KR970011801A - Damping element and manufacturing method thereof - Google Patents

Abstract

1. Technical field to which the invention described in the claims belongs

The present invention relates to an omnidirectional attenuating element and a manufacturing method thereof.

2. Technical Challenges to be Solved by the Invention

That is, the present invention is to provide a constitution that facilitates work from relative positioning of the upper insulator and the radial contact member to bending molding and fixing of the wing, and technical means of the manufacturing method.

3. The point of the solution of the invention

(3) having a conductive terminal pin (4) hermetically fixed in a state of being penetrated by an electrically insulating filler and a cylindrical conductive housing having a bottom face are formed in a hole drilled in the center of the conductive disk, The flexible wing portion 9A of the conductive upper contact member 9 is brought into contact with the inertial orifice 8 so as to be always kept in a conductive state from above, And the lower part is a substantially cup-shaped upper insulator 11 (51), 61 (61) for manufacturing a sensing element of normally-closed contact type in which the electrical connection with the conductive lower contact member The upper contact member 9 is supported by the support plates 10 and 62 on the cup bottom surfaces 61B and 71B so that the conductive terminal pins 4 are inserted through the center of the support pins 10 and 62, (72), and the support plates (10), (62), and (72) are sandwiched therebetween, The supporting portion 10, 62 and 72 are formed into a cylindrical terminal shape or a umbrella-like offset shape having a predetermined flat inclination of the head portion and the conductive terminal pin 4 is press- And a lower insulator 6, which is held by grasping and fixing the lower contact member 7, is mounted at a predetermined position on the bottom side of the housing, and after the inertia hole 8 is mounted on the lower insulator 6, The upper contact member 9 that has undergone the molding process is inserted into the housing and brought into contact with the inertia hole 8 in a state of being brought into contact with the inertia hole 8 so that the original plate of the lid 3 is hermetically fixed to the opening end of the housing Wherein the step of forming the depression element comprises the steps of:

4. Important Uses of the Invention

The present invention relates to an omnidirectional attenuating element which is attached to a signal processing apparatus for security control and detects a vibration such as an earthquake and sends the detection signal to a signal processing apparatus, and a manufacturing method thereof.

※ Selection figure 9

Description

Damping element and manufacturing method thereof

Since this is a trivial issue, I did not include the contents of the text.

1 is a longitudinal sectional view of a first embodiment of the present invention, FIG. 2 is a transverse sectional view taken along line AA in FIG. 1, FIG. 5 is a sectional view of a second 6 is a vertical cross-sectional view corresponding to FIG. 1 of the third embodiment in which spacers are added to the lower insulator in the first section in the same manner as FIG. 6, and FIG. 7 FIG. 7 is a longitudinal sectional view corresponding to FIG. 1 of the fourth embodiment in which another portion of the housing is modified; FIG.

Claims (12)

