Housing Structure of Planar Resistor

Abstract

A housing structure of a planar resistor is provided, wherein electrode extraction ends of the planar resistor are on the same side of the resistor. A housing structure body is made of an insulating material covering the surface of the resistor. An insulating structure having a groove opening facing toward or away from the resistor is provided around each electrode extraction end of the resistor. The insulating structure is configured to be a multi-tooth or multi-groove insulating structure.

Claims

1. A housing structure of a planar resistor, wherein all electrode extraction ends of the planar resistor are on the same side; a body of the housing structure is made of an insulating material covering a surface of the resistor; and an insulating structure having a groove opening facing toward the resistor is disposed to surround the electrode extraction ends of the planar resistor.

2. A housing structure of a planar resistor, wherein electrode extraction ends of the planar resistor are on the same side; a body of the housing structure is made of an insulating material covering a surface of the resistor; and an insulating structure having a groove opening facing away from the resistor is disposed to surround the electrode extraction ends of the planar resistor.

3. The housing structure of the planar resistor according to claim 1, wherein one end of the groove opening of the insulating structure is of a multi-tooth or multi-groove structure, and an outer top surface of the other end of the insulating structure is a flat surface.

4. The housing structure of the planar resistor according to claim 3, wherein a cross section of a tooth groove of the multi-tooth or multi-groove insulating structure is in a shape capable of increasing a creepage distance, including a square shape, a triangle shape or an arc shape.

5. The housing structure of the planar resistor according to claim 1, wherein the structure is suitable for a resistor with electrode extraction ends mounted facing away from the ground or sidewise relative to the ground.

6. (canceled)

7. The housing structure of the planar resistor according to claim 1, wherein the insulating structure completely wraps around the electrodes, or wraps around the electrodes within a partial region.

8. The housing structure of the planar resistor according to claim 1, wherein the insulating structure is configured to be a structure of an insulating cover nut as a whole and allows inverted mounting according to an orientation of the electrode extraction ends.

9. The housing structure of the planar resistor according to claim 1, wherein the insulating structure is constructed to surround two electrodes, or constructed between two electrodes.

10. The housing structure of the planar resistor according to claim 1, wherein a housing of the planar resistor is provided with a mounting wing plate, and a connection of the mounting wing plate and the body of the planar resistor is reinforced by a circular arc or an inclined surface.

11. The housing structure of the planar resistor according to claim 2, wherein one end of the groove opening of the insulating structure is of a multi-tooth or multi-groove structure, and an outer top surface of the other end of the insulating structure is a flat surface.

12. The housing structure of the planar resistor according to claim 11, wherein a cross section of a tooth groove of the multi-tooth or multi-groove insulating structure is in a shape capable of increasing a creepage distance, including a square shape, a triangle shape or an arc shape.

13. The housing structure of the planar resistor according to claim 2, wherein the structure is suitable for a resistor with electrode extraction ends mounted facing toward the ground.

14. The housing structure of the planar resistor according to claim 2, wherein the insulating structure completely wraps around the electrodes, or wraps around electrodes within a partial region.

15. The housing structure of the planar resistor according to claim 2, wherein the insulating structure is configured to be a structure of an insulating cover nut as a whole and allows inverted mounting according to an orientation of the electrode extraction ends.

16. The housing structure of the planar resistor according to claim 2, wherein the insulating structure is constructed to surround two electrodes, or constructed between two electrodes.

17. The housing structure of the planar resistor according to claim 2, wherein a housing of the planar resistor is provided with a mounting wing plate, and the connection of the mounting wing plate and the body of the planar resistor is reinforced by a circular arc or an inclined surface.

Description

BRIEF DESCRIPTION OF DRAWINGS

[0017] FIG. 1 is a physical diagram of a planar resistor in the prior art.

[0018] FIG. 2 is a three-dimensional diagram of an implementation of a housing structure of a planar resistor where electrodes are mounted facing away from the ground.

[0019] FIG. 3 is a partial cross-section diagram of an implementation of a housing structure of a planar resistor where electrodes are mounted facing away from the ground.

[0020] FIG. 4 is a three-dimensional diagram of an implementation of a housing structure of a planar resistor where electrodes are mounted facing toward the ground.

[0021] FIG. 5 is a three-dimensional diagram of another implementation of a housing structure of a planar resistor where electrodes are mounted facing away from the ground.

[0022] FIG. 6 is a partial cross-section diagram of another implementation of a housing structure of a planar resistor where electrodes are mounted facing away from the ground.

