CN215721148U - Electromagnetic coil structure for electromagnetic valve - Google Patents

Abstract

The utility model provides an electromagnetic coil structure for an electromagnetic valve, which comprises a coil winding and an integrated coil framework, wherein the coil framework is provided with a winding part, the inner wall of the winding part is sprayed with an insulating layer, the coil winding is wound on the winding part, and the insulating layer is used for keeping the coil winding insulated from the coil framework; and a magnetic conduction shell is arranged on the outer side of the coil winding, and an outgoing line is arranged on the outer side of the magnetic conduction shell and penetrates through the magnetic conduction shell to be electrically connected with the coil winding. The electromagnetic coil structure for the electromagnetic valve provided by the utility model overcomes the defects of complex structure, large volume, unstable magnetic field force and weak electromagnetic force of the existing electromagnetic coil.

Description

Electromagnetic coil structure for electromagnetic valve

Technical Field

The utility model relates to the field of electromagnetic coils, in particular to an electromagnetic coil structure for an electromagnetic valve.

Background

The electromagnetic coil is formed by winding wires around an insulating tube in turns, and the wires are insulated from each other. The electromagnetic coil is a device that operates using the principle of electromagnetic induction. When current flows through a wire, a certain electromagnetic field is generated around the wire, and the wire of the electromagnetic field induces the wire in the range of the electromagnetic field. The electromagnetic coil is a main component in the electromagnetic valve and is responsible for the opening and closing action of the electromagnetic valve.

The electromagnetic coil of the prior art is to wind the enamelled wire on the framework made of insulating materials, the top of the framework is provided with an upper magnetic conductive plate, the bottom of the framework is provided with a lower magnetic conductive plate, and then the framework is sequentially arranged in the coil housing, enough space must be left between the coil winding and the metal to meet the safety requirements of electrical clearance and creepage distance, if the matched electromagnetic valve is used, a magnetic isolation pipe component is also required to be sleeved in a central hole, the structure is complex, the number of parts is large, especially a high-power coil, and the volume is very large. And due to the structural limitation, the magnetic force is broken or weakened, the magnetic force is quite unstable, and the electromagnetic force is weak.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

The utility model aims to solve the problem of providing an electromagnetic coil structure for an electromagnetic valve, so as to overcome the defects of complex structure, large volume, unstable magnetic field force and weak electromagnetic force of the existing electromagnetic coil.

(II) technical scheme

In order to solve the technical problem, the utility model provides an electromagnetic coil structure for an electromagnetic valve, which comprises a coil winding and an integrated coil framework, wherein the coil framework is provided with a winding part, the inner wall of the winding part is sprayed with an insulating layer, the coil winding is wound on the winding part, and the insulating layer is used for keeping the coil winding and the coil framework insulated; and a magnetic conduction shell is arranged on the outer side of the coil winding, and an outgoing line is arranged on the outer side of the magnetic conduction shell and penetrates through the magnetic conduction shell to be electrically connected with the coil winding. This solenoid adopts the coil skeleton of integral type to at the coil skeleton wire winding position spraying nanometer coating, its high-efficient insulating ability of full play nanometer coating, make solenoid structure very compact, it is very safe to use, when reducing the solenoid consumption, still obviously promotes supporting solenoid valve's performance.

Further, coil skeleton includes hollow magnetism-isolating pipe, the upper end of magnetism-isolating pipe is fixedly connected with fixed iron core and last magnetic conduction board respectively, the coil skeleton lower extreme is fixed with down the magnetic conduction board. According to the electromagnetic coil, the coil framework is specially designed, various materials are combined, the materials and parts are saved, the structure is more reasonable and compact, the magnetic field force of the electromagnetic coil is not changed, the upper magnetic conduction plate and the fixed iron core are directly welded to the top of the magnetism isolating pipe, the lower magnetic conduction plate is welded to the bottom of the magnetism isolating pipe, the magnetism isolating pipe is changed into an integrated coil framework blank, and finally integrated machining is carried out. Because this solenoid has not had the plastics skeleton, directly replaces with the metal for upper and lower magnetic conduction board is direct and coil winding contact, and the suction can be bigger, and upper and lower magnetic conduction board thickening can advance a bit and promote electromagnetic suction simultaneously, thereby can exert the biggest limit of solenoid electromagnetic force.