The conductive terminal pin 4 is hermetically fixed to the center of the conductive disk in an airtight state in an insulated state to constitute the lid 3 and constitute the lid 3. The lid 3 and the bottom An airtight container is constituted by a normal conductive housing. A slope 6A which is substantially concentrically and gently rising from almost the center toward the outside and a through hole 6B at the center of the slope 6A is provided in the vicinity of the bottom of the container A lower insulator 6 is substantially fixed and a conductive inertia hole 8 is freely mounted on the inclined surface 6A so that the cup-shaped inlet side of the cup faces downward, The upper insulators 11, 51, 61 and 71 penetrating the fin 4 are fixed to the upper part of the container and the lower end of the conductive terminal pin 4 is provided with a plurality of radial Is brought into contact with the above-mentioned inertia (8) with the flexible wing portion (9A) The conductive upper contact member 9 which follows the electric power of the sphere and keeps the contact is fixed via welding of the supporting plates 10, 62 and 72 to the pin, and the connecting piece extending to at least one of the edges is fixed to the housing And the contact portion of the center portion is inserted into the through hole 6B of the lower insulator 6 and is elastically contacted to the inertia hole 8 on the through hole 6B, 7 are provided on the lower side of the lower insulator 6 and electrical connection between the inertia hole 8 and the lower contact member 7 when the housing is in the normal posture The gravity of the ball itself and the elastic force exerted by the wing portion 9A cause the inclined face 6A to penetrate the center through hole 6B ) And maintains its position in contact with the contact portion, The mutual fixing of the lower contact member 7 and the lower insulator 6 is carried out by fitting the lower insulator 6 in the housing and simultaneously holding the lower contact member 7 The lower contact member 7 and its lower insulator 6 are arranged such that the contact portion of the lower contact member 7 maintains a predetermined position in the through hole 6B of the lower insulator 6 when the connection piece is connected to the housing ) Is substantially kept in a relative position with respect to the surface of the substrate (1). The lower contact member (7) according to claim 1, wherein the lower contact member (7) and the lower insulator (6) are fixed to each other by inserting the fixed portion on the lower surface of the lower insulator (6) And the relative position is determined by enlarging the width of the portion of the fixing portion passing through the through hole (6B). 2. The connector according to claim 1, wherein an outer circumferential portion of the lower contact member (7) is fixed and fixed between a step outer circumference of the lower insulator (6) and a step portion (22A) formed in the vicinity of the bottom surface of the housing Characterized by a damping element. 2. The method according to claim 1, wherein the lower contact member (7) and the lower insulator (6) are mutually fixed by supporting the lower contact member (7) between the lower insulator (6) And a spacer (32) formed so as not to interfere with the surface of the substrate (10). A protruding portion (2A) protruding inward is formed at a predetermined number of positions in a circumferential wall of the housing in order to prevent the positional deviation after inserting the lower insulator (6) into the housing . The connector according to claim 1, characterized in that a protrusion (51A) is formed at the upper end of the outer circumference of the upper insulator (11) (51) (61) (71) and this is engaged with the flange portion of the upper end of the housing 51) 61 (71) is prevented from being displaced downward. The connector according to claim 1, characterized in that the support plates (10), (62), and (72) that fit into the stepped portions (22A) of the upper insulators (11) Wherein the upper contact member (9) is sandwiched and the support plates (10), (62) and (72) are electrically fixed to the lower end surface of the conductive terminal pin (4). The connector according to claim 1, wherein the wing end of the upper contact member (9) is connected to the inertial member (8) and the upper insulators (11, 51) in the vicinity of the entrance edge of the upper insulators (11, 51, 61, 71) (61E) and (71E) are formed so as not to be sandwiched between the base member (61) (71). 9. The semiconductor device according to claim 8, characterized in that guide grooves (61G) are formed at the center of the recessed grooves (61F) (71E) formed in the vicinity of the edge of the entrance of the upper insulators (11) . A lid 3 having a conductive terminal pin 4 fixedly hermetically fixed in a penetrating state by means of an electrically insulating filler and a cylindrical conductive housing having a bottom face are formed in a hole drilled in the substantially center of the conductive disk, The flexible wing portion 9A of the conductive upper contact member 9 is brought into contact with the inertial orifice 8 so as to be always kept in a conductive state from above, The upper portion of the upper insulator 11, the upper portion of the upper insulator 11, the upper portion of the upper insulator 11, the lower portion of the upper insulator 11, The upper contact member 9 is supported by the support plates 10 and 62 on the cup bottom surfaces 61B and 71B so that the conductive terminal pins 4 are inserted through the center of the support pins 10 and 62, (72), and the support plates (10), (62), and (72) are sandwiched therebetween, And the support plate 10, 62, 72 is inserted into the conductive terminal pin 4 so as to form the umbrella-like shape having a predetermined flattened inclination of the cylinder, And a lower insulator 6, which is held by grasping and fixing the lower contact member 7, is mounted at a predetermined position on the bottom side of the housing, and after the inertia hole 8 is mounted on the lower insulator 6, The upper contact member 9 that has undergone the forming process is inserted into the housing and brought into contact with the inertia hole 8 in a state of being brought into contact with the inertia hole 8 so that the opening end of the housing is hermetically fixed to the original plate of the lid 3 Wherein the step (c) comprises the steps of: 11. The method according to claim 10, wherein the shape of the support plate (10), (62), and (72) is such that a portion of the disk has a concave portion and a block portion and the cup bottom surface (61B) of the upper insulators (11) (Not shown) of the upper contact member 9 before the press-fit deformation so as to prevent the mutual rotation of the upper contact member 9 and the upper insulator member 71B by forming an alignment portion corresponding to the concave portion and the convex portion of the support plate 10 62 and 72 which are supported by the guide grooves 61G at the center portions of the retraction grooves 61F and 71E provided at the entrance edge portions of the support plates 11, 51, 61 and 71, Is formed in a cylinder-like shape by the edge of the entrance of the step portion (22A) of the cup bottom (61B) (71B) with the positioning portion aligned. 11. The method according to claim 10, wherein the support plates (10), (62) and (72) are of a cap type which is easy to be supported by a fixture for welding and the upper insulators (11), (51), (61) 61F) 71E is formed to have a substantially V (V) -shaped cross section so that the wing portion 9A of the upper contact member 9 before the press-fitting is guided to the retreating grooves 61F, 71E, (62) and (72), so that the ellipsoidal shape of the elliptical shape is flattened. ※ Note: It is disclosed by the contents of the first application.