RU42084U1 - SOLENOID VALVE - Google Patents

Abstract

An electromagnetic valve for controlling, in particular, flows and parameters of fluids, including an electromagnetic coil frame, an electromagnetic coil, a plug and a plug magnetic circuit, made together in the form of a shaped pipe plugged from the opposite foot with a flange that describes a radial midsection whose geometric circle more than the geometric circle describing the radial midsection of the tube tube, a guide sleeve made of non-ferromagnetic material, the first shoulder of which is laid on the side of the stop, and the second shoulder is located on the side of the cork, an anchor located with the possibility of longitudinal movement inside the guide sleeve and / or channel of the cork, the stop and the magnetic circuit of the stop, made together in the form of a shaped pipe equipped with a flange that describes a radial midsection whose geometric circle more than a geometric circle describing the radial midship of the stop pipe, characterized in that the electromagnetic coil frame is fixedly and hermetically connected axially located with the stop and stop magnetic circuit, made together in the form of a shaped ferromagnetic pipe, the outer surface of which is provided with a radially extending flange, a guide sleeve made in the form of a non-ferromagnetic cylindrical pipe, and also a cork and magnetic cork, made together in the form of a shaped ferromagnetic pipe, also equipped with a radially extending flange, a flange of a shaped pipe formed by the magnetic circuit of the cork and the cork and / or magnetic circuit of the stop and stop, with

Description

The utility model relates to control valves, in particular, flows and parameters of fluids in systems and units of vehicles.

From the patent FR2509009 F 16 K 31/06 (publ. 07/01/1983), a hydraulic valve is known that regulates, is proportional, controlled by an axial solenoid with an internal retractor armature, formed by a guide sleeve made in the form of a non-ferromagnetic pipe, with an electromagnetic coil frame fixedly mounted on guide bush, electromagnetic winding, external magnetic circuit, stop, plug fixedly mounted in the end of the guide bush, opposite the stop, magnetic circuit plug, stop magnetic circuit, perform in the form of annular plates coaxially mounted between the walls of the external magnetic circuit and the stop, an anchor mounted with the possibility of longitudinal movement inside the guide sleeve, a rod, a saddle located at the mouth of the central channel of the stop from the side of the anchor, a shutter located between the end of the rod and the saddle, consonant a compression spring located between the anchor and the plug. The frame of the electromagnetic winding is made in the form of a non-ferromagnetic pipe bounded from the ends by radial flanges extending towards the outer magnetic circuit. The electromagnetic winding is laid on the pipe of the frame of the electromagnetic winding between its flanges. The outer magnetic circuit is made in the form of a pipe, the end face of which is provided with a radial flange extending in

side of its longitudinal geometric axis. The flange of the outer magnetic circuit is fixed between the magnetic circuit of the plug and the plug. The magnetic circuit of the plug is made in the form of an annular plate mounted coaxially with the walls of the guide sleeve between the flanges of the external magnetic circuit and the frame of the electromagnetic coil. The stop is made in the form of a shaped, mainly ferromagnetic part, equipped with a central, coaxial longitudinal geometric axis of the stop and an auxiliary, the longitudinal geometric axis of which is parallel to the longitudinal geometric axis of the stop, hydraulic channels one of the mouths of each of which is located on the end surface of the stop from the side of the anchor. The anchor is equipped with a central, coaxial longitudinal geometric axis of the anchor, the channel in which the rod is fixedly mounted, as well as lateral longitudinal open channels and an annular groove located on its outer cylindrical surface. The rod is made of non-ferromagnetic material and is fixedly mounted in the central channel of the anchor with the possibility of its ends protruding beyond the end surfaces of the anchor.

Among the disadvantages of the valve described above, it is possible to single out the high laboriousness of manufacturing and energy consumption, which are the result of a large number of parts, an increased number of transient resistances and increased gaps in the magnetic circuit of the electromagnet.

