CN211980522U - Relay with a movable contact - Google Patents

Abstract

The utility model discloses a relay, it includes a base, a linkage, a movable spring subassembly, at least a static spring subassembly and a shell, the base has a base portion and an extension portion, wherein the base portion has an upper side, wherein the upper side of the base portion is equipped with a mounting groove and at least an inserting groove at a predetermined distance from the extension portion, the extension portion extends upwards from the upper side of the base portion integrally, wherein the lateral wall of the extension portion extends to the edge of the inserting groove integrally, and a guide platform is arranged on the lateral wall of the extension portion, wherein the guide platform extends from the lateral wall of the extension portion to the edge of the inserting groove of the base portion, the static spring subassembly includes a static spring piece and at least a static contact post, wherein the static contact post is arranged on the static spring piece, wherein the stationary spring plate can be inserted into the insertion groove along the guide slope, wherein the base is mounted to the housing.

Description

Relay with a movable contact

Technical Field

The utility model relates to a relay especially relates to a relay convenient to equipment.

Background

Relays, which are electronic control devices, are widely used in automatic control circuits. In essence, a relay is an "automatic switch" that uses a smaller current to control a larger current. Therefore, the circuit plays the roles of automatic regulation, safety protection, circuit conversion and the like.

A conventional relay includes a housing, a base, a movable spring assembly, a stationary spring assembly, and a linkage, wherein the movable spring assembly, the stationary spring assembly, and the linkage are respectively mounted to the base. The base is covered on the shell. The movable spring assembly and the linkage are both sealingly disposed within the housing. The movable spring assembly comprises a movable spring plate and a movable contact bulge, wherein the movable contact bulge is installed on the movable spring plate, and the movable spring plate is connected to the linkage device in a linkage mode. The static spring assembly comprises at least one static spring piece and at least one static contact bulge, wherein the static contact bulge is arranged on the static spring piece and is opposite to the movable contact bulge. When the movable spring plate is linked with the linkage device, the movable contact bulge on the movable spring plate and the static contact bulge on the static spring plate can be switched between a contact state/separation state and a separation state/contact state.

During the process of assembling the relay, especially during the process of assembling the static reed, a part of the static reed is usually inserted into a mounting groove preset in the base. In order to prevent the static spring plate from shaking, the width and length of the mounting groove which is preset on the base and used for mounting the static spring plate are slightly larger than the thickness and width of the static spring plate. Since it is difficult to align the stationary spring plate with the mounting groove when the stationary spring plate is mounted to the mounting groove, the mounting of the stationary spring plate is time-consuming.

SUMMERY OF THE UTILITY MODEL

Another object of the present invention is to provide a relay, wherein the relay is provided to facilitate assembly.

Another object of the present invention is to provide a relay, wherein the relay includes a movable contact spring, wherein the movable contact spring is provided with a reinforcing rib, wherein the reinforcing rib can strengthen the strength of the movable contact spring, so as to prevent the movable contact spring deforms in the linkage process.

Another object of the present invention is to provide a relay, wherein the relay includes a base and a stationary reed, wherein the base includes a base portion and an extension portion, wherein the extension portion extends upward from the middle portion of the base portion integrally, wherein the base portion is provided with an insertion groove at a distance from the predetermined distance of the extension portion, wherein one end of the stationary reed is inserted into the insertion groove, wherein the side wall of the extension portion forms a guide platform, wherein the guide platform extends from the side wall of the extension portion to the edge of the insertion groove of the base portion, so that one side of the guide platform forms a guide slope, wherein the stationary reed is assembled to the insertion groove, the stationary reed is guided to the insertion groove along the guide slope, so as to install the stationary reed.

