KR20110074318A - Multi beam sensor of assembly type - Google Patents

Abstract

PURPOSE: An assembly type multi beam sensor is provided to easily replace a defective or damaged beam sensor without replacing a board when any one of beam sensors is defective or damaged. CONSTITUTION: An assembly type multi beam sensor includes a sensor board(10), a mounting protrusion unit(20), and a beam sensor block as a transmitting module and a receiving module. The mounting protrusion units are arranged on the sensor board. The beam sensor block is a transmitting module. An infrared ray emitting LED is installed in the beam sensor block. A control signal and power are supplied through the sensor board and transferred to an infrared ray receiving sensor through the contact point connection states of first and second contact point connecting units.

Description

Multi beam sensor of assembly type

The present invention relates to a multi-beam sensor, and more particularly, to an assembled multi-beam sensor configured to be detachable to a plurality of beam sensors mounted on one board (substrate).

Many kinds of security devices are installed and operated around us, and no matter how advanced security devices are developed, if the sensor to detect an intruder does not function properly, it will allow intrusion or suffer from wrong information.

One of many sensors installed and used among them is a beam sensor (aka infrared sensor), and the beam sensor is divided into a transmitter and a receiver.

However, the conventional beam sensor divided into a transmitter and a receiver transmits and receives a single beam, and thus has a disadvantage in that it cannot handle a large intrusion space.

Therefore, in the related art, a transmission module in which a plurality of beam transmission sensors are applied to one board to transmit a multi beam, and a reception module in which a plurality of beam reception sensors are applied to a single board to receive the multi beam are obtained to obtain the effects of the multiple beams. It was made.

However, since a plurality of beam sensors are conventionally fixed to one board (transmission module or reception module) in the same manner as soldering, the integrated type is fixed, and when any one of the plurality of beam sensors is defective or damaged, replacement thereof is performed. This is difficult, and accordingly a problem arises in that the board itself in which the plurality of beam sensors are configured is replaced.

In addition, in the related art, a plurality of beam sensors are configured on one board (transmission module or reception module), while a warning light control board is connected to the board, as well as a buzzer output control board to configure a single alarm system. In this case, a poor connection of circuit boards connecting each board can cause a significant influence on the operation performance of the alarm system.

Accordingly, the present invention is to solve the conventional problems as described above, by detachably configuring a plurality of beam sensors on one board, any one of the plurality of beam sensor is bad or bad without replacing the board when broken Another object of the present invention is to provide an assembled multi-beam sensor that can replace only a damaged beam sensor.

In addition, the present invention improves the inconvenience of connecting the boards in a circuit configuration by configuring an alarm system for detachably attaching the warning light control module and the buzzer output control module to the board which is configured to be detachable a plurality of beam sensors In addition to improving the operating performance of the alarm system, there is another purpose to increase the productivity of the alarm system.

The assembled multi-beam sensor of the present invention for achieving the above object, the sensor board is connected to the power supply line and the control line; A plurality of mounting protrusions arranged at predetermined intervals on the sensor board and forming first contact connecting portions at both ends connected to the power supply line and the control line; A beam sensor block forming a mounting groove part to be detachably fitted to the mounting protrusion part, and forming second contact connecting parts connected to the first contact connecting part by a contact at both ends; It is configured to include.

In addition, the beam sensor block is a transmission module for transmitting a plurality of beams or a receiving module for receiving a plurality of beams.

In addition, an infrared light emitting LED is configured in the beam sensor block, and the infrared light emitting LED is connected to the second contact connector.

In addition, an infrared ray receiving sensor is configured in the beam sensor block, and the infrared ray receiving sensor is connected to the second contact connecting portion.

In addition, any one of a plurality of mounting protrusions configured in the sensor board is fitted with a warning light control block including a warning light control module connected to the third contact connecting portion while forming a mounting groove portion and the third contact connecting portion. Combined.