From the patent US4250922 F 42 B 12/06 (publ. 02.17.1981), a hydraulic valve controlled by an axial electromagnet with an internal retracting armature is known, which is formed by a stop, an electromagnetic coil frame, an electromagnetic winding, a stop magnetic circuit and an external magnetic circuit, a plug rolled with the opposite side foot with end walls of the outer magnetic circuit, magnetic circuit of the plug,

a stem sleeve located in the plug, an anchor, a stem, a counter compression spring mounted coaxially to the stem between the walls of the bore of the valve body channel and the end surface of the armature. The stop consists of axial frame housings of the electromagnetic coil frame installed in series in the channel portion of the pipe frame of the electromagnetic coil, a plunger body fixedly and tightly installed in the bore of the stop magnetic circuit, and also a valve body protruding beyond the geometric plane located on the opposite anchor of the end surface of the magnetic circuit of the stop made in the form of a one-piece ferromagnetic shaped pipe equipped with a reducing outer diameter along the length of the valve body ana groove, increasing the diameter of the channel pipe over the length of the body of an electromagnetic coil frame and partially on the length of the body of the plunger bore, radially arranged in the valve housing and support, the first mouth which is disposed in the channel frame housing an electromagnetic coil, a second radial channel of the valve body, channels. The electromagnetic coil frame is made in the form of a non-ferromagnetic pipe bounded at the ends by radial flanges directed towards the outer magnetic circuit, in the opposite plug of the channel part of which there is a motionlessly mounted electromagnetic coil frame body. The electromagnetic winding is laid on the pipe of the frame of the electromagnetic winding between its flanges. The stop magnetic circuit and the external magnetic circuit are integral in the form of a shaped ferromagnetic pipe equipped with a radial flange extending towards its longitudinal geometric axis, into the bore of which the plunger body is pressed. The magnetic core of the plug is made in the form of an annular plate located between the flanges of the frame

electromagnetic windings and plugs. The anchor is located with the possibility of longitudinal movement in the channel frame of the electromagnetic coil and the ring of the magnetic circuit of the tube and is equipped with a through longitudinal channel through which the anchor is fixed on the moving rod passing through the channel. The stem is made of non-ferromagnetic material, the first protruding beyond the end, located on the side of the plug, the arm arm surface of which is mounted with the possibility of longitudinal movement in the stem sleeve, the second protruding from the end, located on the side of the stop, the arm arm of which is fitted with a rod and sequentially located on a single geometric axis, a plunger mounted with the possibility of longitudinal movement in coaxial to the longitudinal geometric axis of the electron the channel of the plunger body, and a shutter installed with the possibility of longitudinal movement in the channel body of the valve body coaxial to the longitudinal geometric axis of the electromagnet.

The disadvantages of this design include the high complexity of manufacturing and increased energy consumption of the valve due to the large number of parts and a significant gap in the magnetic circuits of the electromagnet.

The prototype of the utility model is the hydraulic valve, known from the author’s certificate SU1576764 F 16 K 31/02 (publ. 07/07/1990), controlled by an axial electromagnet with an internal retractor armature, formed by the electromagnetic coil frame, electromagnetic coil, plug magnetic circuit, guide sleeve, non-ferromagnetic an annular insert located in the gap of the guide sleeve in the region of the end face of the stop, an external magnetic circuit,

located coaxially to the walls of the guide sleeve, a stopper rolled in the opposite end face of the outer magnetic circuit, an anchor mounted with the possibility of longitudinal movement inside the guide sleeve, stop and stop magnetic circuit, a rod located with the possibility of longitudinal movement in the stop channel, valve body connected to the stop with by means of articulation elements from the side of the foot opposite the anchor, a shaped cover provided with a coaxial, relative to the longitudinal geometric axis of the body, to apana, with a channel installed in the bore of the valve body from the side of the stop, a shutter installed with the possibility of longitudinal movement in the bore of the valve body and the coaxial channel of the shaped cover, o-rings installed between the walls of the valve and the walls of the bore of the valve body, between the walls of the valve and the walls of the coaxial channel shaped cover, counter compression spring mounted coaxially to the longitudinal geometric axis of the valve between the walls of the bore of the valve body and the valve flange. The frame of the electromagnetic winding is made in the form of a non-ferromagnetic pipe bounded from the ends by flanges extending towards the outer magnetic circuit. The pipe frame of the electromagnetic coil is coaxial to the outer surface of the guide sleeve. The electromagnetic winding is laid on the pipe of the frame of the electromagnetic winding between its flanges. The magnetic circuit of the plug is made integrally with the guide sleeve in the form of an external magnetic circuit of the flange extending towards the side, located at the end of the guide sleeve from the side of the plug. The guide sleeve is made of ferromagnetic material integrally with the magnetic circuit of the tube. The butt end opposite to the magnetic circuit of the tube

the guide sleeve is connected to the end face of the stop. The stop and the stop magnetic circuit are made integrally in the form of a shaped ferromagnetic pipe equipped with a radial flange extending towards the outer magnetic circuit. The valve body is provided with radial hydraulic channels and an axially located, relative to the longitudinal geometric axis of the valve body, step boring. The shutter is made in the form of a pipe muffled from the side of the rod, provided with a fixed radial flange located in the middle of its length and perforated between the flange and the pipe end muffled by the walls.

