CN106382393A

CN106382393A - Single-inlet multi-outlet electromagnetic valve

Info

Publication number: CN106382393A
Application number: CN201610884714.2A
Authority: CN
Inventors: 童心; 赵岗; 邓继周; 朋文斌
Original assignee: Hefei Xieli Hydraulic Technology Co Ltd
Current assignee: Hefei Xieli Hydraulic Technology Co Ltd
Priority date: 2016-10-10
Filing date: 2016-10-10
Publication date: 2017-02-08
Anticipated expiration: 2036-10-10
Also published as: CN106382393B

Abstract

The invention provides a single-inlet multi-outlet electromagnetic valve which comprises a valve body. An oil inlet port, an oil cavity and working oil ports are formed in the valve body. The number of the working oil ports is four, and the working oil ports are the first working oil port, the second working oil port, the third working oil port and the fourth working oil port correspondingly. Two partition tables are arranged in the valve body and are the first partition table and the second partition table correspondingly. The oil cavity is internally divided into three oil channels through the two partition tables. A first electromagnetic control valve block and a second electromagnetic control valve block are arranged on the upper sides of the two partition tables correspondingly. A first electromagnetic control valve plate and a second electromagnetic control valve plate are arranged between the two partition tables. According to the single-inlet multi-outlet electromagnetic valve, the oil ways are simplified, the number of elements is small, control over communication and blocking between the different oil ways can be achieved simply according to needs to switch action of actuators, pressure and flow of a hydraulic system can be controlled continuously according to the proportion, and thus control over the single actuator and control over the multiple actuators are achieved.

Description

One kind singly is entered to have more electromagnetic valve

Technical field

The invention belongs to Hydraulic Field, singly enter to have more electromagnetic valve particularly to one kind.

Background technology

At present, Normal hydraulic valve can only carry out setting control to the pressure of liquor stream, flow by way of presetting, then makes Actuator produces action, but when equipment mechanism requires single and multiple actuator action switchings in the course of the work, general Logical hydraulic valve is not then realized.Therefore, need now a kind of design badly simply, convenient and practical singly enters to have more electromagnetic valve.

Content of the invention

The present invention proposes one kind and singly enters to have more electromagnetic valve, solve Normal hydraulic valve in prior art cannot realize single and The problem of multiple actuator action switchings.

The technical scheme is that and be achieved in that：One kind singly is entered to have more electromagnetic valve, including valve body, sets in described valve body There are oil-in, oil pocket and actuator port, the number of described actuator port is four, the respectively first actuator port, the second work Hydraulic fluid port, the 3rd actuator port and the 4th actuator port, are provided with two every platform in described valve body, respectively first every platform and second every Platform, separates three oil ducts every platform described in two in described oil pocket, and the upside every platform described in two is respectively equipped with the first electromagnetism control Valve block processed and the second solenoid electric valve block, are provided with the first Electromagnetic Control valve plate and the second solenoid electric valve between platform described in two Plate.

As one preferred embodiment, when the first Electromagnetic Control valve plate and the second Electromagnetic Control valve plate are all close to described One every platform, and when described first solenoid electric valve block moves right, described first actuator port is connected with described oil-in；When first Electromagnetic Control valve plate and the second Electromagnetic Control valve plate are all close to described second every platform, and described first solenoid electric valve block is to left movement When, described second actuator port is connected with described oil-in.

As one preferred embodiment, when the first Electromagnetic Control valve plate is close to described first every platform, the second Electromagnetic Control Valve plate is close to described second every platform, and described first solenoid electric valve block blocks described first actuator port, described second electromagnetism control When valve block processed blocks described four actuator port, described 3rd actuator port is connected with described oil-in；When the first Electromagnetic Control Valve plate is close to described first every platform, and the second Electromagnetic Control valve plate is in an intermediate position, and described first solenoid electric valve block blocks institute State the first actuator port, when described second solenoid electric valve block blocks described three actuator port, described 4th actuator port with Described oil-in connection.

As one preferred embodiment, when the first Electromagnetic Control valve plate is close to described first every platform, the second Electromagnetic Control Valve plate is close to described second when platform, and described first actuator port is connected with described oil-in, described 3rd actuator port and institute State oil-in connection.

As one preferred embodiment, when the first Electromagnetic Control valve plate is close to described second every platform, the second Electromagnetic Control Valve plate is in an intermediate position, when described first solenoid electric valve block blocks described first actuator port, described second actuator port Connect with described oil-in, described 4th actuator port is connected with described oil-in.

As one preferred embodiment, when the first Electromagnetic Control valve plate is close to described first every platform, the second Electromagnetic Control Valve plate is in an intermediate position, when described second solenoid electric valve block blocks described three actuator port, described first actuator port Connect with described oil-in, described 4th actuator port is connected with described oil-in.

As one preferred embodiment, when the first Electromagnetic Control valve plate is in an intermediate position, the second Electromagnetic Control valve plate It is close to described second every platform, when described first solenoid electric valve block blocks described first actuator port, described second actuator port Connect with described oil-in, described 3rd actuator port is connected with described oil-in.

