KR101904166B1 - A signal transfer assembly for sensor with elastic conductive plate - Google Patents

Abstract

The present invention relates to a sensor signal transmission assembly having a gradient elastic conductive plate on the inside of a guide mold, and more specifically, to a signal transmission assembly for a sensor, in which signal of a signal transmission electrode of a PCB substrate is embedded in a non- The sloping elastic conductive plate can be brought into contact with the upper side or the side surface of the PCB by an appropriate elastic force according to the design method so that the signal transmission electrode of the PCB substrate is damaged And the slant elastic portion of the slant elastic conductive plate maintains contact with the PCB substrate in an elastic state due to the elastic restoring force of the slant elastic conductive plate, The stability is enhanced, and the manner in which the inclined elastic conductive plate is fixed to the guide mold is used for injection molding A sensor having an inclined elastic conductive plate on the inner side of a guide mold having an excellent effect in which the fixing force for preventing separation of the elastic conductive plate is enhanced and the manufacturing process is simplified and the cost is reduced as compared with the fixed type having the injection molding type, Lt; / RTI > signaling assembly.

Description

Technical Field [0001] The present invention relates to a signal transfer assembly for a sensor having an inclined elastic conductive plate inside a guide mold,

The present invention relates to a sensor signal transmission assembly having a gradient elastic conductive plate on the inside of a guide mold, and more specifically, to a signal transmission assembly for a sensor, in which signal of a signal transmission electrode of a PCB substrate is embedded in a non- The sloping elastic conductive plate can be brought into contact with the upper side or the side surface of the PCB by an appropriate elastic force according to the design method so that the signal transmission electrode of the PCB substrate is damaged And the slant elastic portion of the slant elastic conductive plate maintains contact with the PCB substrate in an elastic state due to the elastic restoring force of the slant elastic conductive plate, The stability is enhanced, and the manner in which the inclined elastic conductive plate is fixed to the guide mold is used for injection molding A sensor having an inclined elastic conductive plate on the inner side of a guide mold having an excellent effect in which the fixing force for preventing separation of the elastic conductive plate is enhanced and the manufacturing process is simplified and the cost is reduced as compared with the fixed type having the injection molding type, Lt; / RTI > signaling assembly.

1 to 2, the conventional signal transmission assembly for a sensor includes a metal diaphragm and a metal diaphragm, as disclosed in Korean Patent No. 10-1693024 filed by the applicant of the present invention, And a mold for supporting the PCB substrate (referred to as " receiving support " in the prior art), wherein the sensor signal transmission assembly is used for signal transmission, A signal transfer electrode 11 is formed on the lower surface of the PCB 1 and vertically inserted into the PCB 1 and an insertion groove 21 into which the PCB 1 is inserted is connected to the signal transmission electrode 11 A bending plate 22 which is bent and arranged on the insertion groove 21 and a bending plate 22 which is accommodated in a spring support hole 23 of the bending support body 2, Lt; RTI ID = 0.0 > The bending plate 22 is bent in a shape of a letter A comprising a vertical bent portion 221 and a horizontal portion 222 and the vertical bent portion 221 Is contacted to the signal transfer electrode 11 of the PCB substrate 1 and the horizontal part 222 contacts the lower end of the spring 3 and transmits a signal transmitted by the PCB substrate 1 to the spring 3 The signal transmission assembly for a sensor according to the present invention is characterized in that the signal transmission assembly is a sensor signal transmission assembly.

However, in the conventional method of configuring the assembly using the bending plate, the receiving support 2 and the bending plate 22 may be separated from each other due to external impact, vibration, temperature change, or the like, There is a risk that contact failure may occur due to abrasion of the PCB substrate 1 due to abrasion and that the bending plate 22 to be assembled in a forced fit manner may be detached from the receiving support body 2 due to external impact or vibration, If the assembly is performed while the upper portion of the PCB substrate 1 is hooked on the lower end of the vertical bent portion 221 of the bending plate 22, The vertical bending portion 221 of the bending plate 22 is bent upward by pushing the vertical bending portion 221 of the bending plate 22 upward and the bending of the vertical bending portion 221 is broken or the assembly is incomplete. The receiving support body (2) (See 221 in FIG. 2), which is occupied by the vertical bending portion 221, and thus the manufacturing cost is increased and the size is increased, so that it is not suitable for miniaturization.