Among the shortcomings of this design can be identified increased requirements for the accuracy of manufacturing of interconnected parts, as well as increased energy consumption of the valve due to the large gaps in the magnetic circuits of the electromagnet.

The objective of the utility model was the creation of electromechanical control valves, in particular flows and fluid parameters, consisting of a minimum number of parts, with minimal gaps in magnetic circuits, minimum weight and low laboriousness of assembly.

The problem is solved in an electromagnetic valve including an anchor located with the possibility of longitudinal movement, at least inside the channel of the guide sleeve, the frame of the electromagnetic winding, the electromagnetic winding, the guide sleeve, stop, stop magnetic circuit, tube and magnetic tube.

The problem is solved in that the electromagnetic winding frame is formed by motionless and hermetically connected axially arranged stop and stop magnetic circuit, made integrally in the form of a shaped ferromagnetic pipe, the outer surface of which is provided

a radially extending flange, a guide sleeve made in the form of a non-ferromagnetic cylindrical tube, and also a stopper and magnetic plug cork, made in the form of a shaped ferromagnetic pipe, also equipped with a radially extending flange, a shaped pipe flange formed by the plug magnetic circuit and the plug and / or stop magnetic circuit and stop, contains at least one, made in the form of a shaped slit open from the peripheral part of the flange or closed from the side the peripheral part of the flange of the cylindrical channel, the groove of the mouth of which is located on the opposite sides of the flange. In this case, the guide sleeve, stop and stopper can be connected in various ways, depending on which the geometric parameters of the mating surfaces of the guide sleeve, stop and stopper will differ.

The utility model allows to reduce the energy consumption of the valve and the complexity of its manufacture due to a decrease in the magnitude of the magnetic gap and the number of transient resistances in the magnetic circuit of the electromagnet, elimination of intermediate parts.

The utility model is illustrated by the drawing in FIG. 1, which shows a longitudinal section of a hydraulic solenoid valve.

The utility model is implemented by an external magnetic circuit 1, cork 2, magnetic circuit of cork 3, magnetic circuit of stop 4, stop 5, guide bush 6, armature 7, consonant compression spring 8, electromagnetic coil 9, stem 10, valve body 11 whose longitudinal channel is provided with a located in the mouth the channel with a threaded bore whose geometric dimensions are consistent with the geometric dimensions of the threaded fitting of the stop 5, located at the end of the longitudinal channel opposite the stop

the valve body 11 with an annular stop 12 located with the possibility of longitudinal movement in the longitudinal channel of the valve body 11 by a shutter 13 and located between the annular stop 12 and the shutter 13 by a counter compression spring 14. The guide sleeve 6 is made in the form of a non-ferromagnetic cylindrical pipe, the first located on the side of the stop , and the second, located on the side of the cork, the shoulders of which are provided with calibrated channel bores. Stop 5 and stop magnetic circuit 4 are made in the form of a shaped ferromagnetic pipe, the outer surface of which is provided with a flange spaced apart from the ends of the stop pipe, describing a radial midsection whose circumference is larger than the circle describing the stop midsection, located between the flange and the end of the stop on the armature side with a calibrated external groove , the dimensions of which are consistent with the dimensions of the calibrated bore of the channel of the first shoulder of the guide sleeve 6, as well as a threaded piece located on the opposite side of the foot anchor tserom whose dimensions matched to the threaded bore longitudinal bore of the valve body. The channel of the stop pipe and the stop magnetic circuit is provided with a conical bore located on the side of the anchor, the dimensions of which are consistent with the dimensions of the conical groove of the end of the anchor. The plug 2 and the magnetic circuit of plug 3 are made in the form of a shaped end plug of an end of a ferromagnetic pipe, the end portion of the open end of which contains a calibrated outer groove whose dimensions are consistent with the dimensions of the calibrated channel bore of the second shoulder of the guide sleeve b, equipped with a radial extension from the ends of the pipe the direction of the flange and the groove located in the flange 15. The groove 15 is made in the form of a radial slotted open from the peripheral part of the flange over the mouth

