BR112014007148B1 - mobile contact connection structure for modular circuit breaker - Google Patents

Abstract

MOBILE CONTACT CONNECTION STRUCTURE FOR MODULAR BREAKER. The present invention relates to the modular breaker mobile contact connection structure comprising: a first housing (101), a second housing (102), the first housing (101) and the second housing (102) having, respectively first mounting hole (110) and second mounting hole (120), the first mounting hole (110) and the second mounting hole (120) corresponding to each other in position; a first rod (103); an operating mechanism side plate (104) having a third through hole (140); an operating mechanism lower connecting rod (105) having a fourth through hole; a contact rotor (106); a first connecting member (107) that connects to the mating surface on a first side of the contact rotor (106); a second connecting member (108) that connects to the mating surface on a second side of the contact rotor (106); the contact rotor (106), the first connecting member (107) and the second connecting member (108) being mounted on the first mounting hole (110) and the second mounting hole (120).

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention

[001] The present invention relates to a circuit breaker contact module and, more particularly, it relates to a mobile contact connection structure in the operating mechanism of a modular circuit breaker.

2. Related Technique

[002] The modularization of contacts is a trend for the development of molded case circuit breakers. As an important component of the molded case circuit breaker, the contact module has attracted great attention. Modern molded case circuit breakers with high breaking capacity generally use modularized contacts. The structural styles of modularized contacts are many. For the purpose of maintaining synchronization when switching contacts in separate phrases, various types of rotational mobile contact connection structures are provided in domestic and foreign products. The rotational mobile contact link structures can guarantee the synchronization of movement of the separate phase contacts and the contact balance in the bilateral contacts within a rotating double breakpoint mobile contact in a particular single phase. A typical connection structure is a metal rod member installed additionally and independently in a contact module. Such a structure has a risk of interphase short-circuit. The fitting of multiple locations of the structure can also deteriorate the contact situation of the mobile contact, such as the unbalanced contact pressure in the bilateral contacts of a rotating double breakpoint mobile contact.

SUMMARY

[003] The present invention discloses a mobile contact connection structure for the modular circuit breaker. The present invention guarantees a reliable connection of the moving contact and uniform contact pressure in the separate contacts within the modularized contacts.

[004] In accordance with the present invention, a mobile contact connection structure for the modular circuit breaker is disclosed. The mobile contact connection structure for the modular circuit breaker comprises: a first housing and a second housing, a first rod, an operating mechanism side plate, an operating mechanism lower connecting rod, a contact rotor, a first liaison member and a second liaison member. The first housing has a first mounting hole and the second housing has a second mounting hole, the position of the first mounting hole and the position of the second mounting hole correspond to each other. The operating mechanism side plate has a third through hole, the third through hole being positioned at a center of rotation of a contact rotor. The lower connecting rod of the operating mechanism has a fourth through hole, the first rod connecting to the fourth through hole; The contact rotor is rotatable around a center of rotation, the contact rotor having interlocking surfaces on both sides. The first connecting member connects to the mating surface on a first side of the contact rotor. The second connecting member connects to the mating surface on a second side of the contact rotor. The contact rotor, the first connecting member and the second connecting member are mounted on the first mounting hole and the second mounting hole.

[005] According to one modality, the contact rotor has first recess holes. The first recess holes are positioned on the mating surfaces on both sides of the contact rotor. The first recess holes in the mating surface on the same side are symmetrical along the center of rotation of the contact rotor.

[006] According to one embodiment, the first link member has a first link matching surface and a second link matching surface. The first link matching surface has a first convex axis in a position that corresponds to the center of rotation of the contact rotor. The first axis connects to the third through hole. The axial length of the first shaft ensures that the first shaft can at least pass through the third through hole and extend into a first non-through hole in the second connecting member. The first connection matching surface has a second non-through hole. The second non-through hole is parallel to the geometric axis of rotation of the contact rotor, the first rod connects to the second non-through hole. The second connection matching surface has second protrusions. The second projections engage the first recess holes in the contact rotor.

[007] According to one embodiment, the second link member has a third link correspondence surface and a fourth link correspondence surface. The third connection matching surface has the first non-through hole in a position that corresponds to the center of rotation of the contact rotor, the first non-through hole connecting to the first axis of the first connecting member. The third connection matching surface has a third non-through hole, the third non-through hole being parallel to the geometric axis of rotation of the contact rotor, the first rod connecting to the third non-through hole. The third connection matching surface has second recess holes. The fourth connection matching surface has third projections, the third projections engaging the first recess holes in the contact rotor.

