DE202023102508U1 - Easy to assemble and disassemble current transformer - Google Patents

Abstract

Current transformer that is easy to assemble and disassemble, characterized in that it comprises:
a main component (100) comprising a transducer body (101) and an open hole (102) passing through a center of the transducer body (101), wherein on the inner wall of the open hole (102) connection blocks (102a, 102b) are circularly distributed, which are fixed to the inner wall of the open hole (102) and which are connected to a sleeve (103);
a docking component (200) comprising plug-in blocks (201, 202) arranged at both ends of the sleeve (103), the docking surfaces of the plug-in blocks (201, 202) being connected to docking blocks (203).

Description

TECHNICAL AREA

The utility model relates to the technical field of energy technology, in particular to a current transformer that is easy to assemble and disassemble.

STATE OF THE ART

A current transformer is a measuring instrument that converts a large primary current into a small secondary current based on the principle of electromagnetic induction.

Current transformers reduce the current ratio of the wire bundle based on the number of wire bundles going through the center of the current transformer. The current transformer is replaced when the usage time increases or the power grid is upgraded. At this time, if the two ends of the wire bundle are long or arranged reasonably, the current transformer disassembly will be very cumbersome.

CONTENT OF PRESENT UTILITY MODEL

The purpose of this section is to outline some aspects of the embodiments of the utility model and briefly introduce some preferred embodiments. Some simplifications or omissions may be made in this section, as well as in the summary of specification and the utility model title in this application, to avoid blurring the purposes of this section, the summary of specification and the utility model title, and such simplifications or omissions cannot be used to limit the scope of this utility model.

Considering the difficulty in disassembly caused by passing the above wire bundles through the current transformer, this utility model is proposed.

One of the purposes of the present invention is to propose a current transformer that can be easily dismantled as a device.

In order to solve the above technical problems, the utility model provides the following technical solution: easy to assemble and disassemble power converter, comprising: a main component including a converter body and an open hole passing through a center of the converter body. On the inner wall of the open hole, connecting blocks are distributed in a circle, which are fixed to the inner wall of the open hole, and which are connected with a sleeve;
a docking component comprising socket blocks arranged at both ends of the sleeve, the docking surfaces of the socket blocks being connected to docking blocks.

As a preferred solution of the current transformer for easy disassembly and assembly in power plants of the utility model, the plug-in blocks are each penetrated with curved through-holes, the through-holes are connected with penetration holes provided on the docking blocks.

As the preferred solution of the current transformer for easy disassembly and assembly in utility model power plants, the docking blocks are formed by dividing hard parts of the inner ring and elastic parts of the outer ring, and the elastic parts of the outer ring wrap the hard parts of the inner ring and are fixed with the hard parts of the inner ring.

As a preferred solution of the current transformer for easy disassembly and assembly in power plants of the utility model, a coupling component is also provided between the main component and the docking component, comprising a connection hole that passes through the connection block and a rod body that is inserted in the connection hole, one end of the rod body is fixed with a torsion sleeve.

As a preferred solution of the current transformer for easy disassembly and assembly in power plants of the utility model, a sliding groove is provided on the inner wall of one side of the connecting hole, the sliding groove being connected to the rod body through a sliding block slidably connected to the inner cavity, the rear end of the sliding groove being connected to an annular sliding groove provided on the inner wall of the connecting hole, one side of the rod body being fixed relative to the sliding groove with a connecting piece.

As the preferred solution of the current transformer for easy disassembly and assembly in power plants of the utility model, the surface of the docking block is coated with an insulating tape with a raised side, the other side of the insulating tape is connected with a stretch tape with a width smaller than the insulating tape, the stretch tape penetrating the raised side of the insulating tape and reaching into the internal cavity of the connecting hole, a portion of the elastic band located in the internal cavity of the connecting hole is a solid plate body, and an insertion hole for inserting the connector is provided on the elastic band.