which are located on opposite sides of the flange. Anchor 7 is made in the form of a cylindrical part equipped with the first, located on the side of the stop, and the second, located on the side of the cork shoulders. The first arm of the anchor is equipped with a conical groove located on the outer surface from the side of the foot, the geometric dimensions of which are consistent with the geometric dimensions of the conical bore of the stop channel, and also with a blind stem channel located coaxially to the longitudinal geometric axis of the anchor, the mouth of which is located at the end of the anchor from the side of the stop. In this case, the geometric dimensions of the channel of the first arm arm are consistent with the geometric dimensions of the rod. The second arm of the anchor is equipped with a blind axial compression spring located axially longitudinal to the geometric axis, the mouth of which is located at the end of the anchor from the side of the plug. In this case, the geometric dimensions of the channel of the second arm arm are consistent with the geometric dimensions of the spring and the course of the armature. The rod 10, made in the form of a rod, is fixedly mounted in the channel of the rod of the first arm of the armature 7. Guide sleeve b, stop 5 with a magnetically integrated stop 4, tube 2 with a magnetically integrated tube 3 is stationary and hermetically connected to form an armature channel and an electromagnetic frame windings. Moreover, the diameters of the channels of the guide sleeve b and plug 2 are aligned with the external geometrical dimensions and the course of the armature 7. In the cavity of the channel of the armature formed by the channel of the stop 5, the channel of the guide sleeve 6, the channel of the plug 2, with an end plugged from the opposite foot, the anchor 7 located with the possibility of longitudinal movement in the channel of the guide sleeve b and the channel of the plug 2, rod 10 fixedly mounted in the blind channel of the first arm of the armature 7, located with the possibility of longitudinal movement in

the channel of the foot 5, and a consonant compression spring 8 located between the walls of the blind channel of the second arm arm 7 and the plug 2. The electromagnetic coil 9 is laid on the frame of the electromagnetic winding between its flanges, formed by the magnetic circuit of the stop 4 and the magnetic circuit of the plug 3, the connecting ends of the electromagnetic winding are brought out by a groove 15 beyond the framework of the electromagnetic coil. The outer magnetic circuit 1 is made in the form of a ferromagnetic pipe, the channel of which is equipped with the first, located in the region of the magnetic circuit of the stop 4, the second, located in the region of the magnetic circuit of the plug 3, with calibrated end bores whose geometric dimensions are consistent with the corresponding external geometric dimensions of the magnetic circuits of the stop and cork. The frame of the electromagnetic coil, with the electromagnetic coil 9 laid on the frame and located in the cavity of the frame of the electromagnetic coil by the rod 10, an armature 7 and a consonant compression spring 8, is fixedly mounted in the corresponding bores of the end calibrated sections of the outer magnetic circuit 1.

When the electromagnetic winding 9 is de-energized under the influence of a counter compression spring 14 located between the annular stop 12 and the end face of the shutter 13, the linear chain formed by the shutter 13, the rod 10 and the armature 7 is biased towards the end face of the plug 2, the consonant compression spring 8 is compressed. When connecting the electromagnetic winding to an electric power source under the influence of the magnetic field of the electromagnetic winding 9 and a consonant compression spring 8, the armature 7 moves towards the stop 5. Installed between the end surfaces of the armature and the shutter, it is longitudinally movable in the stop channel 5

the rod 10 biases the shutter 13 toward the annular stop 12, compressing the oncoming compression spring 14.

Claims (1)

An electromagnetic valve for controlling, in particular, flows and parameters of fluids, including an electromagnetic coil frame, an electromagnetic coil, a plug and a plug magnetic circuit, made together in the form of a shaped pipe plugged from the opposite foot with a flange that describes a radial midsection whose geometric circle more than the geometric circle describing the radial midsection of the tube tube, a guide sleeve made of non-ferromagnetic material, the first shoulder of which is laid on the side of the stop, and the second shoulder is located on the side of the cork, an anchor located with the possibility of longitudinal movement inside the guide sleeve and / or channel of the cork, the stop and the magnetic circuit of the stop, made together in the form of a shaped pipe equipped with a flange that describes a radial midsection whose geometric circle more than a geometric circle describing the radial midship of the stop pipe, characterized in that the electromagnetic coil frame is fixedly and hermetically connected axially located with the stop and stop magnetic circuit, made together in the form of a shaped ferromagnetic pipe, the outer surface of which is equipped with a radially extending flange, a guide sleeve made in the form of a non-ferromagnetic cylindrical pipe, as well as the cork and magnetic cork, made together in the form of a shaped ferromagnetic pipe, also equipped with a radially extending flange, a flange of a shaped pipe formed by the magnetic circuit of the cork and the cork and / or magnetic circuit of the stop and stop, with holding the at least one configured as an open side of the peripheral flange portion of the contoured slots or closed by the peripheral flange portion of the cylindrical passage groove, the mouth of which are located on opposite sides of the flange.