SU1275174A1 - Vacuum electromagnetic valve - Google Patents

Abstract

The invention relates to the field of fittings. The purpose of the invention is to increase reliability and speed. The shutter is equipped with a mechanism of the gate 6 in the form of a tubular element 15. The shutter drive is made in the form of two electromagnets 12 and 13 with internal sealed channels 14, which communicate with the cavity of the tubular element 15 and the cavity II formed by the flange 3, and elastic elements 9 and 10, connecting the disk 8 mounted with the possibility of mixing along the axis with the flange 3. These cavities and hermetic channels 14 of the electromagnets are filled with control fluid, which, when the electromagnets are switched on in series, is displaced into spine of the tubular member 15. This enables rotation of slide 6 and overlapping passageway. Then the fluid is displaced into the annular cavity 11, as a result of which (O moves the disk 8, which additionally seals the flow area of the valve). 3 Il.

Description

The invention relates to the field of valve engineering and can be used in vacuum technology.

The purpose of the invention is to increase reliability and speed by eliminating the contact inputs of the movement and providing the possibility of autonomous operation of the shutter.

In FIG. 1 shows a vacuum shutter, section; in FIG. 2 is a view A in FIG. 1; in FIG. 3 - section B — B in FIG. 2.

The shutter consists of a housing 1 with flanges 2 and 3 and with passage channels 4 and 5, between which there is a rotary gate 6 with a gasket 7 and a disk 8 mounted for movement along the axis and connected by elastic elements 9 and 10 with a flange 3. Elastic elements 9 and 10, the housing 1 and the flange 3 form a closed annular cavity 11. Electromagnets 12 and 13 are mounted on the flanges, respectively, each of which has a sealed channel 14 and is in communication with the cavity 11. The shutter is equipped with a gate movement made in the form of a tubular element 15 connected to the sealed inner channel of the electromagnet 12. In the channel 14 there is a piston 16 connected to the armature 17 of the electromagnet loaded with a spring 18. A cover 19 is screwed onto the body of the electromagnet 19. The cavity of the tubular curved element 15, the sealed channels of the electromagnets 12 and 13 and the cavity 11 filled with control fluid. Between the disk 8 and the flange 3 placed return springs 20.

The shutter operates as follows.

The shutter is open. To close it, the electromagnet coil 12 is supplied with power, the resulting driving force moves the armature 17, which, acting through the piston 16 on the control fluid located in the sealed channel 14, creates pressure in the cavity of the elastic element 15. This increases the volume of fluid in the element 15 and its cross section is deformed, as a result of which the movable end of the GB element moves, turning around the axis of the shear ber 6, which overlaps the shutter aperture.

After this, power is supplied to the electromagnet 13 of the disk 8, which, acting in the same way, increases the volume of fluid in the cavity 11. In this case, the movable disk 8 moves, sealing the locking member. The shutter is closed.

The shutter opens in the reverse order. First, turn off the power source of the electromagnetic drive 13 of the sealing disk, while the pressure in the cavity 11 is removed and the return springs 20 move the movable disk 8. In this case, the liquid is forced out into the channel 14, returning the piston 16 and the armature 17 of the drive 13 to its original position. Then, the power source of the gate movement actuator 12 is turned off, while the pressure in the cavity of the element 15 is removed and, due to the elasticity of the walls of the element, the cross-sectional shape is restored by moving the gate 6, which, returning to its original position, opens the gate through hole. Moreover, the control fluid is also displaced into the Central channel 14, returning the anchor 17 to its original position. The shutter is open.

The axial force to create the necessary pressure in the cavities can be changed by changing the diameter of the channel 14, however, the stroke of the piston 16 changes, therefore, these parameters are chosen optimal, based on the condition of the minimum dimensions of the coil.

Claims (3)

The invention relates to the field of valves and can be used in vacuum technology. The purpose of the invention is to increase reliability and speed by eliminating the contact inputs of the movement and allowing the shutter to operate autonomously. FIG. 1 shows a vacuum shutter, section; in fig. 2 is a view A of FIG. one; in fig. 3 shows a section BB in FIG. 2. The shutter consists of a housing 1 with flanges 2 and 3 and with passage channels 4 and 5, between which there is a rotating gate b with a sealing gasket 7 and a disk 8 mounted for movement along an axis and connected by elastic elements 9 and 10 with a flange 3. The elastic elements 9 and 10, the housing 1 and the flange 3 form a closed annular cavity 11. The flanges are equipped with electromagnets 12 and 13, respectively, in each of which a sealed channel 14 is made and communicated with the cavity 11. The shutter is equipped with a spindle movement mechanism View of a tubular element 15 connected to a sealed internal channel of an electromagnet 12. A piston 16 is placed in a channel 14 and connected to a coil 17 of an electromagnet loaded with a spring 18. A lid 19 is screwed on the body of the electromagnet. member 15, potting channels electromagnets 12 and 13 and the cavity 11 filled with a control liquid. Between the disk 8 and the flange 3 times. Placed the return spring 20. The shutter operates as follows. The shutter is open. In order to close it, electric power magnet 12 is supplied with electric power by the driving force, which causes the driving force to move the bark 17, which, through 16, controls the fluid placed in the sealed channel 14 and creates pressure in the cavity of the elastic element 15. The volume of the liquid increases. in the element 15 and its cross-section is deformed, as a result of which the movable end of the element 15 is moved, turning around the axis pn ber 6, which closes the gate opening. After this, power is supplied to the electromagnet 13 of the disk 8, which, acting in a similar way, increases the volume of fluid in the cavity P. At this, the movable disk 8 moves, sealing the valve. The shutter is closed. The shutter opens in reverse order. First, the power supply of the electromagnetic actuator 13 of the sealing disk is disconnected, while the pressure in the cavity 11 is removed and the return springs 20 move the movable disk 8. At the same time, the fluid is displaced into the channel 14, returning the piston 16 and the bark 17 of the actuator 13 to its original position. Then the power supply of the actuator 12 for moving the spigot is disconnected, and the pressure in the cavity of the element 15 is removed and, due to the elasticity of the walls of the element, the shape of the transverse section is restored by displacing the sponge 6, which, returning to its original position, opens the gate bore. Moreover, the control fluid is also forced out into the central channel 14, returning the measles 17 to its original position. The shutter is open. The axial force for creating the necessary pressure in the cavities can be changed by changing the diameter of the channel 14, however, this changes the stroke of the pressure 16, so these parameters are chosen optimal, based on the minimum dimensions of the roller. Claims of the invention: Vacuum electromagnetic shutter, comprising a housing with flanges and passage channels, between which is placed a rotary schiber with a gasket and mounted with an axial movement disk with a through hole, hermetically connected by elastic elements with one of the flanges, between which is formed a closed annular cavity, and an actuator, characterized in that, in order to increase reliability and speed, it is provided with a spindle movement mechanism made in the form of a tubular element nta, and the drive is made in the form of two electromagnets with sealed internal channels, the channel in one of the electromagnets communicating with the cavity of the tubular element, and in the other with the specified annular cavity formed by elastic elements and a flange, on the other side of each channel a piston connected to the core of the corresponding electromagnet, and the said cavities and channels of the electromagnets are filled with the control medium. 0idA f fS FIG. 2 v