As the preferred solution of the current transformer for easy disassembly and assembly in power plants of the utility model, the plug-in block and sleeve are cut off from the position near the outlet end of the through hole and divided into combination blocks, with the docking point between the combination blocks fixed with a convex block, a sliding hole corresponding to the width of the convex block is provided on the combination block.

As the preferred solution of the current transformer for easy disassembly and assembly in power plants of the utility model, the sliding hole is provided with a restriction hole into which the convex block is inserted, the side wall of the restriction hole is provided with a placement hole, the bottom wall of the placement hole is fixed with a spring, and one end of the spring is fixed with an insertion rod, which can be connected to a through hole on the convex block.

As the preferred solution of the current transformer for easy disassembly and assembly in power plants of the utility model, the end face of the plug-in rod, which is fixed with the spring, is fixed with a pull rope, with one end of the pull rope extending to the inner cavity of the connection hole and connected to a movable ring on the inner wall of the connection hole.

As the preferred solution of the current transformer for easy disassembly and assembly in utility model power plants, the rod body is provided with an extrusion ring overlapping with the movable ring.

As the preferred solution of the current transformer for easy disassembly and assembly in utility model power plants, the inner cavity of the through hole is provided with a confining component including a cone cylinder inserted into the through hole and a rope connected to the outer wall of the cone cylinder. One end of the rope is attached to the elastic parts embedded in the plug-in blocks, and the other end is attached to the rear end of the pole body. The outlet end of the cone cylinder is fitted with a flexible ring which is attached to the inside wall of the cone cylinder by folding strips. The folding strip is provided with elastic threads, the inlet end of the flexible ring is provided with a guide cylinder, the guide cylinder is cut off in the middle, the guide cylinder is fixed to the inner wall of the cone cylinder by rubber strips.

The beneficial effect of this utility model is that by mounting a ferrule in the center of the internal cavity of the transducer body, the wire bundles passing through the center of the transducer body can be divided into two sections that connect to the ferrule for the power connector. In the event of a transducer failure, the lead bundles within the sleeve can be pulled out to facilitate disassembly of the transducer body.

character list

• 1 ist ein schematisches Diagramm der Gesamtstruktur dieses Gebrauchsmusters.
• 2 ist eine Querschnittsansicht der Hülse dieses Gebrauchsmusters.
• 3 ist ein schematisches Diagramm des Docking-Blocks dieses Gebrauchsmusters.
• 4 ist ein strukturelles schematisches Diagramm der Hülse dieses Gebrauchsmusters.
• 5 ist eine vergrößerte Ansicht der Position A in 2 dieses Gebrauchsmusters.
• 6 ist ein strukturelles schematisches Diagramm der Hülse dieses Gebrauchsmusters.
• 7 ist ein strukturelles schematisches Diagramm des Stangenkörpers dieses Gebrauchsmusters.
• 8 ist eine vergrößerte Ansicht der Position B in 2 dieses Gebrauchsmusters.

In order to show more clearly the technical solutions of the embodiments of the present invention, the accompanying drawings to be used in the description of the embodiments are briefly introduced below. It is obvious that the attached drawings in the following description are only some embodiments of the present utility model. For those skilled in the relevant technical field, based on these drawings, he can get other drawings without creative work, where:

• 1 Fig. 12 is a schematic diagram of the overall structure of this utility model.
• 2 Fig. 12 is a cross-sectional view of the ferrule of this utility model.
• 3 Figure 12 is a schematic diagram of the docking block of this utility model.
• 4 Fig. 12 is a structural schematic diagram of the ferrule of this utility model.
• 5 is an enlarged view of position A in 2 this utility model.
• 6 Fig. 12 is a structural schematic diagram of the ferrule of this utility model.
• 7 Fig. 12 is a structural schematic diagram of the rod body of this utility model.
• 8th is an enlarged view of position B in 2 this utility model.

DETAILED DESCRIPTION

In order to make the above purposes, features and advantages of this utility model more obvious and understandable, the specific embodiments of this utility model are hereinafter described in connection with the attached drawings of the specification explained in detail.