Korean Patent No. 10-1693024

SUMMARY OF THE INVENTION An object of the present invention is to solve and solve the problems of the prior art. First, it is an object of the present invention to provide a guide mold for preventing defective contact between a slant elastic conductive plate injected into a guide mold and a PCB substrate, And to provide a sensor signal transmission assembly having an inclined elastic conductive plate on the inside thereof.
Another object of the present invention is to provide a bending device for a bending plate which is capable of eliminating the risk that a conventional bending plate assembled in a forced fit type can be detached from a guide mold due to external impact or vibration, The present invention provides a sensor signal transmission assembly having a slant elastic conductive plate on the inner side of a guide mold.
It is a further object of the present invention to provide a method and apparatus for diversifying the contact method between a conductor and a PCB substrate to compensate for disadvantages of a sensor signal transmission assembly due to a contact method and position of the conductor and a PCB substrate, A signal transmission assembly for a sensor having a slant elastic conductive plate inside a guide mold capable of manufacturing a signal transmission assembly.

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The above and other objects of the present invention are achieved by a method of manufacturing a semiconductor device, comprising: a PCB substrate used for signal transmission and having signal transmission electrodes formed on an upper surface or a side surface thereof; The inclined elastic conductive plate having the inclined elastic part having the elastic restoring force is elastically restored to the PCB substrate to be elastically contacted and the signal transmission is maintained intact and the second conductor The lower end portion of the spring is brought into contact with the inclined elastic conductive plate and the spring is accommodated in the spring support hole of the nonconductive connector mold and the protrusion of the guide mold and the groove portion of the connector mold are assembled and fixed, And a slant elastic conductive plate on the inner side of the guide mold according to the present invention.

The effect of the sensor signal transmission assembly having the inclined elastic conductive plate inside the guide mold of the present invention is as follows. First, in order to solve the problem of contact failure caused by the separation between the conventional receiving support and the bending plate, The sloping elastic part of the plate contacts with the PCB substrate in an adhered state so as to have an elastic restoring force so that the stability of signal transmission is enhanced.

The effect of the sensor signal transmission assembly having the inclined elastic conductive plate inside the guide mold of the present invention is as follows. Second, the conventional bending plate, which is assembled in a forced fit manner, can be detached from the guide mold due to external impact, In order to solve the danger, the inclined elastic conductive plate is fixed to the guide mold by the injection mold fixed type by the injection molding manufacturing, so that the fixing force for preventing the deviation of the inclined elastic conductive plate from the fixed type of the bending plate is strengthened, Is simplified and costs are reduced.

The effect of the sensor signal transmission assembly having the inclined elastic conductive plate inside the guide mold of the present invention is as follows. Third, the inclined elastic conductive plate can be brought into contact with the upper or side of the PCB substrate according to the designing method, Miniaturization) of the signal transmission assembly of the present invention becomes possible.

1 is a perspective view of a signal transmission assembly for a sensor manufactured by a conventional bending plate method;
2 is a longitudinal sectional view according to an embodiment of a signal transmission assembly for a sensor manufactured by a conventional bending plate method taken along the line II in Fig.
3 is a longitudinal sectional perspective view of a signal transmission assembly for a sensor having an inclined elastic conductive plate inside a guide mold according to a first embodiment of the present invention.
4A is a perspective view of a guide mold in which an elastic conductive plate of a signal transmission assembly for a sensor having an inclined elastic conductive plate is disposed inside a guide mold according to the first embodiment of the present invention,
4B is a longitudinal sectional view of a guide mold in which the elastic conductive plate of the signal transmission assembly for a sensor having the elastic conductive plate according to the first embodiment of the present invention is disposed
4C is a longitudinal sectional view of a guide mold in which an elastic conductive plate of a signal transmission assembly for a sensor having an inclined elastic conductive plate is disposed inside a guide mold according to the first embodiment of the present invention.
5A is a longitudinal sectional view of a sensor signal transmission assembly having a slant elastic conductive plate inside a guide mold according to the first embodiment of the present invention before inserting the PCB substrate
FIG. 5B is a longitudinal sectional view of the signal transmission assembly for a sensor having the inclined elastic conductive plate inside the guide mold according to the first embodiment of the present invention after insertion of the PCB substrate
6 is a longitudinal sectional view of a signal transmission assembly for a sensor provided with a slant elastic conductive plate inside a guide mold according to the first embodiment of the present invention
7A is a cutaway perspective view of a guide mold part of a signal transmission assembly for a sensor having an elastic conductive plate according to a second embodiment of the present invention.
7B is a longitudinal sectional view of a guide mold part of a signal transmission assembly for a sensor provided with an inclined elastic conductive plate inside a guide mold according to a second embodiment of the present invention

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. However, the description of the present invention is merely an example for structural or functional explanation, and the scope of the present invention should not be construed as being limited by the embodiments described in the text. That is, the embodiments are to be construed as being variously embodied, constructed in various forms, or capable of substituting parts and techniques, and thus the scope of the present invention should be understood to include equivalents capable of realizing technical ideas.