[008] According to one embodiment, the first connecting member has a first arc surface on the outer circumference. The first arc surface rotates in collaboration with the first housing and the second housing. The second connecting member has a second arc surface on the outer circumference. The second arc surface rotates in collaboration with the first housing and the second housing.

[009] According to one embodiment, the first connecting member has first projections on the first connecting correspondence surface. The first projections engage the second recess holes in the third connecting correspondence surface of the second connecting member.

[0010] According to one embodiment, the first housing has a fourth protrusion within the first mounting hole close to the external surface. The fourth ledge has a full circle shape. The fourth protrusion limits the projection position of the first connecting member or the second connecting member projecting from the outer surface of the first housing. The first mounting hole rotates in collaboration with the first arc surface of the first connecting member or the second arc surface of the second connecting member. The first mounting hole does not block the connection between the first protrusion of the first connecting member and the second recess hole of the second connecting member, nor the connection between the first rod and the first connecting member or the second connecting member.

[0011] According to one embodiment, the second housing has a fifth protrusion within the second mounting hole close to the external surface. The fifth ledge has a full circle shape. The fifth protrusion limits the projection position of the first connecting member or the second connecting member projecting from the outer surface of the second housing. The second mounting hole rotates in collaboration with the first arc surface of the first connecting member or the second arc surface of the second connecting member. The second mounting hole does not block the connection between the first protrusion of the first connecting member and the second recess hole of the second connecting member, nor the connection between the first rod and the first connecting member or the second connecting member.

[0012] According to one embodiment, the second projections on the first connecting member and the third projections on the second connecting member connect to the first recess holes in the mating surfaces on both sides of the contact rotor, the geometric axis of the second non-through hole in the first connecting member and the geometric axis of the third non-through hole in the second connecting member aligns with each other. The first connecting member, the contact rotor and the second connecting member are arranged in the first mounting hole in the first housing and the second mounting hole in the second housing, the first housing and the second housing are installed to form a mounting module. single phase contact.

[0013] According to one embodiment, the third projections on the two second connecting members engage the first recess holes on the mating surfaces on both sides of the contact rotor. The geometric axes of the third non-through holes in the second two connecting members align with each other. The first connecting member, the contact rotor and the second connecting member are arranged in the first mounting hole in the first housing and the second mounting hole in the second housing. The first housing and the second housing are installed to form a single phase contact module.

[0014] The rotational mobile contact of the mobile contact connection structure of the modular circuit breaker according to the present invention has a different structure with traditional rotational mobile contacts. This structure removes the independent connection structures to the contact module and connects the contact modules by direct connection connection. The connection components are made of insulating materials in order to eliminate the risk of interphase short-circuit. The present invention also considers component fabricability, installation convenience and structural strength caused by the complexity of the connection structure of rotational moving contacts. The mobile contact connection structure of the modular circuit breaker of the present invention supports mass production and has a high reliability.

BRIEF DESCRIPTION OF THE DRAWINGS

[0015] The foregoing and other features, natures and advantages of the invention will be apparent from the following description of the modalities that incorporate the drawings, in which:

[0016] Figures 1a, 1b and 1c illustrate schematic views of a general assembly structure of the mobile contact connection structure for the modular circuit breaker according to an embodiment of the present invention.

[0017] Figures 2a, 2b and 2c illustrate schematic views of a single phase contact module within the mobile contact connection structure of the modular circuit breaker according to an embodiment of the present invention.

[0018] Figures 3a, 3b and 3c illustrate schematic views of the coupling for the connecting members within the mobile contact connection structure of the modular circuit breaker according to an embodiment of the present invention.

[0019] Figure 4 illustrates a schematic view of a contact rotor within the mobile contact connection structure of the modular circuit breaker according to an embodiment of the present invention.

[0020] Figures 5a, 5b, 5c and 5d illustrate schematic views of a first connection member within the mobile contact connection structure of the modular circuit breaker according to an embodiment of the present invention.

[0021] Figures 6a, 6b, 6c and 6d illustrate schematic views of a second connection member within the mobile contact connection structure of the modular circuit breaker according to an embodiment of the present invention.