Many specific details are set forth in the following description to facilitate a thorough understanding of the present utility model. However, the present utility model can also be implemented in other ways than those described here. Those skilled in the relevant technical field can conduct similar promotions without violating the connotation of the present utility model. Therefore, the present utility model is not limited by the specific embodiments given below.

Second, the term "an embodiment" or "embodiments" referred to herein refers to specific features, structures, or characteristics that may be included in at least one embodiment of the present utility model. The term "in one embodiment" appearing in various parts of this specification does not necessarily refer to the same embodiment, nor is it a separate or selective embodiment that is mutually exclusive with other embodiments.

Example 1

Referring to the 1 until 5 it relates to a first embodiment of this utility model. The exemplary embodiment offers a current transformer that is easy to assemble and disassemble. By coordinating the main component 100 and the docking component 200, the wire bundles can be divided into two sections and inserted into the sleeve 103, and the wire bundles inserted into the sleeve 103 are limited by the docking component 200.

The main component 100 includes a transducer body 101 and an open aperture 102 running through the center of the transducer body 101 . The converter body 101 is a conventional current transformer with a continuous open hole 102 in the center, the connection blocks 102a and 102b are distributed on the inner wall of the open hole 102 in a ring shape, which are fixed to the inner wall of the open hole 102. Connection blocks 102a include a coupling component 300 and connection blocks 102b do not. The sleeve 103 is fixed at the center of the open hole 102 in alignment with the connecting blocks 102a. The connection blocks 102a and 102b are connected to the sleeve 103, which are used to support the components that delimit the bundles of wires that are inserted.

The docking component 200 includes plug-in blocks 201 and 202 arranged at both ends of the sleeve 103, the plug-in blocks 201 and 202 are plug-connected to the front and rear ends of the sleeve 103 and fixed. And the opposite faces of the inserting blocks 201 and 202 are parallel to the end face of the sleeve 103, and the docking faces of the inserting blocks 201 and 202 are connected to the docking block 203. The connection blocks 203 are located in the middle of the sleeve 103, and both ends are fixed with insertion blocks 201 and 202.

The insertion blocks 201 and 202 pass through curved through holes 204a and 204b, respectively. The through holes 204a and 204b are used for plugging with the cable cores of cables, and the through holes 204a and 204b are divided into upper and lower parts. The direction of curvature of the through hole 204a in the upper part is from top to bottom, while the through hole 204b is the lower part and the direction of curvature is from bottom to top. The through holes 204 a and 204 b are connected to the penetration hole 205 provided on the docking block 203 , and the penetration hole 205 is provided on the docking block 203 . And the number of the penetration holes 205 corresponds to the number of the through holes 204b, and the cable cores inserted into the through holes 204b finally converge in the penetration holes 205.

The docking blocks 203 are formed by dividing hard parts of the inner ring 203a and elastic parts of the outer ring 203b, and the elastic parts of the outer ring 203b wrap the hard parts of the inner ring 203a and are fixed with the hard parts of the inner ring 203a. The elastic parts of the outer ring 203b can be made of rubber that can be elastically recovered, while the hard parts of the inner ring 203a can be made of flame-retardant plastic. The hard parts of the inner ring 203a and the elastic parts of the outer ring 203b both make up half of the penetration hole 205, so that when the elastic parts of the outer ring 203b are pressed, the hard parts of the inner ring 203a can be pressed to limit the cable cores within the penetration hole 205.

At this point, after the cable cores of cables are inserted into the insertion blocks 201 and 202 in the sleeve 103, the Through holes 204a, 204b on the insertion blocks 201 and 202 are divided into upper and lower parts. The upper part of the through hole 204a is curved downward, and the lower part of the through hole 204b is curved upward. This causes the cable core to be eventually inserted into the penetration hole 205 on the docking block 203 due to the compression deformation of the inner wall at the inflection point with through hole 204a.