An object of the utility model is to provide a relay, wherein the relay includes:

a base, wherein the base has a base portion and an extension portion, wherein the base portion has an upper side and a lower side, wherein the upper side of the base portion is provided with a mounting groove and at least one insertion groove at a predetermined distance from the extension portion, the extension portion integrally extends upward from the upper side of the base portion, wherein a side wall of the extension portion integrally extends to an edge of the insertion groove, and a guide table is provided at the side wall of the extension portion, wherein the guide table extends from the side wall of the extension portion to the edge of the insertion groove of the base portion, and a guide slope is formed at one side of the guide table;

a linkage, wherein the linkage is disposed at the base;

the movable spring assembly comprises a movable spring plate and at least one movable contact column, wherein the movable contact column is arranged on the movable spring plate, one end of the movable spring plate is inserted into the mounting groove, and the other end of the movable spring plate is connected to the linkage device in a linkage manner;

the static spring assembly comprises a static spring and at least one static spring contact column, wherein the static spring is provided with the static contact column, one end of the static spring is inserted into the insertion groove, and the static contact column arranged on the static spring is arranged corresponding to the movable contact column; and

a housing, wherein the housing has a mounting cavity and an opening, wherein the opening is configured to communicate with the mounting cavity, wherein the base is mounted to the opening of the housing.

According to an embodiment of the present invention, the relay includes a first stationary spring, a second stationary spring, a first stationary contact post and a second stationary contact post, wherein the first stationary contact post is disposed on the first stationary spring plate, the second stationary contact post is disposed on the second stationary spring plate, the base part of the base forms a first inserting groove and a second inserting groove which are respectively arranged at two sides of the mounting groove of the base part, when the first static spring plate and the second static spring plate are respectively inserted into the first insertion groove and the second insertion groove, the first static spring plate and the second static spring plate are kept on two sides of the movable spring plate, when the movable contact spring is linked with the linkage device, the movable contact column can be switched between a state of being electrically communicated with the first fixed contact column and a state of being electrically communicated with the second fixed contact column respectively.

According to the utility model discloses an embodiment, the inserting groove notch department is equipped with a chamfer.

According to the utility model discloses an embodiment, aggregate unit includes a coil pack and a gangbar, gangbar one end forms and takes the end, the upper end of movable spring is installed in the gangbar take the end, so that movable spring's quilt can connect in linkage in aggregate unit, coil pack includes a coil component, a yoke, an armature and a shell fragment, the yoke be coupled in coil pack, armature with yoke can set up with actuation in the base, wherein the shell fragment is in order to make armature with the yoke tends to the mode of separating each other set up in the yoke with between the armature, armature forms one set of groove, the other end of gangbar forms a linkage end, linkage end be pegged graft in armature the cover groove.

According to an embodiment of the present invention, the linkage end extends to the top surface of the linkage rod to form an inclined surface.

According to the utility model discloses an embodiment, the linkage end to the bottom surface extension of gangbar forms an inclined plane.

According to the utility model discloses an embodiment, movable spring subassembly movable spring is equipped with an at least stiffening rib.

Further objects and advantages of the invention will be fully apparent from the ensuing description and drawings.

These and other objects, features and advantages of the present invention will become more fully apparent from the following detailed description, the accompanying drawings and the appended claims.

Drawings

Fig. 1 shows a perspective view of a relay according to the present invention.

Fig. 2 shows an exploded schematic view of the relay according to the present invention.

Fig. 3 is a schematic diagram showing a state before a stationary spring of the relay of the present invention is inserted into a slot.

Fig. 4 shows a schematic diagram of the relay according to the present invention in a state after the stationary spring is inserted into the insertion groove.

Fig. 5 shows a perspective view of a linkage rod of the relay according to the present invention.

Detailed Description

The following description is presented to disclose the invention so as to enable any person skilled in the art to practice the invention. The preferred embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art. The basic principles of the invention, as defined in the following description, may be applied to other embodiments, variations, modifications, equivalents and other technical solutions without departing from the spirit and scope of the invention.

It will be understood by those skilled in the art that in the present disclosure, the terms "longitudinal," "lateral," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in a generic and descriptive sense only and not for purposes of limitation, as the terms are used in the description to indicate that the referenced device or element must have the specified orientation, be constructed and operated in the specified orientation, and not for the purpose of limitation.