[0022] Figures 7a, 7b and 7c illustrate schematic views of the first housing and the second housing within the mobile contact connection structure of the modular circuit breaker according to an embodiment of the present invention.

[0023] Figures 8a and 8b illustrate schematic views of an operating mechanism side plate and an operating mechanism lower connecting rod within the mobile contact connection structure of the modular circuit breaker according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE MODALITIES

[0024] The present invention provides a mobile contact connection structure for the modular circuit breaker. As shown in Figure 1 ~ Figure 8, a modality of the modular contact breaker mobile connection structure is illustrated. The mobile contact connection structure of the modular circuit breaker comprises: a first housing 101 and a second housing 102, a first rod 103, an operating mechanism side plate 104, an operating mechanism lower connecting rod 105, an operating rotor contact 106, a first liaison member 107 and a second liaison member 108.

[0025] The first housing 101 has a first mounting hole 110 and the second housing 102 has a second mounting hole 120. The position of the first mounting hole 110 and the position of the second mounting hole 120 correspond to each other. The operating mechanism side plate 104 has a third through hole 140. The third through hole 140 is positioned at a center of rotation of a contact rotor 106. The lower connecting rod of operating mechanism 105 has a fourth through hole. The first rod 103 connects to the fourth through hole by inserting it into the fourth through hole. Contact rotor 106 is rotatable around a center of rotation. Contact rotor 106 has mating surfaces on both sides. The first connecting member 107 connects to the conjugated surface on a first side of the contact rotor 106. The second connecting member 108 connects to the conjugated surface on a second side of the contact rotor 106. The contact rotor 106, the first connecting member 107 and the second connecting member 108 are mounted on the first mounting hole 110 and the second mounting hole 120.

[0026] As shown in Figure 4, contact rotor 106 is rotatable around a center of rotation. Contact rotor 106 has mating surfaces on both sides. The contact rotor 106 has first recess holes 160. The first recess holes 160 are positioned on the mating surfaces on both sides of the contact rotor 106. The first recess holes 160 on the mating surface on the same side are symmetrical along of the center of rotation of the contact rotor 106. According to the embodiment shown in Figure 4, on the mating surface on the same side of the contact rotor 106, there are at least two first recess holes 160 arranged on each side of the center of rotation. The recess orifice is used in the contact rotor 106 according to the modality shown in Figure 4. It should be noted that other shapes, such as a protrusion, can be used as well. If the projections are used on the contact rotor 106, the projections now used on the first connecting member 107 and the second connecting member 108 must be replaced with recessed grooves correspondingly, so that the contact rotor 106 can still engage with the first connecting member 107 and the second connecting member 108. Returning to the embodiment illustrated by the drawings, there are two first recess holes 160 in the conjugated surface on the same side. The first two recess holes 160 are arranged to be symmetrical along the center of rotation if there is sufficient space. The depth of the recess hole 160 is at least 1.5 mm, in order to guarantee a contact surface sufficient to withstand the pressure.

[0027] As shown in Figures 5a, 5b, 5c and 5d, the first link member 107 has a first link matching surface and a second link matching surface. The first link matching surface has a first convex axis 170 in a position that corresponds to the center of rotation of the contact rotor 106. The first axis 170 connects to the third through hole 140 in the operating mechanism side plate 104, the connection is made by insertion. The axial length of the first shaft 170 ensures that the first shaft 170 passes at least through the third through hole 140 in the operating mechanism side plate 104 and extends to a first non-through hole 180 in the second connecting member 108. The first surface connection link of the first connecting member 107 also has a second non-through hole 171. The second non-through hole 171 is parallel to the geometric axis of rotation of the contact rotor. The first rod 103 connects to the second non-through hole 171 by insertion. The first connecting member 107 has at least two first projections 172 on the first connecting correspondence surface, the first projections 172 engaging with the second recess holes 182 disposed in the second connecting member 108. The first connecting member 107 has at least at least two second protrusions 173 on the second link correspondence surface. The second projections 173 engage the first recess holes 160 in the contact rotor 106. The first connecting member 107 has a first arc surface 174 in the outer circumference. The first arc surface 174 rotates in collaboration with the first housing 101 and the second housing 102.

