KR970062663A - Damping element - Google Patents

Abstract

1. The technical field to which the invention described in the claims belongs

The present invention relates to an omnidirectional sensing element which is installed in a signal processing device of an petroleum heater, a gas combustion device or other device and detects a vibration such as an earthquake and sends a detection signal to the signal processing device.

2. The technical problem to be solved by the invention

Small and reliable ternary elements are obtained.

3. Summary of Solution to Invention

The upper contact member 8 and the lower contact member 11 are electrically connected to the inside of the container of the sensing element 1 by the conductive inertia 6 on the lower linkage body 10. In addition, when subjected to vibration, the inertial sphere 6 is electrically driven to block the contact with the lower contact member 11. The upper contact member 8 has a radial branch, and the center portion thereof is sandwiched and fixed by the support plate 7 and the conductive terminal pin 5. In addition, the upper insulator 9 is arranged through the conductive terminal pins 5 through the periphery thereof, and is sandwiched and fixed by the support plate 7 and the disc 3A. The lower contact member 11 has two contact portions 11A, so that the electrical contact with the inertial sphere 6 is more secure.

4. Important uses of the invention.

Providing a sensing element with reliable and excellent performance without vibration erroneous detection and malfunction.

Description

Damping element

Since this is an open matter, no full text was included.

1 is a longitudinal sectional view of a first embodiment in the present invention.

2 is a diagram showing a first-order sensing element and a P-P cross-section arrow.

3 is a plan view showing a shape before processing and assembling of the lower contact member used in the first embodiment.

6 is a Q-Q cross-sectional arrow view of the Figure 5 damping element.

Fig. 12 is a longitudinal sectional view of the fourth embodiment of the fourth embodiment in the present invention.

13 is an S-S cross-sectional arrow display of the eleventh damping element.

14 is a plan view showing a shape before processing and assembling of the lower contact member used in the fourth embodiment.

Claims (7)

A hermetically sealed container formed by a conductive housing of a plug member and a user cylinder, electrically conductive and inertial spheres housed freely in the hermetically sealed container, and conductive terminal pins which are hermetically penetrated and fixed in an insulated state almost at the center of the mall plug; An upper contact member of a conductive material portion having a plurality of resilient branched elastic portions that are fixed to the inner end of the sealed container's inner shaft of the conductive terminal pin and which are able to contact the through-hole substantially radially around the conductive terminal pin; The upper insulator of the electrical insulator is fixed to the conductive terminal pin by the support plate between the stopper and the stopper, so that an inclined surface which gradually rises concentrically from the center to the outside is formed, and the lower insulator provided with the through hole in the center is formed. It is fixed substantially near the bottom of the bottom of the The conductive contact portion is installed so that the lower contact member is in electrical contact with the housing such that a contact portion, which is a part of the lower contact member, is inserted through the through hole of the lower insulator. When it is installed in the center, it is placed on the through hole in the center of the inclined surface and is in electrical contact with the contact portion of the inclined surface, resisting the pushing force of the contact portion of the lower contact member by the force applied from gravity and the branch shape of the upper contact member. In addition, the contact is arranged to be blocked by the rolling of the inertial sphere, and the inertial sphere is in contact with the branch shape even in the rolling state, and the positional relationship between the lower insulator and the lower contact member does not substantially change. Persimmon characterized in that it becomes the structure which is held and fixed In the element, the lower contact member has a plurality of contact portions and elastic portions which do not interfere with each other in a state where the inertia sphere is located on the through hole provided in the lower insulator, and the contact portion is in the through hole of the lower insulator and has an inner surface thereof. It is movable up and down without being in contact with each other and is in contact with the stationary inertia sphere at a predetermined distance from each other, and the elastic portion has a predetermined interval in the state where the inertia sphere is located on the through hole provided in the lower insulator. A vibration sensing element, which is maintained so as not to interfere with each other and is adapted to impart a pushing force to the inertia sphere independently through the contact portion. The sensing element according to claim 1, wherein a distance between the contact portions provided in the lower contact member is set to 1/9 to 1/3 of the diameter of the through hole provided in the lower insulator. 3. The lower contact member according to claim 1 or 2, wherein the lower contact member has two elastic parts and a contact part which have almost spiral symmetrical shapes, and the contact part is erected at a predetermined angle with respect to the plane of the elastic part. Sensing element. 3. The lower contact member according to claim 1 or 2, wherein the lower contact member is formed of two elastic portions each having substantially the same width as the helical rims, and the two symmetrical shapes provided on the elastic portions, respectively. A sensing element having a contact portion, the contact portion of which is erected at a predetermined angle with respect to the plane of the elastic portion. The sensing element according to claim 1 or 2, wherein a plurality of lower contact members are provided and a plurality of elastic portions and contact portions are provided. 6. The lower contact member according to claim 5, wherein the lower contact member is provided with a substantially elastic spiral portion and a contact portion which is provided at one end thereof, and is substantially perpendicular to the plane of the elastic portion, and the elastic portion and the contact portion have almost the same shape except for the elastic portion. A plurality of lower contact members are in a folded state, and the elastic part and the contact part are held at predetermined intervals in the vertical direction so as not to interfere with each other. 6. The lower contact member according to claim 5, wherein the lower contact member is configured as an elastic part provided with a contact portion at one end thereof and a foundation having a structure for being held by and fixed to the lower insulator. A damping element, each of which is provided at a symmetrical position with respect to a center thereof, and whose contact portions are erected at a predetermined angle with respect to the plane of the elastic portion. ※ Note: The disclosure is based on the initial application.