In addition, any one of a plurality of mounting protrusions configured in the sensor board is fitted with a buzzer sound control block including a buzzer control module connected to the fourth contact connection part while forming a mounting groove part and a fourth contact connection part. Combined.

In addition, the sensor board is configured to externally control panel as well as a multi-connector that can be connected to the warning light and the buzzer sound output unit, the multi-connector is the mounting projection of the mounting light projection block and the buzzer sound control block is mounted through a connection line It is configured to be connected to two contact connecting parts.

In addition, the sensor board is configured with a multi-connector, the multi-connector is configured to connect the first board on which the warning light control module is mounted, and the second board on which the buzzer control module is mounted.

As described above, the present invention is configured to detachably attach a plurality of beam sensors to one board, as well as an alarm system to detachably attach a warning light control module and a buzzer output control module to a board configured to detachably attach a plurality of beam sensors. In this configuration, when any one of the plurality of beam sensors is defective or broken, it is possible to easily replace only the defective or damaged beam sensor without replacing the board, and improve the inconvenience of connecting the boards in a circuit configuration. Therefore, it is possible to improve the operating performance of the alarm system as well as to increase the productivity of the alarm system.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

1 is a side view showing a multi-beam sensor structure of the assembled type in an embodiment of the present invention, Figure 2 is a plan view showing a multi-beam sensor structure of the assembled type in an embodiment of the present invention, Figure 3 is an embodiment of the present invention For example, a beam transmission state diagram of a transmission module and a reception module constituting a multi-beam sensor, FIG. 4 is a schematic block diagram of an external device connected to a sensor board which is a transmission module or a reception module according to an embodiment of the present invention. will be.

1 to 4, the assembled multi-beam sensor according to the first embodiment of the present invention is a sensor board 10, a mounting protrusion 20, and a beam as a transmission module Tx or a reception module Rx. The sensor block 30 is included.

The sensor board 10 is formed to have a predetermined length, and a power connection line L1 and a control line L2 are connected in the length direction thereof, and an external device is connected to one end of the power supply line L1 and the control line L2. The control panel 100 and the warning light 200 and the multi-connector 11 to be connected to the buzzer sound output unit 300 is configured.

The mounting protrusion 20 is arranged at a predetermined interval on the sensor board 10, and is formed at both ends of the first contact connecting portion 21 connected to the power connection line L1 and the control line L2. .

At this time, the first contact connecting portion 21 is connected to the connection line (L3) to be connected to the multi-connector 11 is further configured.

The beam sensor block 30 has a mounting groove portion 30a formed to be detachably fitted to the mounting protrusion 20, and is secondly connected to the first contact connecting portion 21 by a contact. The contact connecting portion 31 is formed at both ends.

At this time, the beam sensor block 30 is configured as a transmission module (Tx) for transmitting a plurality of beams or a receiving module (Rx) for receiving a plurality of beams, the beam sensor block 30 is a transmission module (Tx) When the beam sensor block 30 is composed of an infrared light emitting LED 32, the infrared light emitting LED 32 is connected to the second contact connecting portion 31.

In addition, when the beam sensor block 30 is composed of a receiving module (Rx), the infrared sensor 33 is configured in the beam sensor block 30, the infrared receiving sensor 33 is the second contact The connection with the part 31 is made.

That is, in the assembled multi-beam sensor according to the first embodiment of the present invention, as shown in FIGS. 1 to 3, the transmission module Tx in which the power supply line L1 and the control line L2 are connected at a predetermined length. ) Or in a state in which the mounting protrusions 20 are projected on the sensor board 10 of the receiving module Rx at a predetermined interval, the mounting protrusions 20 are connected to the power supply line L1 and the control line L2. The first contact connecting portion 21 is configured.

In this case, when the sensor board 10 is a transmission module Tx, the mounting grooves 30a of the sensor beam block 30 are inserted into the mounting protrusions 20 arranged at regular intervals on the sensor board 10. When coupled, the second contact connecting portion 31 provided in the mounting groove 30a is connected to the first contact connecting portion 21 provided at both ends of the mounting protrusion 20.