Also, it should be understood that the scope of the present invention is not limited by the specific embodiments, as it is not intended to be exhaustive or to limit the scope of the invention to the precise form disclosed. In the meantime, detailed descriptions of technical structures and functions that are widely known and applied among the functions shown by the technical structures and technical structures described in the present invention will be omitted.

The schematic configuration of the signal transmission assembly A for a sensor provided with the inclined elastic conductive plate inside the guide mold according to the first embodiment of the present invention is as shown in Figs. 3 and 4A, A PCB substrate 301 inserted vertically and an insertion groove 302 into which the PCB 301 is inserted are formed at the lower center and elastic conductive plate support grooves 303 are formed on both sides of the insertion groove 302, And a guide plate 304 which is inserted into the elastic conductive plate support groove 303 of the guide mold 304 and is upwardly moved toward the insertion groove 302 so as to be connected to the PCB substrate 301, A slant elastic conductive plate 307 provided with an inclined elastic portion 305 bent obliquely to the guide mold 304 and a spring 309 disposed on and connected to the inclined elastic conductive plate 307 of the guide mold 304, 308) for preventing the release of the spring (308) 308 includes a case 311, securing the outer shoulder (310a) of the molded connector 310 with the connector molding 310 of the non-conductive to be connected with an external signal.

Here, the PCB substrate 301 is arranged vertically, so that the module can be miniaturized as compared with a conventional PCB substrate disposed horizontally. Compared with a method in which a spring, which is a conductor of a signal, directly contacts a PCB substrate The inclined elastic conductive plate 305 is brought into contact with the spring 308 and the inclined elastic conductive plate 307 and the inclined elastic portion 305 inclined upward from the inclined elastic conductive plate 307 is brought into contact with the PCB substrate 301, By adopting the signal transmission method in which the PCB substrate 301 is stably contacted through the inclined elastic conduction plate 307, it is possible to transmit more stable signals and to design and configure various types of assemblies. The description thereof will be described later in conjunction with the second embodiment of the present invention.

4A, 4B, and 4C, the arrangement structure of the elastic conductive plate of the sensor signal transmission assembly having the inclined elastic conductive plate inside the guide mold according to the first embodiment of the present invention includes a guide mold The inclined elastic conductive plate 307 is arranged as the first conductor from the injection molding step to the injection molded type fixed type and the inclined elastic conductive plate 307 is aligned with the shape of the bottom surface of the elastic conductive plate support groove 303 of the inclined elastic conductive plate 307, The horizontal conductive plate 306 and the inclined elastic conductive part 305 are formed so that the horizontal conductive plate 306 contacts the lower end of the spring 308 as the second conductor to transmit a signal, 305 are bent obliquely upward from the lateral end of the horizontal plate 306 and are in contact with the PCT substrate 301 inserted into the insertion groove 302 and in close contact with the elastic restoring force of the inclined elastic portion 305 And the contact is maintained.

The horizontal conductive plate 306 integrally formed with the slant elastic part 305 contacts the lower end of the spring 308 and transmits a signal transmitted from the PCB 301 through the inclined elastic part 305 to the spring 308 The horizontal conductive board 306 is formed in such a manner that the horizontal conductive board 306 contacts the elastic conductive plate support groove 303 in the process of injection molding of the elastic conductive plate support groove 303 And is fixed in a manner of being injection-processed. Therefore, there is an excellent effect that the release is prevented, the fixing force is strong, the manufacturing process is simplified, and the cost is reduced regardless of the influence of external vibration, impact and temperature change.

A more detailed description of the injection molding type fixing method of the inclined elastic conductive plate 307 is as follows. The purpose of the present invention is to eliminate the risk that the conventional bending plate assembled by the interference fit type can be detached from the guide mold due to external impact, In the process of manufacturing the guide mold 304, the inclined elastic conductive plate 307 is preliminarily disposed in the elastic conductive plate supporting groove 303 in the process of injection molding so that the inclined elastic conductive plate 307 is fitted A guide mold 304 having an elastic conductive plate support groove 303 of a predetermined size is injection molded so that the horizontal conductive plate 306 of the inclined elastic conductive plate 307 is already fixed to the elastic conductive plate support groove 303 The inclined elastic conductive plate 307 is not detached from the elastic conductive plate support groove 303 and the fixing force is strengthened.