As one preferred embodiment, when the first Electromagnetic Control valve plate and the second Electromagnetic Control valve plate are all close to described Two when platform, and described first actuator port is connected with described oil-in, and described second actuator port is connected with described oil-in.

As one preferred embodiment, when the first Electromagnetic Control valve plate is close to described first every platform, the second Electromagnetic Control Valve plate is in an intermediate position, when described first solenoid electric valve block blocks described first actuator port, described 3rd actuator port Connect with described oil-in, described 4th actuator port is connected with described oil-in.

After employing technique scheme, the invention has the beneficial effects as follows：Oil circuit simplifies, and number of elements is few, can be simply Realize the connection between different oil circuits and blocking on demand to control, the action of switching actuator, can continuously, control pari passu The pressure of hydraulic system and flow, thus realize the control controlling with multiple actuators to single actuator.

Brief description

In order to be illustrated more clearly that the embodiment of the present invention or technical scheme of the prior art, below will be to embodiment or existing Have technology description in required use accompanying drawing be briefly described it should be apparent that, drawings in the following description be only this Some embodiments of invention, for those of ordinary skill in the art, without having to pay creative labor, also may be used So that other accompanying drawings are obtained according to these accompanying drawings.

Fig. 1 enters to have more the overall structure diagram of electromagnetic valve for list of the present invention.

In figure, 1- valve body；2- oil pocket；3- oil-in；4- the first solenoid electric valve block；5- first actuator port；6- second Actuator port；7- the 3rd actuator port；8- the 4th actuator port；9- first is every platform；10- second is every platform；11- oil duct；12- second Solenoid electric valve block；13- the first Electromagnetic Control valve plate；14- the second Electromagnetic Control valve plate.

Specific embodiment

Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is carried out clear, complete Site preparation description is it is clear that described embodiment is only a part of embodiment of the present invention, rather than whole embodiments.It is based on Embodiment in the present invention, it is every other that those of ordinary skill in the art are obtained under the premise of not making creative work Embodiment, broadly falls into the scope of protection of the invention.

Embodiment：

As shown in figure 1, one kind singly is entered to have more electromagnetic valve, including valve body 1, in valve body 1, it is provided with oil-in 3, oil pocket 2 and work Hydraulic fluid port, the number of actuator port is four, the respectively first actuator port 5, the second actuator port 6, the 3rd actuator port 7 and the Four actuator ports 8, are provided with two every platform in valve body 1, respectively first every platform 9 and second every platform 10, two every platform in oil pocket 2 Separate three oil ducts 11, two upsides every platform are respectively equipped with the first solenoid electric valve block 4 and the second solenoid electric valve block 12, two Individual it is provided with the first Electromagnetic Control valve plate 13 and the second Electromagnetic Control valve plate 14 between platform.

When the first Electromagnetic Control valve plate 13 and the second Electromagnetic Control valve plate 14 are all close to first every platform 9, the first Electromagnetic Control When valve block 4 moves right, the first actuator port 5 is connected with oil-in 3；When the first Electromagnetic Control valve plate 13 and the second Electromagnetic Control Valve plate 14 is all close to second every platform 10, and when the first solenoid electric valve block 4 is to left movement, the second actuator port 6 is with oil-in 3 even Logical.

When the first Electromagnetic Control valve plate 13 is close to first every platform 9, the second Electromagnetic Control valve plate 14 is close to second every platform 10, the One solenoid electric valve block 4 blocks the first actuator port 5, when the second solenoid electric valve block 12 blocks four actuator ports 8, the 3rd work Make hydraulic fluid port 7 to connect with oil-in 3；When the first Electromagnetic Control valve plate 13 is close to first every platform 9, the second Electromagnetic Control valve plate 14 is in Centre position, the first solenoid electric valve block 4 blocks the first actuator port 5, and the second solenoid electric valve block 12 blocks the 3rd working oil During mouth 7, the 4th actuator port 8 is connected with oil-in 3.

When the first Electromagnetic Control valve plate 13 is close to first every platform 9, the second Electromagnetic Control valve plate 14 is close to second when platform 10, First actuator port 5 is connected with oil-in 3, and the 3rd actuator port 7 is connected with oil-in 3.

When the first Electromagnetic Control valve plate 13 is close to second every platform 10, the second Electromagnetic Control valve plate 14 is in an intermediate position, the When one solenoid electric valve block 4 blocks the first actuator port 5, the second actuator port 6 connects with oil-in 3, the 4th actuator port 8 and Oil-in 3 connects.

When the first Electromagnetic Control valve plate 13 is close to first every platform 9, the second Electromagnetic Control valve plate 14 is in an intermediate position, and second When solenoid electric valve block 12 blocks three actuator ports 7, the first actuator port 5 connects with oil-in 3, the 4th actuator port 8 and Oil-in 3 connects.