Example 2

Referring to the 1 until 7 it relates to a second embodiment of this utility model, which differs from the first embodiment in that a coupling component 300 is added based on embodiment 1, which corresponds to the main component 100 and the docking component 200, and the cable cores in the docking component 200 are limited by the coupling component 300.

The coupling component 300 includes a connection hole 301 that passes through the connection block 102a and a rod body 302 that is inserted into the connection hole 301 . One end of the rod body 302 is fixed with a torsion sleeve 303, and a connection hole 301 is provided at the center of the connection block 102a. The inner cavity of the connection hole 301 is inserted with the rod body 302 . One end of the rod body 302 extends parallel to the surface of the transducer body 101, and the parallel end is fixed with a torsion sleeve 303 with a friction pattern on the surface, so that it is convenient for users to grip the torsion sleeve 303 and rotate the rod body 302. On the torsion sleeve 303 are two marks corresponding to the upper and lower slide grooves 301a.

A slide groove 301a is provided on the inner wall of one side of the connection hole 301 . The slide groove 301a is connected to the rod body 302 by a slide block slidably connected through the internal cavity. When the slide block on the rod body 302 moves from the slide groove 301a to the annular slide groove 301b, it can rotate. In addition, the slide block and the slide groove 301a are magnetic structures. The rear end of the slide groove 301a is connected to a circular slide groove 301b provided on the inner wall of the connection hole 301, and one side of the rod body 302 is fixed relative to the slide groove 301a with a connection piece 302a.

The surface of the docking block 203 is coated with an insulating tape 303 with a raised side, the other side of the insulating tape 303 is connected with a stretch tape 304 with a width smaller than the insulating tape 303, the insulating tape 303 and the stretch tape 304 wrap the surface of the docking block 203, and the fastening point between the insulating tape 303 and docking block 203 is located located at the rear end of the raised point of the insulating tape 303, so that when the stretch tape 304 is pulled by external force, it drives the insulating tape 303 to compress the elastic parts of the outer ring 203b in the docking block 203, thereby moving the elastic parts of the outer ring 203b to the hard parts of the inner ring 203a under compression, thereby moving the cable cores into the penetration hole en 205 are pressed together so that the connection between the two cable cores becomes tighter. The stretch band 304 penetrates the raised side of the insulating tape 303 and extends into the inner cavity of the connecting hole 301, a portion of the stretch band 304 located in the inner cavity of the connecting hole 301 is a solid plate body, and an insertion hole 304a is provided for inserting the connector 302a on the stretching band 304. The stretching tape 304 passes through the opening provided on the raised side of the insulating tape 303, so that the force exerted by the stretching tape 304 and insulating tape 303 on the docking block 203 does not deviate. One side of the stretch band 304 extends into the inner cavity of the connection hole 301, and a portion of the stretch band 304 that extends into the inner cavity of the connection hole 301 is in a long strip shape with an insertion hole 304a provided thereon, and the diameter of the insertion hole 304a is larger than the size of the connector 302a to allow the insertion of the connector 302a and the insertion hole 304a facilitate when the slider on the rod body 302 moves along the sliding groove 301a to the annular sliding groove 301b. After insertion, due to the long strip shape of the fixed plate body of the stretch band 304, the twisting of the rod body 302 does not affect the plug-in connection between the stretch band 304 and the rod body 302. In addition, when the stretch band 304 is pulled out, it squeezes the docking block 203 together with the insulating tape 303.

Example 3

Referring to the 1 until 8th it relates to a third embodiment of this utility model, which differs from the first and second embodiment in that that combination blocks 201a and 201b, convex block 01a-1 and insertion rod 305a-1 of the first and second embodiments are added to cooperate with the main component 100, the docking component 200 and the coupling component 300.

