ES2619710T3 - Dual rotation mobile contact module - Google Patents

Abstract

A rotating double breakpoint mobile contact module, comprising: an independent single-phase rod-shaped monobloc rotor (101) having a first through hole (110) in the center thereof, a first cavity (111) and two split holes (113) semi-circular in each axial side face thereof, and second recesses (115) in radial direction, the two split holes (113) being semicircular symmetrical along the center of the bar-shaped rotor (10), and the split holes (113) being semicircular in shape with different axial side faces aligned in axial direction, and each second cavity (115) surrounding a split hole (113) in a semicircular shape; a first shaft (105) mounted in the first through hole (110); a contact spring (108) mounted in each of the first cavities (111), the contact spring (108) being able to move within a range defined by the first cavity (111); a first connection member (102) mounted on the bar-shaped monobloc rotor (101), the first connection member (102) being mounted inside the two grooved holes (113) in a semicircular manner, which are aligned in the direction axial, the first connecting member (102) being configured to slide inside the second cavity (115) using the split hole (113) semicircularly as a center of rotation, and the rotation angle of the first member of connection (102) along the length of the second cavity (115), the first connection member (102) having a second through hole (121), a short convex shaft (120) on both sides of the first connection member (102) and a flat thickness, the short axis (120) corresponding to the split hole (113) being semicircular, the second through hole (121) corresponding to a second axis (106), and the flat thickness not being greater than a depth of the second cavi dad (115), so that the second cavity (115) can effectively limit the range of motion of the first connection cavity (102); passing the second shaft (106) through the first connecting member (102) for securing the contact spring (108); a third axis (107); a second connecting member (103) having a third through hole (130) and a fourth through hole (131) at both ends of the second connecting member (103), the third through hole (130) corresponding to the second axis ( 106) and the fourth through hole (131) with the third shaft (107); passing the second axis (106) and the third axis (107) through the second connecting member (103), respectively; and a contact bridge (104) that crosses through the bar-shaped monobloc rotor (101), the outer profile of the contact bridge (104) having central symmetry; the first axis (105) and the third axis (107) passing through the contact bridge (104), respectively, contacts being welded at the end points of both sides of the contact bridge (104).

Description

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DESCRIPTION

Module of double rotation mobile contact Background of the invention

1. Field of the invention

The present invention relates to a contact module of an automatic circuit breaker, more specifically, it relates to a rotary mobile contact module of double breakpoint of the operating mechanism of an automatic circuit breaker.

2. Related technique

The double breakpoint structure is a trend in modern molded case circuit breakers. Because they are an important component of the molded case circuit breaker, the contact modules have gained great attention. Molded case circuit breakers with high interruption capacity generally use rotating double breakpoint mobile contact structures, which are of different types. Some of the conventional rotating mobile contact structures have additional functions, the additional functions fundamentally include the automatic locking of the mobile contact after the opening by electrodynamic force of repulsion, in order to avoid the rebound of the mobile contact. The present invention provides a rotating double breakpoint mobile contact module that has a different structure with respect to traditional products. A simple structure repulsion and blocking device is provided, with high reliability and with fewer components. When a contact bridge is opened to a relatively small angle by means of the electrodynamic repulsive force, the apparatus can quickly block the contact bridge in a limit position at a safe distance from the open contacts. Another problem that must be solved by the rotary mobile contact structure of the double breakpoint is that of maintaining the balance between the contact pressures applied to the contacts on both sides. The present invention is able to significantly improve the balance between contact pressures on both sides, while both contact pressures satisfy the desired pressure requirements. The present invention also provides a spring protection mechanism in order to protect the spring from damage caused by arc particles or metal particles.

The Chinese patent application with publication number 101320659A, and with application number 200810040543.0, describes a rotating double breakpoint structure of a molded case circuit breaker, comprising: a bar-shaped monobloc rotor having a shaft hole in the axial geometric center, a plurality of through holes for connecting rods having central symmetry, coupling holes at both axial ends having central symmetry, a through hole for contact bridge in the radial center, side walls on both radial sides of the bar-shaped monobloc rotor having openings for mounting the contact bridge; a contact bridge that passes through the through hole for contact bridge and that is mounted in the openings of the bar-shaped monobloc rotor, the contact bridge having a second through hole in the axial geometric center, the second through hole being aligned with the shaft hole, a second shaft that passes through the second through hole and the shaft hole, the contact bridge having a plurality of first through holes having a central symmetry; a set of connecting rods, each having a connection hole and a short convex shaft, the connection hole aligning with one of the first through holes of the contact bridge, a set of first axes that pass through the connection holes aligned with the first through holes, respectively, the short convex axis being arranged in a through hole for rod-shaped rotor rod connecting rod; a set of contact springs, the end points of each of them being fixed on two first axes having central symmetry. Other examples of mobile contacts, circuit breakers and selector shaft units are described in Chinese Patent Application No. 102103948 A, in U.S. Patent Application. No. 6,084,489 A and in German patent application No. 102004059407 A1, respectively.