When the first Electromagnetic Control valve plate 13 is in an intermediate position, the second Electromagnetic Control valve plate 14 is close to second every platform 10, the When one solenoid electric valve block 4 blocks the first actuator port 5, the second actuator port 6 connects with oil-in 3, the 3rd actuator port 7 and Oil-in 3 connects.

When the first Electromagnetic Control valve plate 13 and the second Electromagnetic Control valve plate 14 be all close to second every platform 10 when, the first working oil Mouth 5 is connected with oil-in 3, and the second actuator port 6 is connected with oil-in 3.

When the first Electromagnetic Control valve plate 13 is close to first every platform 9, the second Electromagnetic Control valve plate 14 is in an intermediate position, and first Solenoid electric valve block 4 block the first actuator port 5 when, the 3rd actuator port 7 is connected with oil-in 3, the 4th actuator port 8 with enter Hydraulic fluid port 3 connects.

The foregoing is only presently preferred embodiments of the present invention, not in order to limit the present invention, all essences in the present invention Within god and principle, any modification, equivalent substitution and improvement made etc., should be included within the scope of the present invention.

Claims

1. one kind is singly entered to have more electromagnetic valve it is characterised in that including：Valve body, is provided with oil-in, oil pocket and work in described valve body Hydraulic fluid port, the number of described actuator port is four, the respectively first actuator port, the second actuator port, the 3rd actuator port and 4th actuator port, is provided with two every platform in described valve body, respectively first every platform and second every platform, every platform in institute described in two State and in oil pocket, separate three oil ducts, the upside every platform described in two is respectively equipped with the first solenoid electric valve block and the second Electromagnetic Control Valve block, is provided with the first Electromagnetic Control valve plate and the second Electromagnetic Control valve plate between platform described in two.

2. one kind as claimed in claim 1 singly enter to have more electromagnetic valve it is characterised in that：When the first Electromagnetic Control valve plate and second Electromagnetic Control valve plate is all close to described first every platform, when described first solenoid electric valve block moves right, described first working oil Mouth is connected with described oil-in；When the first Electromagnetic Control valve plate and the second Electromagnetic Control valve plate are all close to described second every platform, institute When stating the first solenoid electric valve block to left movement, described second actuator port is connected with described oil-in.

3. one kind as claimed in claim 1 singly enter to have more electromagnetic valve it is characterised in that：When the first Electromagnetic Control valve plate is close to institute State first every platform, the second Electromagnetic Control valve plate is close to described second every platform, described first solenoid electric valve block blocks described first Actuator port, described second solenoid electric valve block block described four actuator port when, described 3rd actuator port with described enter Hydraulic fluid port connects；When the first Electromagnetic Control valve plate is close to described first every platform, the second Electromagnetic Control valve plate is in an intermediate position, described First solenoid electric valve block blocks described first actuator port, and described second solenoid electric valve block blocks described 3rd actuator port When, described 4th actuator port is connected with described oil-in.

4. one kind as claimed in claim 1 singly enter to have more electromagnetic valve it is characterised in that：When the first Electromagnetic Control valve plate is close to institute State first every platform, the second Electromagnetic Control valve plate is close to described second when platform, described first actuator port is with described oil-in even Logical, described 3rd actuator port is connected with described oil-in.

5. one kind as claimed in claim 1 singly enter to have more electromagnetic valve it is characterised in that：When the first Electromagnetic Control valve plate is close to institute State second every platform, the second Electromagnetic Control valve plate is in an intermediate position, described first solenoid electric valve block blocks described first work During hydraulic fluid port, described second actuator port is connected with described oil-in, and described 4th actuator port is connected with described oil-in.

6. one kind as claimed in claim 1 singly enter to have more electromagnetic valve it is characterised in that：When the first Electromagnetic Control valve plate is close to institute State first every platform, the second Electromagnetic Control valve plate is in an intermediate position, described second solenoid electric valve block blocks described 3rd work During hydraulic fluid port, described first actuator port is connected with described oil-in, and described 4th actuator port is connected with described oil-in.

7. one kind as claimed in claim 1 singly enter to have more electromagnetic valve it is characterised in that：In the first Electromagnetic Control valve plate is in Between position, the second Electromagnetic Control valve plate is close to described second every platform, and described first solenoid electric valve block blocks described first work During hydraulic fluid port, described second actuator port is connected with described oil-in, and described 3rd actuator port is connected with described oil-in.

8. one kind as claimed in claim 1 singly enter to have more electromagnetic valve it is characterised in that：When the first Electromagnetic Control valve plate and second Electromagnetic Control valve plate is all close to described second when platform, and described first actuator port is connected with described oil-in, described second work Make hydraulic fluid port to connect with described oil-in.

9. one kind as claimed in claim 1 singly enter to have more electromagnetic valve it is characterised in that：When the first Electromagnetic Control valve plate is close to institute State first every platform, the second Electromagnetic Control valve plate is in an intermediate position, described first solenoid electric valve block blocks described first work During hydraulic fluid port, described 3rd actuator port is connected with described oil-in, and described 4th actuator port is connected with described oil-in.