The insertion block 201 and the sleeve 103 are cut off from the outlet end near the through hole 204a and divided into combination blocks 201a and 201b. The plug-in block 201a and the sleeve 103 are divided into combination blocks 201a and 201b by severing, which allows the combination block 201a to be taken out separately, making the charged cable cores in the combination block 201a less susceptible to electric shock due to accidental contact with the user's hands. The docking point between the combination blocks 201a and 201b is fixed with a convex block 201a-1, a sliding hole 201b-1 corresponding to the width of the convex block 201a-1 is provided on the combination block 201b. The slide hole 201b-1 on the combination block 201b is concave and has a larger diameter than the convex block 201a-1 on the combination block 201a, making it easier for the convex block 201a-1 to couple with the slide hole 201b-1.

The sliding hole 201b-1 is provided with a restriction hole 201b-2 into which the convex block 201a-1 is inserted. The restriction opening 201b-2 is provided in the slide opening 201b-1. And the diameter of the restricting hole 201b-2 is larger than the protrusion of the convex block 201a-1, which facilitates the insertion of the protrusion of the convex block 201a-1 into the restricting hole 201b-2.

The side wall of the restricting hole 201b-2 is provided with a placement hole 305, the bottom wall of the placement hole 305 is fixed with a spring 305a, and one end of the spring 305a is fixed with an insertion rod 305a-1 which can be connected to a through hole N1 on the convex block 201a-1. The inner wall of the restriction opening 201b-2 is provided with a placement hole 305, the bottom wall of the placement hole 305 is fixed with a spring 305a, and the connection end with the outside of the spring 305a near the restriction hole 201b-2 is fixed with an insertion rod 305a-1, which is connected to a through hole N1 on the projection of the convex block 201a-1. And the pre-contact surface between the insertion rod 305a-1 and the convex block 201a-1 includes a downward inclined surface, so that when the convex block 201a-1 is inserted into the restricting hole 201b-2, due to the compression of the inclined surface of the insertion rod 305a-1 by the projection of the convex block a-1, the insertion rod 305a-1 moves toward the placement hole 30 5 moves until the through hole N1 on the convex block 201a-1 is inserted into the through hole N1 in correspondence with the insertion rod 305a-1 to limit the convex block 201a-1, thereby limiting the combination block 301a.

The end of the insertion rod 305a-1 fixed with the spring 305a is fixed with a pull rope N2, one end of the pull rope N2 extends to the inner cavity of the connection hole 301 and is connected to a movable ring N3 on the inner wall of the connection hole 301. The movable ring N3 is a magnet and is firmly attached to the inner wall of the connecting hole 301. The side wall of the movable ring N3 is fixed to the pull rope N2, which extends from the connecting hole 301 to the placement hole 305 and is fixed to the contact surface between the insertion rod 305a-1 and the spring 305a. This not only prevents the movable ring N3 from slipping out of the connection hole 301 by its own magnetic adsorption, but also allows the movable ring N3 to be reset after pressure displacement due to lack of pressure by the elastic return of the spring 305.

The rod body 302 is provided with an extrusion ring N4 overlapped with the movable ring N3. The extrusion ring N4 is fixed to the rod body 302, and one side of the extrusion ring N4 overlaps with one side of the movable ring N3, and the extrusion ring N4 is on the side of the movable ring N3 away from the outlet of the connection hole 301.