The contact bridge of the double breakpoint rotating structure described in the previous patent application uses a sliding block mechanism instead of a connecting member. The trajectory of the mechanical displacement of the sliding block mechanism and that of the mechanism of the connecting member are completely different. The sliding block mechanism can result in a sliding friction, which can affect the flexibility of the movement. In addition, the monobloc rotor in the form of the previous application has a plurality of mounting holes, which can increase the complexity of the assembly procedure due to a greater number of assembly procedures.

Compendium

The present invention describes a rotating double breakpoint mobile contact module having a new structure, which is used in a contact module of a molded case circuit breaker. The present invention is capable of carrying out the automatic interruption of high current short circuits of

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the rotating double breakpoint mobile contacts. The mobile contacts can be opened quickly and the bounce of the mobile contacts is avoided, and the contact pressure on the two contact points is balanced.

According to the present invention, a rotating double breakpoint mobile contact module is provided as defined in the attached claim 1. Said module of rotary mobile contact of double breakpoint comprises, among other features:

a bar-shaped monobloc rotor, the bar-shaped monobloc rotor is single-phase independent and has a first through hole in the center, a first shaft is mounted in the first through hole, the bar-shaped monobloc rotor has a first cavity in each of the axial side faces, a contact spring is mounted in each of the first cavities, the contact spring is able to move within a range defined by the first cavity;

a first connection member, the first connection member is mounted on the rod-shaped monobloc rotor, a second shaft passes through the first connection member;

a second connection member, the second axis and the third axis pass through the second connection member, respectively;

a contact bridge, the contact bridge crosses through the bar-shaped monobloc rotor, the external profile of the contact bridge has a central symmetry, the first axis and the third axis pass through the contact bridge, respectively, they are welded contacts at the end points of both sides of the contact bridge.

According to one embodiment, the bar-shaped monobloc rotor has two coupling holes and two semi-circular grooved holes on each axial side face, the two coupling holes are symmetrical along the center of the bar-shaped rotor, the two semi-circular grooved holes are symmetrical along the center of the bar-shaped rotor, a fixed angle is formed between a line that joins the geometric centers of the two coupling holes on the same axial side face and a line that joins the geometric centers of the two grooved holes semicircularly on the same axial side face, the coupling holes of different axial side faces are axially concentric, and the two semi-circular grooved holes of different axial side faces are axially concentric. The bar-shaped monobloc rotor has an irregular through hole in the radial direction, the width of the irregular through hole makes it possible for the contact bridge to cross through it, the bar-shaped monobloc rotor also has second cavities in the radial direction , each second cavity surrounds a semicircular cleft hole.

According to one embodiment, the irregular through hole has two first curved faces having central symmetry, the first curved faces coincide with the outer profile of the contact bridge for the definition of an initial pressure position and a maximum opening position of the contact bridge .

According to one embodiment, the outer profile of the contact bridge has two curved second faces that have a central symmetry, the second curved faces coincide with the first curved faces.

According to one embodiment, the first connection member is mounted inside the two semi-circular grooved holes, which are axially concentric, the first connection member slides through the interior of the second cavities using the semicircular grooved hole as the center The angle of rotation of the first connecting member is limited by the length of the second cavity.

According to one embodiment, the first connecting member has a second through hole and a short convex axis on both sides, the short axis corresponds to the semicircular groove, the second through hole corresponds to the second axis. A flat thickness of the first connection member is not greater than a depth of the second cavity.

According to one embodiment, the second connecting member has a third through hole and a fourth through hole at both ends, the third through hole corresponds to the second axis, the fourth through hole corresponds to the third axis.

According to one embodiment, the contact bridge has two fifth through holes that have central symmetry, the third axis is mounted inside the fifth holes. The contact bridge has a split hole in the center, the first axis passes through the split hole and is able to slide through the inside of the split hole along the longitudinal direction, the longitudinal direction of the split hole is arranged according to a fixed angle with respect to a contact welding surface of the contacts welded on the contact bridge.

According to one embodiment, the contact spring is held in two second axes, which have a central symmetry, and moves inside the first cavity of the bar-shaped monobloc rotor.

