CN202636939U - Integration shielding coil sensor for magnetic induction imaging system - Google Patents

Abstract

The utility model discloses an integration shielding coil sensor for a magnetic induction imaging system. The integration shielding coil sensor comprises a shielding circuit board I, a shielding circuit board II and a detection coil circuit board, wherein the detection coil circuit board is arranged between the shielding circuit board I and the shielding circuit board II, and the detection coil circuit board, the shielding circuit board I and the shielding circuit board II are closely attached into a whole; comb-shaped shielding wires are arranged on the right side and the reverse side of the detection coil circuit board and connected into a whole through public connection wires, and the comb-shaped shielding wires don't form a loop and are grounded through a point; and detection coils are covered on the right side and the reverse side of a detection board of the detection coil circuit board along opened holes. According to the integration shielding coil sensor for the magnetic induction imaging system, a structure that the shielding board, the detection board and the shielding board are sequentially arranged in a pressing mode is used, and all the shielding wires are ground through the single point and don't form the loop on the shielding board so that all the wires on the shielding board form a zero electrical level equipotential closed structure, and the interface of electric field capacity coupling signals in a magnetic induction imaging technology can be effectively shielded.

Description

The integrated shielded coil sensor that is used for the magnetic induction image system

Technical field

This utility model relates to the magnetic induction signal measurement, and the particularly coil pickoff design of shielding capacitive coupling interfering signal in the magnetic induction medical imaging technology more particularly, relates to a kind of coil pickoff of the integrated shielding for the magnetic induction image system.

Background technology

The magnetic induction medical imaging technology is a kind of novel noncontact imaging technique.The main field that the excitation coil that this technology passes to sinusoidal current becomes when producing one in the space around, when biological tissue is placed in this main field, can induce eddy current in the biological tissue, and the intensity of eddy current is proportional to the electrical conductivity of object, and this eddy current also induces the secondary time-varying magnetic field in the space around.

The measurement of time-varying magnetic field uses magnetic test coil to realize that according to the Faradic electricity magnetic induction principle, the time-varying magnetic field signal transition becomes the induced electromotive force signal of coil output.But time dependent magnetic field also can produce time dependent electric field in the space, this time-varying electric field can be directly coupled in the magnetic test coil by capacitively coupled mode, thereby is superimposed upon in the induced electromotive force signal of coil output, form interference source, the precision of measuring is exerted an influence.

Improve the key of magnetic induction medical imaging commercial measurement precision when how to remove the capacitive coupling interfering signal of time-varying electric field.Therefore, in the engineering reality of magnetic induction measurement, need to design a kind of effective device that the capacitive coupling interfering signal of time-varying electric field is shielded.

Summary of the invention

In view of this, the purpose of this utility model provides a kind of integrated shielded coil sensor for the magnetic induction image system, can effectively shield the interference of electric field capacitive coupling signal in the magnetic induction image technology.

The purpose of this utility model is achieved through the following technical solutions:

The integrated shielded coil sensor that should be used for the magnetic induction image system, sensor comprises screened circuit plate I, screened circuit plate II and magnetic test coil circuit board, described magnetic test coil circuit board is arranged between screened circuit plate I and the screened circuit plate II, there is external series gap between the adjacent circuit board, forms an integral body by assembling;

Described screened circuit plate I is identical with the structure of screened circuit plate II, include the shielding plate body, offer square square hole on the described shielding plate body, on the tow sides of shielding plate body, be separated to form four blind zones around the described square hole, separation gap between the adjacent shields district is four, it is respectively summit around square hole, stretch out respectively and obtain, be provided with the many outward extending shielded conductors of frame along square hole in each blind zone, the shielded conductor that is in the same blind zone is parallel to each other, form pectinate texture, all shielded conductors link together by bus, make to only have some contact between the adjacent shields wire, and pass through one point earth;

Described magnetic test coil circuit board comprises the detection plate body, the middle part of described detection plate body offers the perforate corresponding with square hole, on the tow sides of described detection plate body, cover magnetic test coil along perforate, the area that described magnetic test coil covers is less than or equal to the area that the shielded conductor on screened circuit plate I and the screened circuit plate II covers.

Further, the square hole frame that the shielded conductor in the same blind zone is corresponding with its blind zone, place is perpendicular, and the spacing between the adjacent shields wire equates;

Further, on the shielding plate body of described screened circuit plate I, the shielded conductor that is positioned at positive and negative two sides is staggered complementary;

Further, on the shielding plate body of described screened circuit plate II, the shielded conductor that is positioned at positive and negative two sides is staggered complementary;

Further, on the shielding plate body of described screened circuit plate I and screened circuit plate II, the position of drawing wire corresponding to the magnetic test coil circuit board is provided with a circular hole, is used for wire is drawn out to pad;

Further, described shielding plate body and detecting on four jiaos of plate body is respectively arranged with for the fixing through hole of bolt;

Further, the separation gap on the described shielding plate body overlaps with the diagonal extended line of square hole I;

Further, described shielded conductor is fine copper wire;

Further, the diameter range of described shielded conductor is 0.15 ~ 0.3mm, during parallel arranged to each other the span of distance be 0.15 ~ 0.3mm;

Further, the diameter range of described shielded conductor is 0.25mm, during parallel arranged to each other apart from being 0.25mm.