The inner cavity of the through hole 204b is provided with a restricting component 400 including a cone cylinder 401 inserted into the through hole 204b and a rope 402 connected to the outer wall of the cone cylinder 401 . The rope 402 can be two in number and is located at the upper and lower parts of the cone cylinder 401, so that the cone cylinder 401 smoothly moves toward the rope 402 during the outer pulling operation of the rope 402. One end of the rope 402 is fixed to the elastic parts 403 embedded in the plug-in blocks 202, the elastic parts 403 can be springs, through the elastic recovery of the elastic parts 403, the elastic parts 403 can drive the cone cylinder 401 to return when the rope 402 lacks external force. The other end is at the back end of the rod body 302 is attached. The rope 402 fixed to the rear end of the rod body 302 can avoid winding with the rod body 302 while the rod body 302 rotates. The outlet end of the cone cylinder 401 is provided with a flexible ring 404, the flexible ring 404 may be made of rubber, which allows expanding and shrinking the diameter of the flexible ring 404 by the flexibility of the rubber to clamp the inserted cable cores. The flexible ring 404 is fixed to the inner wall of the cone cylinder 401 by folding strip 405 which is a plastic product. The different planes of the folding strips 405 are connected by elastic threads 405a, so that the folding strip 405 enables the diameter of the flexible ring 404 to be reduced by the elastic recovery of the elastic threads 405a when there is no external force to compress. The folding strip 405 is provided with elastic threads 405a, the inlet end of the flexible ring 404 is provided with a guide cylinder 406, the guide cylinder 406 is cut and converted into two semicircular plates. Since the outlet end of the guide cylinder 406 is fixed to the inlet end of the flexible ring 404, the cable cores inserted into the guide cylinder 406 are inserted into the flexible ring 404 more smoothly. And the guide cylinder 406 is cut off in the middle, the guide cylinder 406 is fixed to the inner wall of the cone cylinder 401 by rubber strips. And the guide cylinder 406, due to its truncation, can move under the compression of its own volume as the cable cores advance to drive the flexible ring 404 to expand to facilitate insertion of the cable cores.

At this point, the downward pressure of the rod body 302 can allow the cable 402 to be pulled, whereby the cone cylinder 401 drives the wire bundles to move toward the through hole 204b. At the same time, during the disassembling process, due to the downward direction of the through hole 204b, the flexible ring 404 can also pinch the cable cores in wire bundles to prevent electric shock accidents caused by the cable cores being quickly loosened when removing the current transformer. When the rod body 302 is moved up and connected to the insertion hole 304a on the stretch band 304 through the connecting piece 302a, the rod body 302 can be rotated to wrap the stretch band 304, causing the stretch band 304 and the insulating tape 303 to wrap and compress the docking block 203 so that the two cable cores in the docking block 203 are connected more closely .

The rod body 302 moves up again, causing the extrusion ring N4 to squeeze the movable ring N3 to make the movable ring N3 pull the pull rope N2 to put the insertion rod 305a-1 into the through hole N1, and then the combination block 201a is separated from the combination block 201b, so that the charged wire bundles inside the through hole 204a during disassembly into through hole 204a, i.e. left in combination block 201a to avoid accidental electrocution.

At this point, the original line passing through the current transformer can be split into two sections by the rod body 302 without affecting the normal operation of the current transformer. When replacing the current transformer, the line can only be pulled out, which facilitates the disassembly work of the current transformer for users. It should be noted that the above embodiments only serve to illustrate and not limit the technical solution of the utility model. Although the utility model has been described in detail with reference to better embodiments, those of ordinary skill in the art should understand that the utility model technical solution can be modified or equivalently substituted without departing from the spirit and scope of the utility model technical solution. These modifications and replacements should all fall within the claims of this utility model.

Claims (10)

