KR200201840Y1 - Furnace monitoring camera with returing function - Google Patents

Abstract

The present invention relates to a furnace monitoring camera return device, the monitoring camera 30 mounted on the furnace wall 20 in order to monitor the inside of the furnace of the high temperature difficult to approach the worker is moved to the outside of the furnace in the situation such as in case of power failure A guide rail 10 installed at an outer portion of the furnace wall 20 by a fixing bracket 11 and formed at a predetermined interval to the outside so as to be protected;

A connector 40 connected to the body of the guide rail 10 and the body of the surveillance camera 30 to selectively move the surveillance camera 30 to the rear;

The camshaft 51 is installed on the upper side of the guide rail 10 and fixed to the outside of the body to be fixed to the monitoring camera 30 so as to move the monitoring camera 30 to the rear side in case of power failure. Since the cam shaft 51 is composed of a spring return motor 50 for driving the cam shaft 51 by the elastic force of the spring, the present invention, the road surveillance camera return device for monitoring the power failure camera 30 By the operation of the spring return motor 50 located in the upper part of the monitoring camera 30 can move the monitoring camera 30 to a safe position outside the furnace by the guide rail 10, the power failure The city surveillance camera 30 will be safe to protect.

Therefore, it is a very useful design that can reduce the reliability of the product and the maintenance and repair cost of the surveillance camera 30.

Description

Monitoring camera with returing function {Furnace monitoring camera with returing function}

The present invention relates to a furnace monitoring camera return device, and more particularly, to form a return means operated by the elastic force of the spring on the upper part of the body of the monitoring camera mounted on the furnace wall to monitor the inside of the furnace, It is designed to protect the surveillance camera in the same situation by moving the surveillance camera to a safe location outside the furnace.

In general, surveillance cameras for monitoring the inside of the furnace need to be fitted to the wall of the furnace to properly cope with the urgent situation such as high temperature inside the furnace and sudden power failure to observe the inside of the furnace. Do.

In general, a motor driving method and a method using compressed air are mainly used as equipment for moving the furnace monitoring camera from the inside of the furnace to the outside.

The motor driving method is a method in which the monitoring camera is moved to the outside of the furnace by the driving force of the motor when the temperature of the furnace wall on which the monitoring camera is mounted rises or when the cooling device that cools the monitoring camera fails.

In addition, the method using compressed air is a device that can move the monitoring camera even in the event of a power failure. The compressed air is stored in a storage tank and the piston is operated by using the stored air when the temperature rises. The method of moving to the present situation is mainly used.

In the safety device of the conventional road monitoring camera configured as described above, the return device is mainly used by a motor driving method and a compressed air method. The motor driving method uses a temperature rise of a furnace wall on which a monitoring camera is mounted. However, it can be used in the case of a failure of the cooling device, but the power source of the motor is not supplied in a situation such as a power failure, there is a problem that damages the expensive surveillance camera.

In addition, the cooling system can be used in the event of a power failure, but the pneumatic equipment for operating the piston must be used, which is also expensive, bulky, and frequently closed in dusty environments. This was there.

An object of the present invention is to form a return means operated by the elastic force of the spring in the upper part of the body of the monitoring camera mounted on the furnace wall to monitor the inside of the furnace, the safety camera outside the furnace in a situation such as in case of power failure The present invention provides a road surveillance camera return device capable of protecting a surveillance camera by moving to.

Another object of the present invention is to use a spring return motor as a conventional monitoring camera return device, to provide a one-way monitoring camera return device to reduce installation and maintenance costs compared to the conventional.

Still another object of the present invention is to provide a camera monitoring apparatus for surveillance to improve the reliability and productability of the product.

1 is a configuration diagram showing an operating state of the present inventors road monitoring camera return apparatus.

Figure 2 is a side view of the present inventors road monitoring camera return apparatus.

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

10-Guide rail 11-Mounting bracket

20-Furnace 30-Surveillance Camera

40-End Connection 50-Spring Return Motor

51-Camshaft 60-Fasteners

The purpose of the present invention, so that the monitoring camera 30 mounted on the furnace wall 20 in order to monitor the inside of the furnace of high temperature difficult to approach the worker can be moved to the outside of the furnace in the situation such as in case of power failure to protect. A guide rail 10 installed at an outer portion of the furnace wall 20 by a fixing bracket 11 and formed at a predetermined interval to the outside;

A connector 40 connected to the body of the guide rail 10 and the body of the surveillance camera 30 to selectively move the surveillance camera 30 to the rear;

The camshaft 51 is installed on the upper side of the guide rail 10 and fixed to the outside of the body to be fixed to the monitoring camera 30 so as to move the monitoring camera 30 to the rear side in case of power failure. The inner side of the cam shaft 51 is achieved by the spring return motor 50 for driving the cam shaft 51 by the elastic force of the spring.