The beneficial effects of the utility model are:

1. this utility model has adopted barricade-check-out console-three layers of structure of pressing arrangement of barricade, makes the front and back position of magnetic test coil all have the screened circuit plate to play shielding action, and with respect to original double-layer structure, it is better that it deadens performance, and shield effectiveness is better;

2. the shielding line on the barricade adopts the design of pectination thin wire, all wires are by single-point grounding, on barricade, do not form the loop, thereby make the isoelectric level enclosed construction of the zero level of all wires formation on the barricade, this kind shielding line structural design is through evidence, and it can effectively shield the interference of electric field capacitive coupling signal in the magnetic induction image technology;

3. this utility model compact conformation is easily manufactured, is fit to large-scale production and application.

Other advantages of the present utility model, target and feature will be set forth to a certain extent in the following description, and to a certain extent, based on being apparent to those skilled in the art to investigating hereinafter, perhaps can from practice of the present utility model, obtain instruction.Target of the present utility model and other advantages can realize and obtain by following description and claims.

Description of drawings

In order to make the purpose of this utility model, technical scheme and advantage clearer, below in conjunction with accompanying drawing this utility model is described in further detail, wherein:

Fig. 1 is each circuit board scheme of installation of the present utility model;

Fig. 2 is the structural representation (front) of screened circuit plate;

Fig. 3 is the structural representation (reverse side) of screened circuit plate;

Fig. 4 is the structural representation (front) of magnetic test coil circuit board;

Fig. 5 is the structural representation (reverse side) of magnetic test coil circuit board.

The specific embodiment

Hereinafter with reference to accompanying drawing, preferred embodiment of the present utility model is described in detail.Should be appreciated that preferred embodiment only for this utility model is described, rather than in order to limit protection domain of the present utility model.

As shown in Figure 1, integrated shielded coil sensor of the present utility model, comprise screened circuit plate I 1, screened circuit plate II 2 and magnetic test coil circuit board 3, magnetic test coil circuit board 3 is arranged between screened circuit plate I 1 and the screened circuit plate II 2, there is external series gap between the adjacent circuit board, forms an integral body by assembling; In the present embodiment, at shielding plate body 4 with detect four jiaos of plate body 7 and be respectively arranged with for the fixing through hole 11 of bolt, be fixed with nut by the plastics screw between the three and be connected.

As shown in Figures 2 and 3, screened circuit plate I 1 is identical with the structure of screened circuit plate II 2, include shielding plate body 4, offer square square hole 5 on the shielding plate body 4, on the tow sides of shielding plate body 4, be separated to form four blind zones around the square hole 5, separation gap between the adjacent shields district is four, it is respectively summit around square hole 5, stretch out respectively and obtain, be provided with the many outward extending shielded conductors 6 of frame along square hole in each blind zone, the shielded conductor 6 that is in the same blind zone is parallel to each other, and forms pectinate texture, and all shielded conductors 6 link together by bus, and so that only have some contact (namely not forming loop between all shielded conductors) between the adjacent shields wire, and pass through one point earth; All wires do not form the loop by single-point grounding on barricade, thereby make the isoelectric level enclosed construction of the zero level of all wires formation on the barricade, have promoted shield effectiveness.In the present embodiment, the separation gap on the shielding plate body 4 overlaps (being that separation gap and horizontal direction or the angle of vertical direction are 135 °) with the diagonal extended line of square hole 5, thereby guarantees the equal and opposite in direction of four blind zones.

As a kind of design, as shown in the figure, in the present embodiment, bus has comprised that four jiaos of partially overlapping around the square lead frame 12 in one week of square hole and with four separation gap are connected wire 13, and the connection wire links to each other with four jiaos of square lead frame respectively.

In the blind zone, an end of shielded conductor that is positioned at four frame scopes of square lead frame 12 all links to each other with square lead frame 12, and the other end stretches out; And in the same blind zone remaining shielded conductor all with is connected wire 13 and links to each other, wherein, the square lead frame is not closure, has some to disconnect, so can not cause the situation of loop connection.As a whole, all shielded conductors on the screened circuit plate have formed a foursquare ground plane.

In the present embodiment, the square hole frame that the shielded conductor 6 in the same blind zone is corresponding with its blind zone, place is perpendicular, and the spacing of 6 in adjacent shields wire equates, thereby is convenient to make, and makes simultaneously the shielding overlay area even, promotes shield effectiveness.

As further improvement, on the shielding plate body of screened circuit plate I 1, the shielded conductor 6 that is positioned at positive and negative two sides is staggered complementary, equally, on the shielding plate body of screened circuit plate II 2, the shielded conductor 6 that is positioned at positive and negative two sides is staggered complementary, and the benefit of doing like this is to improve the uniformity, guarantees shield effectiveness.