[0028] As shown in Figures 6a, 6b, 6c and 6d, the second link member 108 has a third link correspondence surface and a fourth link correspondence surface. The third connecting correspondence surface of the second connecting member 108 has the first non-through hole 180 in a position that corresponds to the center of rotation of the contact rotor 106. The first non-through hole 180 connects to the first axis 170 of the first member connection point 107. The third connection matching surface of the second connection member 108 has a third non-through hole 181. The third non-through hole 181 is parallel to the axis of rotation of the contact rotor 106. The first stem 103 connects to the third non-through hole 181 by insertion. The third connecting correspondence surface of the second connecting member 108 has at least two second recess holes 182. The second recess holes 182 engage the first projections 172 on the first connection member 107. The fourth connection correspondence surface of the second connecting member 108 has at least two third projections 183, the third projections 183 engaging the first recess holes 160 in contact rotor 106. the second connecting member 108 has a second arc surface 184 at the outer circumference. The second arc surface 184 rotates in collaboration with the first housing 101 and the second housing 102.

[0029] As shown in Figures 7a, 7b and 7c, the first housing 101 and the second housing 102 are the housing of the contact module. The first housing 101 has a first mounting hole 110 on a flat surface in the middle. The first mounting hole 110 accommodates contact rotor 106, the first connecting member 107 and the second connecting member 108. A fourth protrusion 111 is disposed within the first mounting hole 110 in a position close to the outer surface of the first housing 101. The fourth projection 111 has a full circle shape. The first connection 107 or the second connection member 108 can fit into the first mounting hole 110 from the inner surface of the first housing 101, but the first connection member 107 or the second connection member 108 will not project completely out of the outer surface of the first housing 101 because of the obstruction of the fourth protrusion 111. The projection positions of the first connecting member 107 or the second connecting member 108 outside the outer surface of the first housing 101 are limited to their connecting matching surfaces. The fourth protrusion 111 limits the projection position of the first connecting member 107 or the second connecting member 108 projecting from the outer surface of the first housing. The first mounting hole 110 cooperates for rotation with the first arc surface 174 of the first connecting member 107 or with the second arc surface 184 of the second connecting member 108. The first mounting hole 110 does not block the connection between the first protrusion 172 of the first connection member 107 and the second recess hole 182 of the second connection member 108. The first mounting hole 110 does not block the connection between the first rod 103 and the first connection member 107 or the connection between the first rod 103 and second connecting member 108.

[0030] Still referring to Figures 7a, 7b and 7c, the second housing 102 has a second mounting hole 120 on a flat surface in the middle, the second mounting hole 120 also accommodates contact rotor 106, the first connecting member 107 and second connecting member 108. A fifth projection 121 is disposed within the second mounting hole 120 in a position close to the outer surface of the second housing 102. The fifth projection 121 has a full circle shape. The first connection 107 or the second connection member 108 can engage the second mounting hole 120 from the inner surface of the second housing 102, but the first connection member 107 or the second connection member 108 will not project completely out of the outer surface of the second housing 102 because of the obstruction of the fifth protrusion 121. The projection positions of the first connecting member 107 or the second connecting member 108 outside the outer surface of the second housing 102 are limited to their connecting matching surfaces. The fifth projection 121 limits the projection position of the first connecting member 107 or the second connecting member 108 projecting from the outer surface of the second housing. The second mounting hole 120 rotates in collaboration with the first arc surface 174 of the first connecting member 107 or with the second arc surface 184 of the second connecting member 108. The second mounting hole 120 does not block the connection between the first protrusion 172 of the first connecting member 107 and the second recess hole 182 of the second connecting member 108. The second mounting hole 110 does not block the connection between the first rod 103 and the first connecting member 107 or the connection between the first rod 103 and the second connecting member 108.

[0031] As shown in Figures 8a and 8b, the operating mechanism side plate 104 has a third through hole 140 on a flat surface. The third through hole 140 is positioned at a center of rotation of a contact rotor 106. The third through hole 140 connects to the first axis 170 of the first connecting member 107 by insertion. The lower connecting rod of operating mechanism 105 has a fourth through hole in a flat surface. The first rod 103 connects to the fourth through hole by insertion.

[0032] Figures 1a, 1b and 1c illustrate schematic views of a general structure of the mobile contact connection structure of the modular circuit breaker according to an embodiment of the present invention. Figures 2a, 2b and 2c illustrate schematic views of a single phase contact module within the mobile contact connection structure of the modular circuit breaker according to an embodiment of the present invention. Figures 3a, 3b and 3c illustrate schematic views of the connection of the connection members within the mobile contact connection structure of the modular circuit breaker according to an embodiment of the present invention. Figures 1 ~ 3 illustrate a single phase contact module 100.