It is understood that the terms "a" and "an" should be interpreted as meaning that a number of one element or element is one in one embodiment, while a number of other elements is one in another embodiment, and the terms "a" and "an" should not be interpreted as limiting the number.

Referring to fig. 1 to 5, a relay 100 according to a preferred embodiment of the present invention will be described in detail below, wherein the relay can perform functions of automatic adjustment, safety protection, switching circuit, etc. in the circuit.

The relay 100 includes a base 10, a linkage 20, a movable spring assembly 30, a stationary spring assembly 40, and a housing 50.

The housing 50 defines a mounting cavity 501 and a mounting opening 502 communicating with the mounting cavity 501. The linkage 20, the movable spring assembly 30, and the stationary spring assembly 40 are mounted to the base 10. The base 10 is sealingly mounted to the mounting opening 502 such that the linkage 20, the movable spring assembly 30, and the stationary spring assembly 40 are sealingly mounted to the mounting cavity 501.

Specifically, the base 10 has a base portion 11. The base portion 11 has an upper side 1101 and a lower side 1102. The linkage 20, the movable spring assembly 30, and the stationary spring assembly 40 are attached to the upper surface 1101 of the base portion 11.

The movable spring assembly 30 includes a movable spring plate 31 and at least one movable contact post 32, wherein the movable contact post 32 is mounted to the movable spring plate 31. Preferably, the movable contact post 32 is riveted to the movable spring 31 and penetrates through the movable spring 31 to form a movable contact on both sides of the movable spring 31.

The upper side 1101 of the base part 11 is provided with a mounting groove 1103. The movable spring 31 is inserted into the mounting groove 1103. A through hole 1104 is further formed in the mounting groove 1103, and a movable spring pin 311 is formed at the lower end of the movable spring 31, wherein after the movable spring 31 is mounted in the mounting groove 1103, the movable spring pin 311 passes through the through hole 1104 and extends to the lower side 1102 of the base portion 11.

The linkage 20 includes a coil assembly 21 and a linkage rod 22. One end of the linkage rod 22 forms a driving end 2201. The upper end of the movable spring plate 31 is mounted on the driving end 2201 of the linkage rod 22.

The static spring assembly 40 includes at least one static spring 41 and at least one static contact post 42. The upper side 1101 of the base part 11 is further provided with a slot 1105. The stationary spring 41 is inserted into the insertion groove 1105 so as to oppose the movable spring 31. The insertion groove 1105 is further provided with a insertion hole 1106. The lower end of the stationary spring 41 forms a stationary spring pin 411, wherein when the stationary spring 41 is inserted into the insertion groove 1105, the stationary spring pin 411 is inserted into the insertion hole 1106 and extends to the lower side 1102 of the base portion 11. The fixed contact post 42 is provided to the fixed spring piece 41 so as to oppose the movable contact post 32.

The base 10 has an extension portion 12, wherein the extension portion 12 integrally extends upward from the upper side 1101 of the base portion 11, and the mounting groove 1103 and the insertion groove 1105 are respectively provided at the base portion 11 at a predetermined distance from the extension portion 12. A guide table 121 is provided on a side wall of the extension part 12, wherein the guide table 121 extends from the side wall of the extension part 12 to an edge of the insertion groove 1105 of the base part 11 to form a guide inclined surface 12101 on one side of the guide table 121, and when the stationary spring plate 41 is fitted to the insertion groove 1105, the stationary spring plate 41 is guided along the guide inclined surface 12101 to the insertion groove 1105, thereby facilitating the installation of the stationary spring plate 41.

In an embodiment of the present invention, the insertion groove 1105 has a notch 11050, wherein the notch 11050 of the insertion groove 1105 is provided with a chamfer 1107. When the stationary spring 41 is fitted to the insertion groove 1105, the stationary spring 41 is guided along the guide slope 12101 to the insertion groove 1105 and then slid into the insertion groove 1105 along the chamfer 1107 of the notch 11050.

