out from the first water outlet 102; when the pressure relief hole 40 is in a closed state, the supporting plate 6021 and the water stop membrane 601 are further pushed to move downwards under the action of the elastic element 80, the first opening 501 is closed, and the second opening 502 is opened, so that external water flows into the first cavity 201 after entering from the water inlet 101 and flows out from the second water outlet 103.

In this embodiment, a support plate 6021 is disposed at one end of the sliding rod 602 to support the water stop membrane 601, and a thin water column 6022 is disposed at a position of the support plate 6021 corresponding to the thin water hole, and the thin water column 6022 passes through the thin water hole.

In this embodiment, the other end of the sliding rod 602 passes through the second opening 502, the gasket 603 is located outside the second opening 502, and the other end of the sliding rod 602 is screwed with a fastening screw 605, and the fastening screw 605 restricts the gasket 603 from separating from the sliding rod 602.

In this embodiment, the sliding rod 602 is further sleeved with a sealing ring 604, the sealing ring 604 is in sealing fit with the second cavity 202 when the sliding rod 602 penetrates through the second cavity 202, and the sealing ring 604 can move along with the sliding rod 602 in the same direction for sealing and blocking the communication between the second cavity 202 and the second water outlet 103; because the seal structure is in an active/moving state, the radial cross section of the seal ring 604 is V-shaped in order to ensure low sealing resistance during movement.

Further, the first cavity 201 is located at the periphery of the second cavity 202, the water inlet 101 and the first water outlet 102 are located at the side of the first cavity 201, and the second water outlet 103 is opposite to the second opening 502.

The drive mechanism is a solenoid head 70. The electromagnetic valve head 70 comprises a fixing support 701, a coil assembly 702, a movable iron core 703 and a return spring 704, wherein the coil assembly 702 is fixed outside the valve body 10 through the fixing support 701, the movable iron core 703 is movably arranged in the coil assembly 702, an end cap-I7031 for opening and closing the pressure relief hole 40 is arranged at one end of the movable iron core 703, and the return spring 704 is sleeved outside the movable iron core 703 and used for returning the movable iron core 703.

In another embodiment, the drive mechanism is a mechanical switch 90. The mechanical switch 90 comprises a fixed bracket-II 901, a pressure lever 902, a transmission rod 903 and a return spring-II 904, wherein the pressure lever 902 is hinged with one end of the transmission rod 903 and is used for controlling the transmission rod 903 to move; the fixed support-II 901 is provided with an inner cavity, the other end of the transmission rod 903 is arranged in the inner cavity and is connected with a plug-II 906 used for opening and closing the pressure relief hole 40 through a connecting block 905, and the reset spring-II 904 is sleeved outside the connecting block 905 and is used for resetting the plug-II 906.

When the driving mechanism adopts the electromagnetic valve head 70, the working principle is as follows:

when the electromagnetic valve head 70 is not powered on, under the action of the return spring 704, the plug-I7031 plugs the pressure relief hole 40, and under the action of the elastic member 80, the water stop membrane 601 and the sliding rod 602 move downward to close the first opening 501, and the sealing gasket 603 opens the second opening 502, so that external water flows into the first cavity 201 from the water inlet 101 and flows out from the second water outlet 103; when the electromagnetic valve head 70 is powered on, the coil assembly 702 adsorbs the movable iron core 703 to move upwards, and then the plug-I7031 moves upwards, so as to open the pressure relief hole 40, so that the pressure of the water inlet cavity is greater than that of the back pressure cavity 30, the water stop membrane 601 and the sliding rod 602 move upwards, the water stop membrane 601 opens the first opening 501, the sealing gasket 603 closes the second opening 502, so that external water flows into the first cavity 201 and the second cavity 202 in sequence after entering from the water inlet 101, and finally flows out from the first water outlet 102.

When the driving mechanism adopts the mechanical switch 90, the working principle is as follows:

in a default state, the pressure lever 902 is not pressed by an external force, the plug-II 906 plugs the pressure relief hole 40 under the action of the return spring-II 904, the water stop membrane 601 and the sliding rod 602 move downwards under the action of the elastic part 80 to close the first opening 501, and the sealing gasket 603 opens the second opening 502, so that external water flows into the first cavity 201 from the water inlet 101 and flows out from the second water outlet 103; when the pressure lever 902 is pressed by an external force, the transmission rod 903 is lifted, so that the plug-II 906 opens the pressure relief hole 40, the pressure of the water inlet cavity is greater than that of the back pressure cavity 30, the water stop diaphragm 601 and the sliding rod 602 move upwards, the first opening 501 is opened by the water stop diaphragm 601, the second opening 502 is closed by the sealing gasket 603, and external water flows into the first cavity 201 and the second cavity 202 in sequence after entering from the water inlet 101 and finally flows out from the first water outlet 102.