[0033] During the coupling procedure: 1) The second projections 173 on the first connection member 107 and the third projections 183 on the second connection member 108 are inserted and installed in the recess holes 160 on the mating surfaces on both sides of the rotor contact 106. The geometric axis of the second non-through hole 171 in the first connection member 107 and the geometric axis of the third non-through hole 181 in the second connection member 108 align with each other. The first connecting member 107, the contact rotor 106 and the second connecting member 108 are arranged in the first mounting hole 110 in the first housing 101 and in the second mounting hole 120 in the second housing 102. The first housing 101 and the second housing 102 are installed to form a first single phase contact module. 2) Change the set position of the first link member 107 and the second link member 108, that is, change the set position of the first link member 107 and the second link member 108 to connect to contact rotor 106 , to form a second single-phase contact module. The second single-phase contact module and the first single-phase contact module are symmetrical with respect to the structure. 3) The third projections 183 on the two second connecting members 108 are inserted and installed in the recess holes 160 on the mating surfaces on both sides of the contact rotor 106. The geometric axis of the two third non-through holes 181 in the second two members of connection 108 align with each other. The contact rotor 106 and the two second connecting members 108 are arranged in the first mounting hole 110 in the first housing 101 and in the second mounting hole 120 in the second housing 102. The first housing 101 and the second housing 102 are installed to form a third single-phase contact module.

[0034] The mobile contact connection structure of the modular circuit breaker according to the present invention can guarantee the reliable connection of the mobile contact and maintain the consistency of the contact pressure of different contacts. According to the modalities of the present invention, the mobile contact connection can be carried out by installing the above three types of single phase contact modules, in turn, no additional independent connection elements are necessary.

[0035] The rotational mobile contact of the mobile contact connection structure of the modular circuit breaker according to the present invention has a different structure with traditional rotational mobile contacts. This structure removes the independent connection structures to the contact module and connects the contact modules by direct connection connection. The connection components are made of insulating materials in order to eliminate the risk of interphase short-circuit. The present invention also considers component fabricability, installation convenience and structural strength caused by the complexity of the connection structure of rotational moving contacts. The mobile contact connection structure of the modular circuit breaker of the present invention supports mass production and has a high reliability.

[0036] The above modalities are provided for those skilled in the art to make or use the invention, on the condition that various modifications or changes being made by those skilled in the art without departing from the spirit and principle of the invention, the above modalities can be modified and altered in a variety of ways, therefore, the scope of protection of the invention is not limited by the above modalities, instead it must conform to the maximum scope of the innovative features mentioned in the Claims.

Claims (10)