In this case, an infrared light emitting LED 32 is configured in the sensor beam block 30, which is the transmission module Tx, while the infrared light emitting LED 32 is connected to the second contact portion 31. ,

The control signal and the power supply made through the sensor board 10 are transmitted to the infrared light emitting LED 32 through the contact connection state of the first and second contact connecting portions 21 and 31, and thus the sensor board. The infrared light emitting LEDs 32, which are detachably mounted at 10, can selectively transmit beam signals according to control signals of the control panel 100 connected to the multi-connector 11.

Next, when the sensor board 10 is a receiving module Rx, the mounting grooves 30a of the sensor beam block 30 are respectively provided in the mounting protrusions 20 arranged at predetermined intervals on the sensor board 10. When fitted, the second contact connecting portion 31 provided in the mounting groove portion 30a is connected to the first contact connecting portion 21 provided at both ends of the mounting protrusion 20.

At this time, the infrared beam receiving sensor 33 is configured in the sensor beam block 30 which is the receiving module Rx, while the infrared receiving sensor 33 is connected to the second contact connecting part 31,

The control signal and power supply made through the sensor board 10 are transmitted to the infrared receiving sensor 33 through the contact connection state of the first and second contact connecting portions 21 and 31, and thus the sensor board ( In the infrared receiving sensor 33, which is detachably mounted to 10, the beam which is selectively transmitted by the infrared light emitting LED 32 according to the control signal of the control panel 100 connected to the multi connector 11. You will be able to receive the signal.

Then, any one of the mounting protrusions 20 formed at a predetermined interval on the sensor board 10 forming the transmission module (Tx) or the reception module (Rx), respectively, the warning light control block 40 and the buzzer control block. 50 may be detachably fitted, and in this case, the warning lamp control block 40 forms a mounting groove portion 40a and a third contact connecting portion 41, and the buzzer control block 50 includes a mounting groove portion. 50a and the fourth contact connecting portion 51 are formed.

That is, the warning light control block 40 and the buzzer sound control block 50 may be mounted on the sensor board 10 that is the transmission module Tx or selectively mounted on the sensor board 10 that is the reception module Rx. Accordingly, when the abnormal signal according to the beam transmission and reception of the transmission module (Tx) and the reception module (Rx) is detected, as shown in Figure 4 attached to the beacon control block 40 operates the beacon 200. The buzzer control block 50 may output a signal for outputting a signal for outputting a buzzer sound from the buzzer sound output unit 300.

Here, the sensor board 10 is configured with a separate multi-connector 11, the multi-connector 11 is operated according to the output signal of the beacon control block 40 and the buzzer control block 50. Ordinary warning lights 200 or buzzer sound output unit (speakers) 300 is configured to connect.

On the other hand, Figure 5 is attached to the multi-connector 11 formed on the sensor board 10 in another embodiment of the present invention, the first board 60 is mounted with a warning light control module and the buzzer sound control module is mounted The second board 70 may be connected to be configured.

That is, the warning light control module and the buzzer sound control head may be detachably mounted to the sensor board 10, but the first and second boards 60 and 70 are mounted in separate states. It may be connected to the sensor board 10 from the connection state of the two boards 60 and 70, in which the first and second boards 60 and 70 typically have a warning light 200 and a buzzer output unit 300, respectively. ) To configure the connection.

At this time, in the multi-beam sensor of the present invention operating as described above, in the state in which a plurality of beam sensor block 30 is mounted on one sensor board 10, any one beam sensor block 30 or warning lights Even if the control block 40 or the buzzer sound control block 50 is defective or damaged, it is possible to easily replace only a defective or broken block that is one accessory without replacing the entire sensor board.