Further, the lower end of the fixed iron core is arranged in the magnetism isolating pipe, and the upper end of the fixed iron core is arranged outside the magnetism isolating pipe; the upper end of the fixed iron core is fixed with the upper magnetic conduction plate, and the lower end of the fixed iron core is provided with the sub-magnetic ring. A sub-magnetic ring is arranged at the position of the fixed iron core, and when alternating current is adopted, the sub-magnetic ring can eliminate noise generated by the alternating current.

Furthermore, the lower end of the lower magnetic conduction plate is provided with a threaded part. The winding part is an annular winding groove, and the winding groove is formed by surrounding the upper magnetic conduction plate, the magnetism isolating pipe and the lower magnetic conduction plate. The inner wall surface of the upper magnetic conduction plate, the outer wall surface of the magnetism isolating pipe and the inner wall surface of the lower magnetic conduction plate are provided with the insulating layers.

Furthermore, a plastic wrapping shell is packaged outside the magnetic conduction shell. The BMC is coated outside the magnetic conduction shell, so that the protection level is more than IP65, and the application range of the electromagnetic valve is wider.

Furthermore, the insulating layer is a nano coating with the thickness of 10-50 microns. And (3) spraying a nano coating at the winding position of the coil framework, wherein the thickness of the coating determines the strength of the final insulating capability. Besides good insulating effect, the nano coating has good protection effects on corrosion resistance, impact resistance, static resistance and the like.

Furthermore, the outgoing lines are respectively welded with the wire head and the wire tail of the coil winding correspondingly and wound on the coil winding in a splayed shape; and insulating sheets are laid at the bottoms of the two welding positions. And an insulating tape is wound outside the coil winding, and an insulating layer is sprayed on the insulating tape. The method is very important when the framework sprayed with the nano coating is wound with a plurality of layers of enameled wires and is connected and fixed with a lead, an insulating sheet is required to be arranged on the welding position of the enameled wires and the lead to prevent the enameled wires from being punctured by sharp points on the welding point, the leads are wound and tensioned in a splayed shape from the left side and the right side respectively, and the situation that the welding point is not moved to cause short circuit when the lead is pulled forcefully is ensured. After the electromagnetic coil winding is connected with the lead wire, the winding must be wrapped by an insulating adhesive tape, secondary fixation is also achieved, and meanwhile the surface of the wrapped coil is smoother and smoother, so that a foundation is laid for spraying a nano coating on the surface of the winding subsequently. The inside and the outside of the winding are sprayed with nano-coating, so that the winding is safer and more reliable than a group of enameled wires which are completely coated and insulated.

Furthermore, the magnetism isolating pipe, the fixed iron core, the upper magnetic conducting plate and the lower magnetic conducting plate are fixed into a whole in a laser welding mode.

(III) advantageous effects

The utility model provides an electromagnetic coil structure for an electromagnetic valve, which is formed by combining a coil framework, a coil winding, a magnetic conduction shell, an outgoing line and a plastic-coated shell, breaks through the inherent design thought of the original electromagnetic coil, adopts a spraying process to change the surface of a metal material into an insulator, saves materials, has more stable insulating property, more compact structure and larger magnetic field force, and the magnetic conduction material fully exerts the maximum magnetic conduction force; under the condition of the same appearance and power, the coil has smaller volume, larger suction force and more reliable safety, and when the coil is matched with an electromagnetic valve for use, the coil has higher opening pressure, smaller current and wider matched use, thereby being a revolutionary innovation for the electromagnetic coil industry; meanwhile, the magnetism isolating pipe and the coil framework are perfectly combined together, so that some parts necessary in the electromagnetic valve are omitted, the weight is light, the cost is low, the assembly is more convenient, and a solid foundation is laid for the innovation of the future electromagnetic valve and more applications of the future electromagnetic valve to high-tech, aerospace and deep sea researches.