1. Mobile contact connection structure for modular circuit breaker, characterized by the fact that it comprises: a first housing (101) and a second housing (102), the first housing (101) having a first mounting hole (110) and the second housing (102) has a second mounting hole (120), the position of the first mounting hole (110) and the position of the second mounting hole (120) correspond to each other; a first rod (103); an operating mechanism side plate (104), the operating mechanism side plate (104) having a third through hole (140), the third through hole (140) being positioned in a center of rotation of one contact rotor (106); an operating mechanism lower connecting rod (105), the lower operating mechanism connecting rod (105) having a fourth through hole, the first rod (103) connecting to the fourth through hole; a contact rotor (106), the contact rotor (106) being rotatable around a center of rotation, the contact rotor having interlocking surfaces on both sides; a first connecting member (107), the first connecting member (107) connecting to the mating surface on a first side of the contact rotor (106), the first connecting member (107) having a first axis convex (170) in a position corresponding to the center of rotation of the contact rotor (106), the first convex axis (170) connects to the third through hole (140); a second connecting member (108), the second connecting member (108) connecting to the conjugated surface on a second side of the contact rotor (106); wherein the first connecting member (107), the contact rotor (106) and the second connecting member (108) are mounted in the first mounting hole (110) in the first housing (101) and the second mounting hole ( 120) in the second housing (102), the first housing (101) and the second housing (102) are assembled to form a single phase contact module (100); the contact rotor (106) and two second connecting members (108) are arranged in the first mounting hole (110) in the first housing (101) and the second mounting hole (120) in the second housing (102), the first housing (101) and the second housing (102) are assembled to form another single phase contact module (100); and the single-phase contact modules (100) are adapted to be connected by direct connection without any connection structure independent of the contact modules (100). 2. Mobile contact connection structure for modular circuit breaker, according to claim 1, characterized by the fact that the contact rotor has first recess holes, with the first recess holes being positioned on the mating surfaces on both sides of the contact rotor, with the first recess holes in the mating surface on the same side being symmetrical along the center of rotation of the contact rotor. 3. Mobile contact connection structure for modular circuit breaker according to claim 2, characterized in that the first connection member has a first connection matching surface and a second connection matching surface; the first convex axis is on the first connection matching surface in a position that corresponds to the center of rotation of the contact rotor, the axial length of the first axis ensures that the first axis passes at least through the third through hole and extends to a first non-through hole in the second connecting member; the first connection matching surface has a second non-through hole, the second non-through hole is parallel to the axis of rotation of the contact rotor, the first rod connects to the second non-through hole; the second connection matching surface has second projections, the second projections engaging with the first recess holes in the contact rotor. 4. Mobile contact connection structure for modular circuit breaker according to claim 3, characterized in that the second connection member has a third connection correspondence surface and a fourth connection correspondence surface; the third connection matching surface has a first non-through hole in a position that corresponds to the center of rotation of the contact rotor, the first non-through hole connects to the first axis of the first connection member; the third connection matching surface has a third non-through hole, the third non-through hole is parallel to the axis of rotation of the contact rotor, the first rod connects to the third non-through hole; the third connection matching surface has second recess holes; the fourth connection matching surface has third projections, the third projections engaging the first recess holes in the contact rotor. 5. Mobile contact connection structure for modular circuit breaker, according to claim 4, characterized by the fact that the first connection member has a first arc surface on the outer circumference, when the contact rotor rotates, the first surface arc collaborates with the first wrapper and the second wrapper; the second connecting member has a second arc surface on the outer circumference, when the contact rotor rotates, the second arc surface collaborates with the first housing and the second housing. 6. Mobile contact connection structure for modular circuit breaker, according to claim 5, characterized in that the first connection member has first projections on the first connection correspondence surface, the second connection member has second connection holes recess in the third connection correspondence surface, the first projections engage the second recess holes. 7. Mobile contact connection structure for modular circuit breaker, according to claim 6, characterized by the fact that the first housing has a fourth protrusion within the first mounting hole adjacent to the external surface, the fourth protrusion has a shape of full circle, the fourth protrusion limits the projection position of the first connecting member or the second connecting member projecting from the outer surface of the first shell; when the contact rotor rotates, the first mounting hole collaborates with the first arc surface of the first connecting member or with the second arc surface of the second connecting member; the first mounting hole does not block the connection between the first protrusion of the first connecting member and the second recess hole of the second connecting member, nor the connection between the first rod and the first connecting member or the second connecting member. 8. Mobile contact connection structure for modular circuit breaker, according to claim 6, characterized by the fact that, the second housing has a fifth protrusion within the second mounting hole adjacent to the external surface, the fifth protrusion has a shape of full circle, the fifth protrusion limits the projection position of the first connecting member or the second connecting member projecting from the outer surface of the second shell; when the contact rotor rotates, the second mounting hole collaborates with the first arc surface of the first connecting member or with the second arc surface of the second connecting member; the second mounting hole does not block the connection between the first protrusion of the first connecting member and the second recess hole of the second connecting member, nor the connection between the first rod and the first connecting member or the second connecting member. 9. Mobile contact connection structure for modular circuit breaker, according to claim 7 or 8, characterized in that the second projections on the first connection member and the third projections on the second connection member connect to the first connection holes recess in the mating surfaces on both sides of the contact rotor, the axis of the second non-through hole in the first connection member and the axis of the third non-through hole in the second connection member align with each other; the first connecting member, the contact rotor and the second connecting member are arranged in the first mounting hole in the first housing and the second mounting hole in the second housing, the first housing and the second housing are assembled to form a mounting module. single phase contact. 10. Mobile contact connection structure for modular circuit breaker, according to claim 7 or 8, characterized by the fact that the third projections on the two second connection members engage respectively the first recess holes on the mating surfaces on both sides the contact rotor; the axes of the two third non-through holes in the second two connecting members align with each other; the contact rotor and the two second connecting members are arranged in the first mounting hole in the first housing and the second mounting hole in the second housing, the first housing and the second housing are assembled to form a single phase contact module.

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