As the inclined elastic conductive plate 307 is fixed in the guide mold 304 which is less affected by the vibration, the contact between the PCB substrate 301 and the inclined elastic conductive plate 307 is not affected by vibration or separation The spring 308 is inserted into the spring support hole 309 of the guide mold 304 and is brought into close contact with the horizontal conductive plate 306 of the inclined elastic conductive plate 307, And the connector mold 310 prevents the spring 308 from coming off and the guide mold 304 and the guide mold 304 are fixed to each other by the interference fit of the protrusion 304a of the guide mold 304 and the depression 312 of the connector mold. The spring 308 housed in the spring support hole 309 of the connector mold 310 oscillates up and down in the spring support hole 309 to transmit a stable signal .

The inclined elastic portion 305 of the inclined elastic conductive plate 307 is inserted into the inner space of the insertion groove 302 communicated with the elastic conductive plate support groove 303 of the guide mold 304 from the bottom surface of the guide mold 304 The inclined elastic portion 305 may be inclined at an angle of about 45 degrees and the angle and direction at which the inclined elastic portion 305 is bent may be changed depending on the case. The inclined elastic conductive plate 307 may be formed of a metal conductor such as a copper plate having excellent conductivity and the PCB substrate 301 and the inclined elastic portion 305 may be slanted so that the inclined elastic portion 305 is moved upward The contact between the sloping elastic portion 305 and the PCB substrate 301 can be closely and strongly maintained by the elastic force of the sloping elastic portion 305 while the contact with the PCB substrate 301 is maintained, The damage of the signal transmitting electrode of the electrode assembly can be prevented.

In the present embodiment, three inclined elastic conductive plates 307 composed of inclined elastic portions 305 having an angle of about 45 degrees and formed in the upper direction are disposed in the three elastic conductive plate supporting grooves 303, Of the total number of users can be increased or decreased as needed. Although a circuit for processing a signal is disposed under the PCB substrate 301, it is not directly related to the gist of the present invention.

5A and 5B, the sensor signal transmission assembly A having the inclined elastic conductive plate inside the guide mold according to the first embodiment of the present invention includes a guide mold The inclined elastic conductive plate 307 including the horizontal conductive plate 306 in the elastic conductive plate support groove 303 having the upper and the side open at the upper and lower sides of the horizontal conductive plate 304 and the inclined elastic conductive plate 307 formed at one side of the horizontal conductive plate 306, At least one signal transmitting electrode 301a is arranged in the insertion groove 302 upwardly inclined upward and downward at an angle of about 45 degrees in the direction toward the insertion groove 302, And the PCB substrate 301 is inserted into the insertion groove 302 so that the signal transmission electrode 301a contacts the inclined elastic portion 305 by the elastic restoring force of the inclined elastic portion 305, As shown in FIG.

At this time, a spring support member (not shown) of the connector mold 310 formed at a position corresponding to the upper portion of the elastic conductive plate support groove 303 is connected to the PCB substrate 301 and the inclined elastic portion 305 in close contact, The depressed portion 312 of the connector mold 310 and the protruding portion 304a of the guide mold 304 are coupled with each other in a forced fit manner while the spring 308 is inserted into the recess 309, And the spring 308 and the inclined elastic conductive plate 307 are held in contact with each other while the lower end of the spring 308 contacts the horizontal conductive plate 306 of the inclined elastic conductive plate 307. [

As shown in FIG. 6, the spring 308 of the sensor signal transmission assembly A having the inclined elastic conductive plate inside the guide mold according to the first embodiment of the present invention is made of a metal with high conductivity The diameter of the central portion gradually increases and becomes larger than the upper and lower portions and is maintained at a constant diameter so that the spring 308 is maintained in a state that the spring 308 is not separated from the spring support hole 309 of the connector mold 310, The elastic force in the vertical direction of the central portion of the spring 308 is increased and the contact holding force between the lower end portion of the spring 308 and the inclined elastic conductive plate 307 is strengthened and the material cost in manufacturing can be reduced .

The spring 308, which is the second conductor of the present invention, is not limited to the shape of this embodiment but is exemplarily described and various changes and modifications may be made without departing from the scope of the present invention. For example, The shape and function of each of the central portion and the lower portion, such as the diameter, the pitch, and the thickness, are made different from each other, and various types of springs 308 according to the use and structure of the assembly can be utilized in the present invention.