The above embodiments are only for illustrating the technical conception and the features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, which cannot limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered by the protection scope of the present invention.

Claims (11)

1. A distribution valve comprises a valve body, a switching component arranged on the valve body and a driving mechanism used for driving the switching component to act, wherein the valve body is provided with a water inlet, a first water outlet and a second water outlet; the water inlet is perpendicular to the first water outlet or the second water outlet, the switching component is connected in the valve body in a sliding mode, and the first water outlet and the second water outlet are controlled to be communicated with the water inlet in a switching mode through sliding of the switching component.

2. The distribution valve according to claim 1, wherein the switching member comprises a water-stop diaphragm, a sliding rod and a sealing gasket, the water-stop diaphragm is sleeved at one end of the sliding rod, the sealing gasket is sleeved at the other end of the sliding rod, the water-stop diaphragm separates a water inlet cavity and a back pressure cavity in the valve body, the back pressure cavity is provided with a pressure relief hole, and the opening of the pressure relief hole is controlled by the driving mechanism; the water inlet cavity comprises a first cavity and a second cavity, the first cavity is communicated with the water inlet, the second cavity is communicated with the first water outlet, and the water stop diaphragm is provided with a fine water hole communicated with the first cavity and the back pressure cavity; the second cavity is provided with a first opening which is used for communicating with the first cavity, and the opening and the closing of the first opening are controlled by the water stop diaphragm; the sliding rod penetrates through the second cavity in a sliding mode, part of the sliding rod penetrates through the second cavity in a sealing mode and enters the first cavity, the first cavity is provided with a second opening used for being communicated with the second water outlet, and the opening and the closing of the second opening are controlled by the sealing gasket; and an elastic piece for resetting the switching component is arranged in the back pressure cavity.

3. The dispensing valve of claim 2, wherein said inlet communicates with said first outlet when said pressure relief vent is in an open state; and when the pressure relief hole is in a closed state, the water inlet is communicated with the second water outlet.

4. The dispensing valve in accordance with claim 2 in which said sliding rod is provided at one end thereof with a support plate for supporting said water stop diaphragm, and a thin water column is provided at a position of said support plate corresponding to said thin water hole, and passes through said thin water hole.

5. The dispensing valve in accordance with claim 2 in which the other end of said sliding rod passes through said second opening and said gasket is located outside said second opening, the other end of said sliding rod being threadably connected to a fastening screw which limits the disengagement of said gasket from said sliding rod.

6. The dispensing valve of claim 2 wherein said sliding stem is further fitted with a sealing ring which sealingly engages said second chamber when said sliding stem passes out of said second chamber.

7. The dispensing valve in accordance with claim 6 in which said sealing ring has a V-shaped radial cross-section.

8. The dispensing valve of claim 6 wherein said first chamber is located at the periphery of said second chamber, said inlet and first outlet are located on the side of said first chamber, and said second outlet is opposite said second opening.

9. A dispensing valve according to any of claims 2 to 8, wherein said actuating means is a solenoid head or a mechanical switch.

10. The dispensing valve according to claim 9, wherein the solenoid valve head comprises a fixing bracket, a coil assembly, a movable iron core and a return spring, the coil assembly is fixed outside the valve body through the fixing bracket, the movable iron core is movably arranged in the coil assembly, one end of the movable iron core is provided with a plug for opening and closing the pressure relief hole, and the return spring is sleeved outside the movable iron core and is used for returning the movable iron core.

11. The dispensing valve in accordance with claim 9 in which said mechanical switch comprises a fixed bracket, a pressure bar, a drive rod and a return spring, said pressure bar being pivotally connected to one end of said drive rod for controlling movement of said drive rod; the fixed bolster has the inner chamber, the other end of transfer line is arranged in the inner chamber and is connected through the connecting block and is used for opening and close the end cap in pressure release hole, reset spring suit is in outside the connecting block, be used for reseing the end cap.

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