Easy to assemble and disassemble current transformer, characterized in that it comprises : a main component (100) comprising a transformer body (101) and an open hole (102) passing through a center of the transformer body (101), on the inner wall of the open hole (102) connecting blocks (102a, 102b) being circularly distributed, which are fixed to the inner wall of the open hole (102) and connected to a sleeve (103). ; a docking component (200) comprising plug-in blocks (201, 202) arranged at both ends of the sleeve (103), the docking surfaces of the plug-in blocks (201, 202) being connected to docking blocks (203). Easy to assemble and disassemble current transformer claim 1 , characterized in that the insertion blocks (201, 202) are each penetrated with curved through-openings (204a, 204b), the through-openings (204a, 204b) with penetration openings ments (205) are connected, which are provided on the docking blocks (203). Easy to assemble and disassemble current transformer according to one of the Claims 1 until 2 , characterized in that the docking blocks (203) are formed by hard parts of the inner ring (203a) and elastic parts of the outer ring (203b) are pieced, wherein the elastic parts of the outer ring (203b) wrap the hard parts of the inner ring (203a) and are attached to the hard parts of the inner ring (203a). Easy to assemble and disassemble current transformer according to one of the Claims 1 until 2 , characterized in that a coupling component (300) is also provided between the main component (100) and the docking component (200), comprising a connection hole (301) which runs through the connection block (102a) and a rod body (302) which is inserted in the connection hole (301), one end of the rod body (302) being fixed with a torsion sleeve (303). Easy to assemble and disassemble current transformer claim 4 , characterized in that a slide groove (301a) is provided on the inner wall of one side of the connection hole (301), the slide groove (301a) being connected to the rod body (302) through a slide block slidably connected to the internal cavity, the rear end of the slide groove (301a) being connected to an annular slide groove (301b) provided on the inner wall of the connection hole (301), one side of the rod body s (302) is fixed relative to the sliding groove (301a) with a connecting piece (302a). Easy to assemble and disassemble current transformer claim 5 , characterized in that the surface of the docking block (203) is coated with an insulating tape (303) with a raised side, the other side of the insulating tape (303) is connected with a stretch tape (304) with a width smaller than the insulating tape (303), the stretch tape (304) penetrating the raised side of the insulating tape (303) and extending into the inner cavity of the connection opening (301 ) extends, wherein a portion of the stretch band (304), which is located in the inner cavity of the connecting hole (301), is a solid plate body, and an insertion hole (304a) for inserting the connecting piece (302a) is provided on the stretch band (304). Easy to assemble and disassemble current transformer according to one of the Claims 1 , 2 , 5 and 6 , characterized in that the insertion block (201) and the sleeve (103) is cut off from the position near the outlet end of the through hole (204a) and divided into combination blocks (201a, 201b), wherein the docking point between the combination blocks (201a, 201b) is fixed with a convex block (201a-1) with a sliding hole (201b-1) corresponding to the width of the convex block (201a-1) is provided on the combination block (201b). Easy to assemble and disassemble current transformer claim 7 , characterized in that the sliding hole (201b-1) is provided with a restriction hole (201b-2) into which the convex block (201a-1) is inserted, the side wall of the restriction hole (201b-2) being provided with a placement hole (305), the bottom wall of the placement hole (305) being fixed with a spring (305a), one end of the spring (305a) being fixed with a one plug rod (305a-1) which can be connected to a through hole (N1) on the convex block (201a-1). Easy to assemble and disassemble current transformer claim 8 , characterized in that the end face of the insertion rod (305a-1) fixed with the spring (305a) is fixed with a traction cable (N2), one end of the traction cable (N2) extending to the inner cavity of the connection hole (301) and connected to a movable ring (N3) on the inner wall of the connection hole (301), the rod body (302) having an extrusion overlapping with the movable ring (N3). string (N4). Easy to assemble and disassemble current transformer according to one of the Claims 1 until 2 or 5 until 6 , dadurch gekennzeichnet , dass der innere Hohlraum des Durchgangslochs (204b) mit einer Begrenzungskomponente (400) versehen ist, einschließlich eines in das Durchgangsloch (204b) eingeführten Kegelzylinders (401) und eines Seils (402), das mit der Außenwand des Kegelzylinders (401) verbunden ist, wobei ein Ende des Seils (402) an den elastischen Teilen (403) befestigt ist, die in den Einsteckblöcken (202) eingebettet sind, und das andere Ende am hinteren Ende des Stangenkörpers (302) befestigt ist, wobei das Auslassende des Kegelzylinders (401) mit einem flexiblen Ring (404) versehen ist, der durch Faltstreifen (405) an der Innenwand des Kegelzylinders (401) befestigt ist, wobei der Faltstreifen (405) mit elastischen Fäden (405a) versehen ist, wobei das Einlassende des flexiblen Rings (404) mit einem Führungszylinder (406) versehen ist, wobei der Führungszylinder (406) in der Mitte abgeschnitten ist, wobei der Füh tion cylinder (406) is attached to the inner wall of the cone cylinder (401) by rubber strips.

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