[0023] In the figures, what the numeral references represent are as described below: [0024] 1, an insulating material of a housing of a resistor body; [0025] 2, a mounting wing plate; [0026] 3, a multi-tooth or multi-groove insulating structure; [0027] 4, an electrode extraction end; [0028] 5, a reinforcing structure of the wing plate and the body; [0029] 6, a fastening screw for an extraction end connecting wire; [0030] 7, a resistor thin-film structure; [0031] 8, another multi-tooth or multi-groove insulating structure; and [0032] 9, another reinforcing structure of the wing plate and the body.

DETAILED DESCRIPTION

[0033] The present disclosure will be further introduced and described in combination with implementations, but the protection scope of the disclosure is not limited thereto.

[0034] A housing structure of a planar resistor provided by this implementation is applied to a voltage-sharing resistor for semiconductor switching elements in a valve module of a converter valve. Referring to FIG. 2, the example resistor is mounted facing away from the ground, with all electrode extraction ends 4 arranged on the upper surface of the resistor. A housing structure body 1 is an insulating structure covering the surface of a resistor film 7. The electrode extraction ends 4 of the resistor are surrounded by a multi-tooth or multi-groove insulating structure 3 having an opening facing toward a resistor body, and a top surface of the structure 3 is a flat surface. Referring to the cross-section diagram of FIG. 3, the insulating structure 3 in this implementation has two tooth grooves, and the tooth tips and the tooth grooves are square in a cross-sectional view. An external connecting wire is fastened by a connecting wire fastening screw 6. In this implementation, the creepage distance of the electrode extraction ends 4 needs to stride over the upper surface of the multi-tooth or multi-groove insulating structure 3, then extend into the tooth grooves along the surface of the structure, and finally extend to the upper surface 1 of the resistor along an electrode insulating wall. With such a structure design, the creepage distance is significantly increased, and meanwhile, due to the fact that the opening of the multi-tooth or multi-groove insulating structure after installation faces toward the ground, dust and dirt are difficult to enter, so that the reliability and maintenance-free property of the resistor are guaranteed. In FIG. 1, the connection of a mounting wing plate 2 and the resistor body is reinforced by using an arc-shaped structure, so that the problem about dust and dirt depositing in vertical corners of rib plates and grooves between a plurality of rib plates when reinforcing ribs are used can be avoided. When the extraction ends of the resistor are mounted sidewise relative to the ground, the solution shown in this implementation can also be adopted.

[0035] In a further implementation, one end of the insulating structure is of other tooth-like or groove-like structure, and the outer top surface of the other end of the insulating structure can be a cambered surface or a waved surface.

[0036] In a further implementation, the cross sections of the tooth grooves and the tooth tips of the insulating structure can be triangular, arc-shaped, or in any other shape capable of increasing the creepage distance. The number of the tooth grooves of the insulating structure can be disposed arbitrarily.

[0037] In a further implementation, when the electrode extraction ends of the resistor are arranged toward the ground, the multi-tooth or multi-groove insulating structure is designed to be inverted facing toward the outside of the resistor body, with the opening still facing toward the ground, as shown in FIG. 4. This implementation also provides another connection structure 9 of a wing plate and the resistor body.

[0038] In a further implementation, the insulating structure may only wrap around electrodes in a partial range, for example, only warp around the electrodes within a 180-degree range facing toward another electrode, with no inverted tooth groove disposed within the other 180-degree range. The insulating structure may be connected to an insulating housing on the upper surface of the resistor by using an ordinary insulating outer wall.

[0039] In a further implementation, the insulating structure can be a structure of an insulating cover nut as a whole and can be flexibly inverted and mounted according to a mounting orientation.

[0040] In another implementation, the insulating structure may be constructed at other locations between the electrodes of the planar resistor. As shown in FIG. 5, the electrodes 4 are still wrapped with an ordinary insulating structure with a smooth outer surface, and a multi-tooth or multi-groove insulating structure 8 is designed at a center line position between two electrodes of the resistor. As shown in the cross-section diagram of FIG. 6, the structure is in a shape of a tree or an umbrella.

[0041] The housing structure of the planar resistor provided in the present disclosure is characterized in that the creepage distance between the electrodes of the planar resistor is increased by using an insulating structure having a multi-tooth or multi-groove feature, and meanwhile, according to a mounting orientation of the electrodes, the opening of the multi-tooth or multi-groove insulating structure is always kept to face toward the ground or be sidewise relative to the ground, thereby preventing dust and fouling and enhancing the reliability and maintenance-free property of the planar resistor. Variations and modifications can be made by those skilled in the art within the scope of the claims of the present disclosure, which shall all fall into the protection scope of the disclosure as long as they are not beyond the scope of the claims.