Drawings

FIG. 1 is a cross-sectional view of a solenoid structure for a solenoid valve according to the present invention;

FIG. 2 is a schematic diagram of the connection between the bobbin and the coil winding of the electromagnetic coil structure of the solenoid valve according to the present invention;

FIG. 3 is a schematic diagram of a solenoid coil bobbin of the present invention;

FIG. 4 is a schematic structural diagram of a withstand voltage insulation voltage tester for an electromagnetic coil structure of an electromagnetic valve according to the present invention;

FIG. 5 is a schematic diagram of the connection between the coil winding and the lead-out wire of the solenoid structure for the solenoid valve according to the present invention;

FIG. 6 is a schematic structural diagram of a solenoid coil structure of the present invention after winding an insulating tape around the coil winding and spraying an insulating layer thereon;

FIG. 7 is a schematic structural diagram of a conventional solenoid;

FIG. 8 is a schematic structural view of a solenoid structure for a solenoid valve according to the present invention;

FIG. 9 is a schematic diagram of the electrical gap and creepage distance;

the corresponding part names for the various reference numbers in the figures are: 1. a coil bobbin; 2. a coil winding; 3. an insulating layer; 4. a magnetically conductive housing; 5. wrapping a plastic shell; 6. an outgoing line; 7. an insulating sheet; 8. an insulating tape; 11. a magnetism isolating pipe; 12. fixing the iron core; 13. an upper magnetic conductive plate; 14. a lower magnetic conductive plate; 15. dividing a magnetic ring; 16. a voltage withstand and insulation voltage tester; 17. a probe; 101. a winding part; 141. a threaded portion; y1, plastic skeleton; y7, coil housing; y8, a magnetism isolating pipe assembly; y9, spacer; y10, coil fixing nut; the total thickness of Z1, the plastic framework and the magnetism isolating pipe; the total thickness of the Z2, the plastic framework, the upper magnetic conduction plate and the coil housing; z3, thickness of coil housing; the total thickness of the Z4, the plastic framework and the lower magnetic conduction plate; d1, thickness of the magnetism isolating pipe; d2, the thickness of the upper magnetic conduction plate; d3, thickness of the magnetic conductive shell; d4, the thickness of the lower magnetic conduction plate; h1, a gap between the plastic framework and the coil winding; h2, thickness of plastic skeleton; h3, thickness of inner insulation layer of coil winding; n1, the gap between the coil housing and the coil windings; n2, thickness of insulation layer outside the coil winding.

Detailed Description

The following detailed description of embodiments of the present invention is provided in connection with the accompanying drawings and examples. The following examples are intended to illustrate the utility model but are not intended to limit the scope of the utility model.

Referring to fig. 1 to 8, the present invention provides an electromagnetic coil structure for an electromagnetic valve, which includes an integrated coil bobbin 1, a coil winding 2, a magnetic conductive casing 4 and an outgoing line 6. The coil frame 1 is provided with a winding part 101, the inner wall of the winding part 101 is coated with an insulating layer 3, the coil winding 2 is wound on the winding part 101, and the insulating layer 3 is used for keeping the coil winding 2 insulated from the coil frame 1; and a magnetic conduction shell 4 is arranged on the outer side of the coil winding 2, an outgoing line 6 is arranged on the outer side of the magnetic conduction shell 4, and the outgoing line 6 penetrates through the magnetic conduction shell 4 and then is electrically connected with the coil winding 2. The electromagnetic coil has simple and compact structure and large electromagnetic force.