It is worth mentioning that, in the present invention, the stationary spring assembly 40 includes two stationary spring pieces 41 and two stationary contact posts 42. Each of the stationary spring pieces 41 is provided with one of the stationary contact posts 42.

Specifically, in the present invention, the static spring assembly 40 includes a first static spring 41a, a second static spring 41b, a first static contact column 42a and a second static contact column 42 b. The first stationary contact post 42a is provided on the first stationary spring 41a, and the second stationary contact post 42b is provided on the second stationary spring 41 a.

The base portion 11 of the base 10 defines a first mating groove 1105a and a second mating groove 1105 b. The first mating groove 1105a and the second mating groove 1105b are respectively disposed on both sides of the mounting groove 1103 of the base portion 11. When the first stationary spring 41a and the second stationary spring 41b are respectively inserted into the first insertion groove 1105a and the second insertion groove 1105b, the first stationary spring 41a and the second stationary spring 41b are held on both sides of the movable spring 31. When the movable spring 31 is linked with the linkage 20, the movable contact post 32 can be switched between a state of being electrically connected to the first fixed contact post 42a and a state of being electrically connected to the second fixed contact post 42b, respectively.

In an embodiment of the present invention, the guiding table 121 disposed on the extending portion 12 of the base 10 extends from the side wall of the extending portion 12 to the edge of the first inserting groove 1105a of the base portion 11.

In another embodiment of the present invention, the base 10 further forms a side extension, wherein the side extension integrally extends upward from the upper side 1101 of the base portion 11 of the base 10. And a guide table is also provided on the side extension, and the guide table is provided extending from the side wall of the extension 12 to the edge of the first mating groove 1105a of the base portion 11.

That is, in order to facilitate the assembly of the stationary spring 41, one guide stage may be provided in each of the first mating groove 1105a and the second mating groove 1105b in which the first stationary spring 41a and the second stationary spring 41b are mounted.

In the present invention, the movable spring plate 31 of the movable spring assembly 30 is provided with at least one reinforcing rib 312. It will be appreciated that in order to facilitate the movable spring plate 31 of the movable spring assembly 30 to be pushed by the linkage rod 22, the movable spring plate 31 is typically quite thin. And it is because the movable spring 31 is thin, so that the movable spring 31 is easily deformed. Therefore, the reinforcing rib 312 provided on the movable spring 31 can prevent the movable spring 31 from deforming without interfering with the linkage between the movable spring 31 of the movable spring assembly 30 and the linkage rod 22.

It will be appreciated by those skilled in the art that the coil assembly 21 may be configured to include a coil member 211, a yoke 212, and an armature 213. The yoke 212 is coupled to the coil assembly 211. The armature 213 is provided to the base 10 so as to be engageable with the yoke 212. Preferably, the coil assembly 21 further includes a spring 214, wherein the spring 214 is disposed between the yoke 212 and the armature 213, so that the armature 213 and the yoke 212 tend to separate from each other.

The armature 213 forms a nesting groove 2131. The other end of the linkage rod 22 forms a linkage end 2202. The linkage end 2202 is inserted into the sleeve groove 2131 of the armature 213.

Preferably, the linking end 2202 extends towards the top surface and the bottom surface of the linking rod 22 to form an inclined surface respectively, so that the linking end 2202 of the linking rod 22 can be inserted into the sleeve groove 2131. In other words, providing the top and bottom surfaces of the linkage end 2202 with an inclined surface, respectively, can facilitate the assembly between the linkage rod 22 and the armature 213.

It will be appreciated by those skilled in the art that the coil member 211 may be configured to include a coil, core, or the like. The present invention is not limited in this respect.