Such as Fig. 4, shown in Figure 5, magnetic test coil circuit board 3 comprises detection plate body 7, the middle part of detecting plate body 7 offers the perforate 8 corresponding with square hole 5, just detect plate body 7, on the anti-two sides, cover magnetic test coil 9 along perforate 8, as shown in the figure, described perforate is square opening, magnetic test coil with along square opening around successively around form stretch out, form the square coil winding configuration, the area that magnetic test coil 9 covers is less than or equal to the area that the shielded conductor on screened circuit plate I 1 and the screened circuit plate II 2 covers, thereby guarantees its shield effectiveness, can not produce the shielding blind area.

As further improvement, on the shielding plate body of screened circuit plate I 1 and screened circuit plate II 2, the position of drawing wire corresponding to magnetic test coil circuit board 3 is provided with a circular hole 10, is used for wire is drawn out to pad.

In the present embodiment, shielded conductor 6 is fine copper wire, and its diameter is 0.25mm, during parallel arranged to each other apart from being 0.25mm.

Through evidence, the effectively interference of electric field capacitive coupling signal in the isolated magnetic induction image forming technology of integrated shielded coil sensor of the present utility model is fit to promote the use of.

Explanation is at last, above embodiment is only unrestricted in order to the technical solution of the utility model to be described, although with reference to preferred embodiment this utility model is had been described in detail, those of ordinary skill in the art is to be understood that, can make amendment or be equal to replacement the technical solution of the utility model, and not breaking away from aim and the scope of the technical program, it all should be encompassed in the middle of the claim scope of the present utility model.

Claims (10)

1. the integrated shielded coil sensor that is used for the magnetic induction image system, it is characterized in that: described sensor comprises screened circuit plate I(1), screened circuit plate II(2) and magnetic test coil circuit board (3), described magnetic test coil circuit board (3) is arranged on screened circuit plate I(1) and screened circuit plate II(2) between, there is external series gap between the adjacent circuit board, forms an integral body by assembling;

Described screened circuit plate I(1) with screened circuit plate II(2) structure identical, include shielding plate body (4), offer square square hole (5) on the described shielding plate body (4), on the tow sides of shielding plate body (4), be separated to form four blind zones around the described square hole (5), has respectively a separation gap between the adjacent shields district, each separation gap is respectively summit around square hole (5), stretch out respectively and obtain, be provided with the many outward extending shielded conductors of frame along square hole (6) in each blind zone, the shielded conductor (6) that is in the same blind zone is parallel to each other, form pectinate texture, all shielded conductors (6) link together by bus, make to only have some contact between the adjacent shields wire, and bus pass through one point earth;

Described magnetic test coil circuit board (3) comprises detection plate body (7), the middle part of described detection plate body (7) offers the perforate (8) corresponding with square hole (5), on the tow sides of described detection plate body (7), cover magnetic test coil (9) along perforate (8), the area that described magnetic test coil (9) covers is less than or equal to screened circuit plate I(1) and screened circuit plate II(2) on the area that covers of shielded conductor.

2. the integrated shielded coil sensor for the magnetic induction image system according to claim 1, it is characterized in that: the square hole frame that the shielded conductor in the same blind zone (6) is corresponding with its blind zone, place is perpendicular, and the spacing between adjacent shields wire (6) equates.

3. the integrated shielded coil sensor for the magnetic induction image system according to claim 1 and 2 is characterized in that: on the shielding plate body described screened circuit plate I(1), be positioned at the staggered complementation of shielded conductor (6) on positive and negative two sides.

4. the integrated shielded coil sensor for the magnetic induction image system according to claim 1 and 2 is characterized in that: on the shielding plate body described screened circuit plate II(2), be positioned at the staggered complementation of shielded conductor (6) on positive and negative two sides.

5. the integrated shielded coil sensor for the magnetic induction image system according to claim 1 and 2, it is characterized in that: described screened circuit plate I(1) and screened circuit plate II(2) the shielding plate body on, the position of drawing wire corresponding to magnetic test coil circuit board (3) is provided with a circular hole (10), is used for wire is drawn out to pad.

6. the integrated shielded coil sensor for the magnetic induction image system according to claim 1 and 2 is characterized in that: be respectively arranged with for the fixing through hole (11) of bolt on four jiaos of described shielding plate body (4) and detection plate body (7).

7. the integrated shielded coil sensor for the magnetic induction image system according to claim 1 and 2, it is characterized in that: the separation gap on the described shielding plate body (4) overlaps with the diagonal extended line of square hole (5).

8. the integrated shielded coil sensor for the magnetic induction image system according to claim 1, it is characterized in that: described shielded conductor (6) is fine copper wire.

9. the integrated shielded coil sensor for the magnetic induction image system according to claim 2, it is characterized in that: the diameter range of described shielded conductor is 0.15 ~ 0.3mm, during parallel arranged to each other the span of distance be 0.15 ~ 0.3mm.

10. the integrated shielded coil sensor for the magnetic induction image system according to claim 9, it is characterized in that: the diameter of described shielded conductor is 0.25mm, during parallel arranged to each other apart from being 0.25mm.

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