Referring to fig. 3, the coil bobbin 1 includes a hollow magnetism isolating tube 11, a fixed iron core 12, an upper magnetism conducting plate 13 and a lower magnetism conducting plate 14, the upper end of the magnetism isolating tube 11 is fixedly connected with the fixed iron core 12 and the upper magnetism conducting plate 13 respectively, the lower end of the magnetism isolating tube 11 is fixed with the lower magnetism conducting plate 14, and the magnetism isolating tube 11, the fixed iron core 12, the upper magnetism conducting plate 13 and the lower magnetism conducting plate 14 are fixed into a whole by laser welding. The lower end of the fixed iron core 12 is arranged in the magnetism isolating pipe 11, and the upper end is arranged outside the magnetism isolating pipe 11; the upper end of the fixed iron core 12 is fixed with an upper magnetic conducting plate 13, and the lower end is provided with a sub-magnetic ring 15. Because the surface of the framework needs to be wound with the enameled wire, any wound surface needs to be flat, smooth and free of burrs and flashes, machining allowance is reserved for all parts, the welded coil framework can be subjected to secondary machining, at the moment, a blank framework is manufactured, the upper part and the lower part are made of magnetic conducting materials, the middle part is made of magnetic isolating materials, and particularly under the condition of alternating current, the alternating current noise can be reduced or eliminated by the magnetic separating ring.

Referring to fig. 3, the winding portion 101 is an annular winding slot, and the winding slot is defined by the upper magnetic conductive plate 13, the magnetism isolating tube 11 and the lower magnetic conductive plate 14. The inner wall surface of the upper magnetic conduction plate 13, the outer wall surface of the magnetism isolating pipe 11 and the inner wall surface of the lower magnetic conduction plate 14 are all provided with an insulating layer 3. The lower end of the lower magnetic conduction plate 14 is provided with a thread part 141; and polishing the machined coil framework to ensure that the winding surface is smooth and has no burrs. During machining, the bottom of the framework can be machined into various thread patterns such as M1, threads at the bottom of the coil can be directly connected with the solenoid valve through threads, and the solenoid valve is convenient and quick to assemble and does not need to be assisted by other accessories. Due to the particularity of the framework, the nanometer coating is sprayed on the winding surface of the framework made of metal, and the thickness of the coating directly influences the strength of the insulating capability.

Referring to fig. 4, in the present embodiment, the insulating layer 3 is a nano-coating layer with a thickness of 10 to 50 μm, preferably 50 μm. In order to verify whether the insulating capability of the nano coating reaches the safety level, the coil framework sprayed with coatings with different thicknesses is subjected to voltage withstand and insulation voltage detection. The voltage-resistant insulation voltage detection equipment comprises a voltage-resistant insulation voltage tester 16 and two probes 17, wherein the two probes are respectively contacted with the nano coating during detection, the voltage-resistant value is set, the red lamp of the tester is unqualified, and the green lamp of the tester is qualified. The method is also an item that the insulation voltage resistance of the conventional electromagnetic coil needs to be measured, so that the sprayed framework needs to be detected, and the winding surface of the sprayed framework is ensured to meet the design requirement. The specific parameters are shown in table 1, and the table shows that the thicker the coating, the larger the voltage resistance value, and meanwhile, the spraying process can be analyzed, so that the spraying process is absolutely safe and reliable.

Table 1: voltage resistance values of different coating thicknesses

Coating thickness μm	Withstand voltage value V
		10	300～500
20	1000
		30	1500
40	2000
		50	2500

Referring to fig. 5 and 6, the lead wires 6 are welded to the ends and tails of the coil windings 2, respectively, and wound around the coil windings 2 in a splayed shape; and insulating sheets 7 are laid at the bottoms of the two welding positions. An insulating tape 8 is wound outside the coil winding 2, an insulating layer 3 is sprayed on the insulating tape 8, and the insulating layer 3 is a nano coating. Coil winding enameled wire end of a thread and tail and lead-out wire weld, pad the insulating piece bottom the welding point to with the lead-out wire according to figure 5 style requirement carry out the eight characters winding and tighten up, guarantee that the welding point is unmovable when the pulling lead-out wire, reasonable winding mode can avoid lead wire short circuit to influence safety. In order to be completely isolated from the outside, the surface of the wound coil is smoothly wound and bound by the insulating adhesive tape, and the nano coating is sprayed on the outer layer of the insulating adhesive tape, so that the inner layer and the outer layer of the enameled wire are completely wrapped by the nano coating, and the enameled wire is safe and reliable.