The rotating double breakpoint mobile contact module of the present invention is capable of carrying out the automatic interruption of high current short circuits of the rotating point of contact mobile contacts.

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double interruption The mobile contacts can be opened quickly and the bounce of the mobile contacts is avoided, and the contact pressure on the two contact points is balanced.

Brief description of the drawings

The features, conditions and prior advantages of the invention, as well as others, will be apparent from the following description of the embodiments, which include the drawings, in which,

Figures 1a, 1b, 1c, 1d and 1e illustrate the assembly structure of the rotary mobile double breakpoint contact module according to an embodiment of the present invention.

Figures 2a and 2b illustrate the contact bridge of the rotary mobile contact module of double breakpoint according to an embodiment of the present invention.

Figures 3a, 3b, 3c and 3d illustrate the bar-shaped monobloc rotor of the rotary mobile contact module of double breakpoint according to an embodiment of the present invention.

Figures 4a, 4b and 4c illustrate the first connection member of the rotary mobile contact module of double breakpoint according to an embodiment of the present invention.

Figures 5a and 5b illustrate the second connecting member of the rotary mobile double breakpoint contact module according to an embodiment of the present invention.

Figure 6 illustrates the structural view of the rotating double breakpoint mobile contact module in an opening position or in a firing position according to an embodiment of the present invention.

Figure 7 illustrates the structural view of the rotating double breakpoint mobile contact module in a closed position according to an embodiment of the present invention.

Figure 8 illustrates the structural view of the rotary mobile contact module of double breakpoint in a neutral position according to an embodiment of the present invention.

Figure 9 illustrates the structural view of the rotary mobile contact module of double breakpoint in a maximum opening position according to an embodiment of the present invention.

Figures 10a and 10b illustrate the structural view of the rotary mobile contact module of double breakpoint in an unbalanced load position according to an embodiment of the present invention.

Detailed description of the achievements

The present invention describes a rotary mobile contact module of double breakpoint. FIGS. 1-10 illustrate a rotating double breakpoint mobile contact module according to an embodiment of the present invention. The rotating double breakpoint mobile contact module comprises a rod-shaped monobloc rotor 101, a first connection member 102, a second connection member 103, a contact bridge 104, a first axis 105, a few second axes 106 , a third axis 107 and contact springs 108.

The monobloc rotor with bar shape 101 is single-phase independent. The rod-shaped monobloc rotor 101 has a first through hole 110 in the center. The first shaft 105 is mounted in the first through hole 110. The rod-shaped monobloc rotor 101 has a first cavity 111 in each of the axial side faces. The contact spring 108 is mounted in both first cavities 111. The contact spring 108 is able to move within a range defined by the first cavity 111.

The first connection member 102 is mounted on the rod-shaped monobloc rotor 101. The second shaft 106 passes through the first connection member 102.

The second axis 106 and the third axis 107 pass through the second connection member 103, respectively.

The contact bridge 104 crosses through the bar-shaped monobloc rotor 101. The outer profile of the contact bridge 104 has a central symmetry. The first axis 105 and the third axis 107 pass through the contact bridge 104, respectively. Contacts are welded at the end points of both sides of the contact bridge 104.

Figures 3a, 3b, 3c and 3d illustrate the bar-shaped monobloc rotor of the rotary mobile contact module of double breakpoint according to an embodiment of the present invention. On each of the axial side faces of the bar-shaped monobloc rotor 101, there are two coupling holes 112 and two split holes 113 of semicircular shape. The two coupling holes 112 are symmetrical along the center of the bar-shaped rotor, and the two split holes 113 in a semicircular shape are also symmetrical along the center of the bar-shaped rotor. There are four coupling holes 112 in total and four recessed holes 113 semicircular in total. A fixed angle is formed between a line that joins the geometric centers of the two

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coupling holes 112 on the same axial side face and a line connecting the geometry centers of the two split holes 113 semicircularly on the same axial side face. The coupling holes 112 of different axial side faces are axially concentric, and the two semi-circular grooved holes 113 of different axial side faces are also axially concentric. The bar-shaped monobloc rotor 101 has an irregular through hole 114 in the radial direction. The width of the irregular through hole 114 makes it possible for the contact bridge 104 to cross through it. The irregular through hole 114 has two first curved faces 116 having a central simetna. The first curved faces 116 coincide with the outer profile of the contact bridge 104 for the definition of an initial pressure position and a maximum opening position of the contact bridge 104. The bar-shaped monobloc rotor 101 also has second cavities 115 in radial direction. Each second cavity 115 surrounds a split hole 113 of semicircular shape. The total number of second cavities 115 is four as well.