7A and 7B, the sensor signal transmission assembly B having the inclined elastic conductive plate inside the guide mold according to the second embodiment of the present invention includes a PCB substrate 301 Is formed on the upper surface of the PCB substrate 301 and the inclined elastic portion 305 of the inclined elastic conductive plate 307 is bent obliquely downward to transmit the signal to the PCB substrate 301 The electrode 301a and the inclined elastic portion 305 are in contact with each other. In such a structure, since the signal transmitting electrode 301a is formed on the upper surface of the PCB substrate 301 rather than on the side surface thereof, the vertical area occupied by the signal transmitting electrode 301a of the PCB substrate 301 disappears, And the elastic restoring force of the inclined elastic portion 305 acts in the vertical direction so that the contact between the signal transmitting electrode 301a and the inclined elastic portion 305 is more strongly maintained, The contact between the horizontal plate 306 and the spring 308 of the elastic member 307 can also be stably contacted due to the elastic restoring force.

Since the sensor signal transmission assembly having the inclined elastic conductive plate inside the guide mold according to the present invention can repetitively manufacture the same product in the sensor industrial field of general measuring instrument, something to do.

A: Signal transmission assembly for sensor with elastic conduction plate
1: PCB substrate 2: receiving substrate
3: spring
301: PCB substrate 301a: signal transmitting electrode
302: insertion groove 303: elastic conductive plate support groove
304: Guide mold 305: Elastic pin
306: horizontal flat plate 307: elastic conductive plate
308: spring 309: spring support ball
310: connector mold 311: case

Claims (11)

A sensor comprising a PCB substrate, a guide mold having an inclined elastic conduction plate in contact with the PCB substrate, and a connector mold having a spring in contact with the inclined elastic conduction plate, For signaling assembly A,
The sensor signal transmission assembly A having the inclined elastic conductive plate inside the guide mold is used for signal transmission and has a signal transmission electrode 301a formed therein and the insertion groove 302 of the guide mold 304, A PCB substrate 301 to be inserted into the PCB 301;
The insertion groove 302 into which the PCB substrate 301 can be inserted is formed and the elastic conductive plate support groove 303 is formed on the side surface of the insertion groove 302 and the protrusion 304a is formed on the upper surface thereof. A guide mold 304;
And a horizontal flat plate 306 and an inclined elastic portion 305 which are disposed in the elastic conductive plate support groove 303 of the guide mold 304 and injection molded together with the guide mold 304, An inclined elastic conductive plate (307) injection-molded with the guide mold (304);
A spring support hole 309 is formed in a bottom surface of the guide mold 304 so as to be assembled with a protrusion 304a of the guide mold 304. A spring 308, which is in contact with the horizontal plate 306, And a mold (310)
The inclined elastic conductive plate 307 is fixed to the elastic conductive plate support groove 303 and contacts the signal transmission electrode 301a to transmit a signal. And a spring (308) for transmitting a signal is provided as a conductor. The signal transmission assembly for a sensor according to claim 1, wherein the inclined elastic conduction plate is disposed inside the guide mold. delete delete delete The method according to claim 1,
The signal transmission electrode 301a of the PCB substrate 301 is formed on a side surface of the PCB substrate 301,
Wherein the inclined elastic conductive plate 307 is composed of a horizontal conductive plate 306 and an inclined elastic portion 305 which is inclined upward from one side of the horizontal conductive plate 306 and has an elastic restoring force. A signal transmission assembly for a sensor comprising an inclined elastic conduction plate on the inside of a mold. The method according to claim 1,
The signal transmission electrode 301a of the PCB substrate 301 is formed on the upper surface of the PCB substrate 301,
Wherein the inclined elastic conductive plate 307 is composed of a horizontal conductive plate 306 and an inclined elastic portion 305 which is inclined downward from one side of the horizontal conductive plate 306 and has an elastic restoring force. A signal transmission assembly for a sensor comprising an inclined elastic conduction plate on the inside of a mold. delete The method according to claim 1,
The guide mold 304 is formed with an insertion groove 302 through which the PCB 301 can be inserted and is connected to the signal transmission electrode 301a of the PCB 301, And an inclined elastic conductive plate inside the guide mold, wherein the elastic conductive plate support groove (303) communicating with the elastic conductive plate support groove (302) and having an open top is formed. The method according to claim 1,
Wherein the spring (308) has a diameter or a pitch different from a portion of the other portion, wherein the spring (308) has an inclined elastic conductive plate inside the guide mold. delete delete

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