Referring to fig. 1, a plastic-clad housing 5 is encapsulated outside a magnetically conductive housing 4. The BMC is coated outside the magnetic conduction shell, so that the protection level is more than IP65, and the application range of the electromagnetic valve is wider.

Referring to fig. 7, 8 and 9, from the perspective of electrical safety and structural analysis, the magnetic performance of the new and old coils is compared and analyzed, and the electromagnetic coil is obviously superior to the common coil. In fig. 9, the upper side is a schematic diagram of an electrical gap, and the lower side is a schematic diagram of a creepage distance, and it can be seen from the figure that all the conventional electromagnetic coils must have the electrical gap and creepage distance for safety, which may cause short circuit or breakdown phenomenon, and the patent adopts a nano coating to break the convention.

The common coil is formed by assembling and combining a plastic framework Y1, a coil winding 2, an insulating tape 8, an upper magnetic conduction plate 13, a lower magnetic conduction plate 14, an outgoing line 6, a coil housing Y7, a magnetism isolating pipe component Y8, a gasket Y9 and a coil fixing nut Y10 through the analysis of the number of accessories, and the common coil has multiple accessories and a complex structure. The electromagnetic coil is formed by combining a coil framework 1, a coil winding 2, a magnetic conduction shell 4, a plastic-coated shell 5 and a lead-out wire 6, and the more simple the structure, the lower the cost and the easily controllable quality are analyzed from the number of accessories.

The difference between the magnetic force and the magnetic force of the coils with the same power and the same size is determined by the thickness of the magnetic conductive material and the distance between the magnetic material and the magnetic field. In a common coil, Z1 is the total thickness formed by a plastic framework and a stainless steel magnetism isolating pipe, and the two magnetism isolating materials weaken the magnetic force when a magnetic field passes through the center of the coil; z2 is the total thickness of plastic skeleton, upper magnetic conduction board and coil encloser, the magnetic force is weakened under the isolation of insulating material at first in the magnetic field, secondly the upper magnetic conduction board can not be too thick because of the structural reason, make the magnetic force that coil circular telegram produce smaller; z3 is the thickness of the coil housing, with only a thin layer of the housing, the magnetic force is also weakened; z4 is the total thickness of plastic skeleton and lower magnetic conduction board, and the magnetic conduction ability is poor similarly. According to the electromagnetic coil structure, d1 is the thickness of the magnetism isolating pipe, d2 is the thickness of the thickened upper magnetic conductive plate, d3 is the thickness of the magnetic conductive shell, d4 is the thickness of the lower magnetic conductive plate, the structure is very simple, no insulating material is arranged in the middle of the electromagnetic coil structure, magnetic force cannot be interrupted or weakened, and magnetic field force is quite stable.

The conventional coil has a certain electrical gap and creepage distance due to the structural reason, when a certain distance is generated between the coil winding and the magnetic conductive material, the magnetic field force will be weakened, and when the same free-space design is applied to the electromagnetic valve, the current sound will be increased, which is a common fault of the conventional coil at present. In a common coil, the creepage distance is equal to the sum (H1+ H2) of the gap H1 between the plastic framework and the coil winding and the thickness H2 of the plastic framework, the electric gap is the gap N1 between the coil housing and the coil winding, and the whole volume is inevitably larger due to the existence of the electric gap and the creepage distance; this electromagnetic coil structure, owing to omitted the plastic skeleton, directly replace with the metal, make upper and lower magnetic conduction board direct and coil winding contact, creepage distance is the thickness H3 of the inboard insulating layer of coil winding, the electric clearance is the thickness N2 of the outside insulating layer of coil winding, because the thickness of insulating layer is very little, creepage distance and electric clearance are all negligible, consequently, coil winding is under the nanometer coating surrounds completely, magnetic conduction material can paste the electric conductor completely and can not be conducted, the structure is very compact, magnetic field is under magnetic conduction material's direct action, suction promotes greatly.