Figures 2a and 2b illustrate the contact bridge of the rotary mobile contact module of double breakpoint according to an embodiment of the present invention. The contact bridge 104 has two fifth through holes 140 having a central simetna. The third shaft 107 is mounted inside the fifth holes 140. The third shaft 107 engages in the fifth holes 140 with little clearance. The contact bridge 104 has a recessed hole 141 in the center. The first shaft 105 passes through the cleft hole 141. The first shaft 105 engages in the cleft hole 141 with little clearance, and is able to slide inside the cleft hole 141 along the longitudinal direction. The longitudinal direction of the split hole 141 is arranged according to a fixed angle with respect to a contact welding surface of the contacts welded on the contact bridge 104. The angle can be optimized by means of calculation, in order to maintain a balance between the contact pressure applied to the contacts on both sides. The outer profile of the contact bridge 104 has two curved second faces 142 having a central simetna. The second curved faces 142 coincide with the first curved faces 116 arranged on the irregular through hole 114, the first curved face 116 fits over the second curved face 142 with little clearance.

Figures 4a, 4b and 4c illustrate the first connection member of the rotary mobile contact module of double breakpoint according to an embodiment of the present invention. The first connection member 102 is mounted inside the two split holes 113 of semicircular shape, which are axially concentric. The first connection member 112 slides inside the second cavities 115 using the split hole 113 semicircularly as the center of rotation. The angle of rotation of the first connection member 102 is limited by the length of the second cavity 115. The first connection member 102 has a second through hole 121 and a short convex shaft 120 on both sides. The short axis 120 corresponds to the split hole 113 in a semicircular manner. The second through hole 121 corresponds to the second axis 106. A flat thickness of the first connecting member 102 is not greater than a depth of the second cavity 115, so that the second cavity 115 can effectively limit the range of motion of the first connection member 102. The outer profile of the first connection member 102 has no influence on the rotation of itself within a range.

Figures 5a and 5b illustrate the second connecting member of the rotary mobile double breakpoint contact module according to an embodiment of the present invention. The second connection member 103 has a third through hole 130 and a fourth through hole 131 at both ends. The third through hole 130 corresponds to the second axis 106, the fourth through hole 131 corresponds to the third axis 107.

The first axis 105 crosses through the first through hole 110 of the bar-shaped monobloc rotor 101 and the split hole 141 of the contact bridge 104, along the axial direction of the bar-shaped monobloc rotor 101. The first axis 105 engages in the first through hole 110 and in the cleft hole 141 with little clearance. The two second axes 106, which are arranged in such a way that they have central symmetry, cross through the second through hole 121 of the first connection member 102 and through the third through hole 130 of the second connection member 103, along the axial direction of the bar-shaped monobloc rotor 101. The contact spring 108 is held in the two second shafts 106, which have a central symmetry. The contact spring 108 moves inside the first cavity 111 on both axial sides of the bar-shaped monobloc rotor 101. The third axes 107 are arranged in such a way that they have a central simetna, and cross through the fourth through hole. 131 of the second connecting member 103 and through the fifth through hole 140 of the contact bridge 104, along the axial direction of the bar-shaped monobloc rotor 101.

Figures 6 ~ 10 illustrate the process of operation of the rotary mobile contact module of double breakpoint according to an embodiment of the present invention. In which Figure 6 illustrates the structural view in an opening position or in a firing position, Figure 7 illustrates the structural view in a closed position, Figure 8 illustrates the structural view in a neutral position, Figure 9 illustrates the structural view in a maximum opening position, figure 10 illustrates the structural view in an unbalanced load position.

In an opening position of the circuit breaker, the connecting members rotate counterclockwise under the action of the elastic force of the contact springs. The force is transferred to the first connection member through the first axis, and drives the first connection member to rotate counterclockwise. The first connection member, the second connection member and the contact bridge form a four-member connection mechanism, which makes it possible for the force to also drive the contact bridge so that it rotates counterclockwise .

Finally, the second curved faces of the contact bridge make contact and rest on the first curved faces of the bar-shaped monobloc rotor. The rotating double breakpoint mobile contact module maintains the state shown in Figure 6.

In an overlocking position of the circuit breaker, the status is the same as that of the 5-opening position, the descriptions will not be repeated.

In a closed position of the circuit breaker, the connecting members rotate counterclockwise under the action of the elastic force of the contact springs. The force is transferred to the first connection member through the first axis, and drives the first connection member to rotate counterclockwise. The first connection member, the second connection member and the contact bridge 10 form a four-member connection mechanism, which makes it possible for the force to further drive the contact bridge so that it rotates counterclockwise. watch. Finally, the movable contacts of the contact bridges make contact with the static contacts, the rotary mobile contact module of double breakpoint maintains the state shown in Figure 7.