It will also be appreciated by those skilled in the art that as the coil member 211 is subjected to a voltage differential, the yoke 212 will magnetically attract the armature 213. The armature 213 then moves closer to the yoke 212 against the spring force of the spring 214. The linkage end 2202 of the linkage rod 22 will then be pulled by the armature 213. Accordingly, the movable spring 31 mounted to the driving end 2201 of the linkage rod 22 will be located at the first stationary spring 41a on the side of the movable spring 31. When the coil member 211 has no voltage difference, the yoke 212 will be magnetically vanished. The armature 213 is reset by the spring 214. The linkage end 2202 of the linkage rod 22 will then be pushed by the armature 213. Accordingly, the movable spring plate 31 mounted to the driving end 2201 of the linkage rod 22 will be located at the second stationary spring plate 41b at the other side of the movable spring plate 31.

It will be understood by those skilled in the art that the embodiments of the present invention as described above and shown in the drawings are given by way of example only and are not limiting of the present invention. The objects of the present invention have been fully and effectively accomplished. The functional and structural principles of the present invention have been shown and described in the embodiments without departing from the principles, embodiments of the present invention may have any deformation or modification.

Claims (7)

1. A relay, wherein said relay comprises:

a base, wherein the base has a base portion and an extension portion, wherein the base portion has an upper side and a lower side, wherein the upper side of the base portion is provided with a mounting groove and at least one insertion groove at a predetermined distance from the extension portion, the extension portion integrally extends upward from the upper side of the base portion, wherein a side wall of the extension portion integrally extends to an edge of the insertion groove, and a guide table is provided at the side wall of the extension portion, wherein the guide table extends from the side wall of the extension portion to the edge of the insertion groove of the base portion, and a guide slope is formed at one side of the guide table;

a linkage, wherein the linkage is disposed at the base;

the movable spring assembly comprises a movable spring plate and at least one movable contact column, wherein the movable contact column is arranged on the movable spring plate, one end of the movable spring plate is inserted into the mounting groove, and the other end of the movable spring plate is connected to the linkage device in a linkage manner;

the static spring assembly comprises a static spring and at least one static spring contact column, wherein the static spring is provided with the static contact column, one end of the static spring is inserted into the insertion groove, and the static contact column arranged on the static spring is arranged corresponding to the movable contact column; and

a housing, wherein the housing has a mounting cavity and an opening, wherein the opening is configured to communicate with the mounting cavity, wherein the base is mounted to the opening of the housing.

2. The relay according to claim 1, wherein said relay comprises a first stationary spring, a second stationary spring, a first stationary contact post and a second stationary contact post, wherein said first stationary contact post is disposed on said first stationary spring, said second stationary contact post is disposed on said second stationary spring, said base portion of said base forms a first insertion groove and a second insertion groove, said first insertion groove and said second insertion groove are respectively disposed on both sides of said mounting groove of said base portion, said first stationary spring and said second stationary spring are respectively held on both sides of said movable spring when said first stationary spring and said second stationary spring are respectively inserted into said first insertion groove and said second insertion groove, and wherein said movable spring is linked with said linking means, said movable contact post is respectively capable of being electrically conducted with said first stationary contact post and said second stationary contact post And (5) performing inter-conversion.

3. The relay according to claim 1, wherein the notch of the insertion groove is chamfered.

4. The relay according to claim 1, wherein said linkage comprises a coil assembly and a linkage rod, one end of the linkage rod forms a driving end, the upper end of the movable reed is arranged at the driving end of the linkage rod, so that the movable spring is linked with the linkage device, the coil component comprises a coil component, a yoke, an armature and a spring plate, the yoke is coupled to the coil assembly, the armature is arranged on the base in an attraction manner with the yoke, wherein the spring is disposed between the yoke and the armature in a manner that enables the armature and the yoke to tend to separate from each other, the armature forms a sleeving groove, the other end of the linkage rod forms a linkage end, and the linkage end is inserted into the sleeving groove of the armature.

5. The relay according to claim 4, wherein said linkage end extends to a top surface of said linkage rod to form an inclined surface.

6. The relay according to claim 4, wherein said linkage end extends to a bottom surface of said linkage rod to form an inclined surface.

7. The relay according to claim 1, wherein said movable spring of said movable spring assembly is provided with at least one reinforcing rib.

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