The electromagnetic coil structure for the electromagnetic valve provided by the embodiment has the advantages that the electromagnetic coil structure is superior to a conventional coil in all directions from the quantity, magnetic performance and structural design of accessories, when the electromagnetic coil structure is matched with the electromagnetic valve for use, the cost can be saved, the attraction force is greatly improved on the premise of the same power and the same size, the structural design of the traditional electromagnetic coil is broken, and a solid foundation is laid for developing more high-quality electromagnetic valves. The magnetic bearing has the advantages of simple integral structure, reliable performance, excellent process, strong magnetic performance, long service life, wide application range, flexible application of new materials, new processes and new structures, and is helpful for further promoting the development of domestic industrial automation, aerospace, deep sea exploration and other high-class fields.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the technical principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (10)

1. A solenoid structure for a solenoid valve, characterized in that: the coil winding structure comprises a coil winding (2) and an integrated coil framework (1), wherein a winding part (101) is arranged on the coil framework (1), an insulating layer (3) is sprayed on the inner wall of the winding part (101), the coil winding (2) is wound on the winding part (101), and the insulating layer (3) is used for keeping the coil winding (2) insulated from the coil framework (1); and a magnetic conduction shell (4) is installed on the outer side of the coil winding (2), an outgoing line (6) is arranged on the outer side of the magnetic conduction shell (4), and the outgoing line (6) penetrates through the magnetic conduction shell (4) to be electrically connected with the coil winding (2).

2. The electromagnetic coil structure for the electromagnetic valve according to claim 1, characterized in that: the coil framework (1) comprises a hollow magnetism isolating pipe (11), the upper end of the magnetism isolating pipe (11) is fixedly connected with a fixed iron core (12) and an upper magnetism conducting plate (13) respectively, and the lower end of the magnetism isolating pipe is fixed with a lower magnetism conducting plate (14).

3. The electromagnetic coil structure for the electromagnetic valve according to claim 2, characterized in that: the lower end of the fixed iron core (12) is arranged in the magnetism isolating pipe (11), and the upper end of the fixed iron core is arranged outside the magnetism isolating pipe (11); the upper end of the fixed iron core (12) is fixed with the upper magnetic conduction plate (13), and the lower end is provided with a sub-magnetic ring (15).

4. The electromagnetic coil structure for the electromagnetic valve according to claim 2, characterized in that: the lower end of the lower magnetic conduction plate (14) is provided with a thread part (141).

5. The electromagnetic coil structure for the electromagnetic valve according to claim 2, characterized in that: the winding part (101) is an annular winding groove, the winding groove is formed by surrounding the upper magnetic conduction plate (13), the magnetism isolating pipe (11) and the lower magnetic conduction plate (14), and the insulating layer (3) is arranged on the inner wall surface of the upper magnetic conduction plate (13), the outer wall surface of the magnetism isolating pipe (11) and the inner wall surface of the lower magnetic conduction plate (14).

6. The electromagnetic coil structure for the electromagnetic valve according to claim 1, characterized in that: and a plastic wrapping shell (5) is packaged outside the magnetic conduction shell (4).

7. The electromagnetic coil structure for the electromagnetic valve according to claim 1, characterized in that: the insulating layer (3) is a nano coating with the thickness of 10-50 mu m.

8. The electromagnetic coil structure for the electromagnetic valve according to claim 1, characterized in that: the outgoing lines (6) are respectively welded with the line head and the line tail of the coil winding (2) correspondingly and wound on the coil winding (2) in a splayed shape; and insulating sheets (7) are laid at the bottoms of the two welding positions.

9. The electromagnetic coil structure for the electromagnetic valve according to claim 8, characterized in that: and an insulating tape (8) is wound outside the coil winding (2), and an insulating layer (3) is sprayed on the insulating tape (8).

10. The electromagnetic coil structure for the electromagnetic valve according to claim 2, characterized in that: the magnetism isolating pipe (11), the fixed iron core (12), the upper magnetic conducting plate (13) and the lower magnetic conducting plate (14) are fixed into a whole in a laser welding mode.

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