The rotating double breakpoint mobile contact module of the present invention is capable of carrying out the automatic interruption of high current short circuits of the rotating double breakpoint moving contacts, the moving contacts can be opened quickly and prevents the bouncing of the mobile contacts, and balances the contact pressure on the two contact points.

Claims (6)

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Five 1. - A rotary mobile contact module with double breakpoint, comprising: an independent single-phase rod-shaped rotor (101) having a first through hole (110) in the center thereof, a first cavity (111) and two split holes (113) semicircular in each axial side face thereof , and a second cavities (115) in radial direction, the two recessed holes (113) being semicircular symmetrical along the center of the bar-shaped rotor (10), and the split holes (113) being semicircular of different axial lateral faces aligned in axial direction, and surrounding each second cavity (115) a split hole (113) of semicircular shape; a first shaft (105) mounted in the first through hole (110); a contact spring (108) mounted in each of the first cavities (111), the contact spring (108) being able to move within a range defined by the first cavity (111); a first connection member (102) mounted on the bar-shaped monobloc rotor (101), the first connection member (102) being mounted inside the two grooved holes (113) in a semicircular manner, which are aligned in axial direction, the first connection member (102) being configured to slide through the interior of the second cavity (115) using the split hole (113) semi-circularly as a center of rotation, and the angle of rotation of the first connecting member (102) being limited by the length of the second cavity (115), the first connection member (102) having a second through hole (121), a short convex axis (120) on both sides of the first connection member (102) and a flat thickness, the short axis (120) corresponding to the hole split (113) semicircularly, the second through hole (121) corresponding to a second shaft (106), and the flat thickness not being greater than a depth of the second cavity (115), so that the second cavity (115) can effectively limit the range of motion of the first connection cavity (102); passing the second shaft (106) through the first connecting member (102) for securing the contact spring (108); a third axis (107); a second connecting member (103) having a third through hole (130) and a fourth through hole (131) at both ends of the second connecting member (103), the third through hole (130) corresponding to the second axis ( 106) and the fourth through hole (131) with the third shaft (107); passing the second axis (106) and the third axis (107) through the second connecting member (103), respectively; Y a contact bridge (104) that crosses through the bar-shaped monobloc rotor (101), having the outer profile of the contact bridge (104) central symmetry; the first axis (105) and the third axis (107) passing through the contact bridge (104), respectively, contacts being welded at the end points of both sides of the contact bridge (104). 2. - The rotating double breakpoint mobile contact module according to claim 1, wherein The monobloc rotor in the form of a bar (101) also has two coupling holes (112) on each axial side face thereof, the two coupling holes (112) are symmetrical along the center of the rotor in the form of a bar (101). ), in which there is a fixed angle between a line that joins the geometric centers of the two coupling holes (112) on the same axial side face and a line that joins the geometric centers of the two split holes (113) so semicircular on the same axial side face, in which the coupling holes (112) of different axial side faces are aligned in the axial direction; Y The bar-shaped monobloc rotor (101) has an irregular through hole (114) in radial direction, the width of the irregular through hole (114) makes it possible for the contact bridge (104) to cross through it. 3. - The rotating double breakpoint mobile contact module according to claim 2, wherein The irregular through hole (114) has two first curved faces (116) that have central symmetry, and the first curved faces (116) coincide with the outer profile of the contact bridge (104) for defining an initial pressure position and a maximum opening position of the contact bridge (104). 4. - The rotating double breakpoint mobile contact module according to claim 3, wherein 5 the outer profile of the contact bridge (104) has two curved second faces (142) that have simetna central, and the second curved faces (142) coincide with the first curved faces (116). 5. - The rotating double breakpoint mobile contact module according to claim 1, wherein the contact bridge (104) has two fifth through holes (140) having a central simetna, and the third shaft (107) is mounted inside the fifth holes; Y 10 the contact bridge (104) has a split hole (141) in the center, the first axis (105) passes through the cleft hole (141) and is capable of sliding inside the cleft hole (141) along the longitudinal direction, and the longitudinal direction of the cleft hole (141) is arranged according to a fixed angle with respect to a welding surface of the welded contacts on the contact bridge (104). 6. The double rotating breakpoint mobile contact module according to claim 1, wherein 15 the contact spring (108) is held in two second shafts (106), which have central simetna, and is capable of moving inside the first cavity (111) of the bar-shaped monobloc rotor (101).