On the other hand, Figure 6 is another embodiment of the present invention, which is configured to align the beam sensor block functioning as the transmission module (Tx) and the beam sensor block functioning as the reception module (Rx) on one sensor board Meanwhile, another sensor board shows that the beam sensor block functioning as the reception module Rx and the beam sensor block functioning as the transmission module Tx are arranged so that beam transmission and reception are crossed. Hereinafter, duplicate descriptions of the same parts as in the exemplary embodiment of the present invention will be omitted.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention as defined by the appended claims. It is to be understood that such changes and modifications are within the scope of the claims.

1 is a side view showing an assembly-type multi-beam sensor structure in an embodiment of the present invention.

Figure 2 is a plan view showing a solby multi-beam sensor structure in an embodiment of the present invention.

Figure 3 is a beam transmission state diagram of a transmission module and a reception module constituting a multi-beam sensor in an embodiment of the present invention.

Figure 4 is a schematic block diagram showing an external device connected to the sensor board which is a transmitting module or a receiving module according to an embodiment of the present invention.

Figure 5 is a schematic block diagram showing a state in which an external device is connected to the sensor board which is a transmitting module or a receiving module through the first and second boards in another embodiment of the present invention.

6 is a structural diagram of a state in which a transmitting module and a receiving module are arranged in one sensor board according to another embodiment of the present invention.

* Description of the symbols for the main parts of the drawings *

10; Sensor board 11; Multi connector

20; Mounting projection 21; 1st contact connection

30; Sensor beam block 30a; Mounting Groove

31; A second contact connector 32; Infrared Emitting LED

33; Infrared receiving sensor 40; Warning light control block

40a; Mounting groove 41; 3rd contact connector

50; Buzzer control block 50a; Mounting Groove

51; Fourth contact connector 60, 70; 1st and 2nd board

100; Control panel 200; Warning light

300; Buzzer Output

Claims (9)

A sensor board to which a power supply line and a control line are connected; A plurality of mounting protrusions arranged at predetermined intervals on the sensor board and forming first contact connecting portions at both ends connected to the power supply line and the control line; And, A beam sensor block forming a mounting groove part to be detachably fitted to the mounting protrusion part, and forming second contact connecting parts connected to the first contact connecting part by a contact at both ends; Assembly type multi-beam sensor, characterized in that comprising a. The multi-beam sensor of claim 1, wherein the beam sensor block is a transmission module for transmitting a plurality of beams or a receiving module for receiving a plurality of beams. The multi-beam sensor of claim 1, wherein the sensor board includes a beam sensor block, which is a transmission module, and a beam sensor block, which is a reception module (Rx). The method according to claim 2 or 3, wherein when the beam sensor block is configured as a transmission module, an infrared light emitting LED is configured in the beam sensor block, and the infrared light emitting LED is connected to a second contact connector. Prefabricated multi beam sensor. The assembly of claim 2 or 3, wherein when the beam sensor block is configured as a receiving module, an infrared receiving sensor is configured in the beam sensor block, and the infrared receiving sensor is connected to a second contact connector. Type multi-beam sensor. According to claim 1, wherein any one of a plurality of mounting protrusions configured in the sensor board to form a mounting groove portion and the third contact connecting portion, the beacon light control block including a warning light control module connected to the third contact connecting portion; Assembly type multi-beam sensor, characterized in that the fitting. According to claim 1, wherein any one of a plurality of mounting protrusions configured in the sensor board, while forming a mounting groove portion and the fourth contact connecting portion, the buzzer sound control block including a buzzer control module connected to the fourth contact connecting portion; Assembly type multi-beam sensor, characterized in that the fitting. The sensor board of claim 1, wherein the sensor board is configured to externally connect a control panel as well as a warning light and a buzzer output unit. The multi-connector is provided with the warning light control block and a buzzer control block through a connection line. Assembly type multi-beam sensor, characterized in that configured to be connected to the second contact connecting portion of the mounting projection. The method of claim 1, wherein the sensor board is configured with a multi-connector, the multi-connector, the first board on which the warning light control module is mounted, and the second board on which the buzzer control module is mounted is assembled. Multi-beam sensor.

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