Therefore, in the furnace monitoring camera return apparatus of the present invention, the monitoring camera 30 rides on the guide rails 10 by the operation of the spring return motor 50 located above the monitoring camera 30 at the time of power failure. Since the monitoring camera 30 can be moved to a safe location outside, it is possible to safely protect the monitoring camera 30 in case of power failure.

Therefore, it is possible to reduce the reliability of the product and the maintenance and repair cost of the monitoring camera 30.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention in detail as follows.

1 is a configuration diagram showing the operating state of the present invention the road monitoring camera return apparatus.

Figure 2 is a side view of the present invention road surveillance camera return apparatus.

That is, as shown in FIGS. 1 and 2, the guide rail 10 of the present inventors' road monitoring camera return apparatus may move and protect the monitoring camera 30 outside the furnace in a situation such as in case of power failure. In addition, the outer wall of the furnace wall 20 is installed by the fixing bracket 11 and is formed to have a predetermined length to the outside.

Then, the monitoring camera 30 interconnected by the connector 40 to the guide rail 10 is moved by the selective operation of the spring return motor 50 to be described later.

On the other hand, the spring return motor 50 for selectively moving the surveillance camera 30 to a safe place outside the furnace at the time of power failure, the cam shaft 51 is fixed to the surveillance camera 30 is formed on one side of the body and Inside the body, the camshaft 51 controls the driving by the elastic force of the spring.

In addition, the spring return motor 50 is operated while the power is supplied, while controlling the elastic force of the spring, when the power supply is cut off, such as during power outage, the elastic force of the controlled spring is released and the cam shaft by the restoring force of the spring itself By driving 51, the surveillance camera 30 can be retracted to a safe place outside the furnace as a result to protect the surveillance camera.

That is, the surveillance camera 30 is slidably connected to each other by the guide rail 10 and the connector 40, and the surveillance camera 30 is again the camshaft 51 of the spring return motor 50. In the state that power is normally supplied, the elastic force of the spring is controlled by the driving force of the motor. When the power supply is released, the cam shaft 51 is restored to the original position by the restoring force of the spring and simultaneously monitored. Dragon camera 30 is to be protected by being moved to a safe position on the guide rail (10).

On the other hand, the cam shaft 51 and the monitoring camera 30 is used to form a separate fastener 60 in the body of the monitoring camera 30 in order to smoothly drive the cam shaft 51.

That is, this is to form and use a fastener 60 for smooth driving and linkage of the cam camera 51, which is driven within a 90 ° angle and the monitoring camera 30 to be moved in a linear direction.

In addition, when the temperature of the furnace wall 20 rises, the power supplied to the spring return motor 50 is cut off by the contact by the temperature sensor, and the monitoring camera 30 is moved to the rear side, thereby protecting it as in the case of power failure. have.

Therefore, the furnace monitoring camera return device is an automatic retracting system using the operation of the spring return motor 50. When the cam shaft 51 rotates by 90 °, the moving distance of the monitoring camera 30 is perpendicular to the guide rail 10. Since it is twice the height, by adjusting the distance between the monitoring camera 30 and the guide rail 10, the moving distance can be used to configure the situation and the characteristics of the product.

Therefore, since the present invention has a spring return motor 50 is operated by the elastic force and the restoring force of the spring is formed on the upper body of the surveillance camera 30 for monitoring, when the power supply is cut off, such as during power outages While the elastic force control is released by the spring return motor 50, the camshaft 51 is returned by the spring's self restoring force, and at the same time, the monitoring camera 30 is also moved to a safe position outside the furnace for expensive monitoring. The camera 30 can be protected.

According to the present invention as described above, since the configuration is simple compared to the return device of the conventional monitoring camera 30 can be used even during power failure, it is possible to reduce the installation cost and maintenance cost of the product.

In addition, since the expensive monitoring camera 30 can be more securely protected, it can be usefully used not only in steel mills but also in cement plants, incinerators, power plants, and the like.

Therefore, it is a very useful design that can improve the reliability and marketability of the product.

Claims (1)

On the outside of the furnace wall 20, the surveillance camera 30 mounted on the furnace wall 20 to monitor the inside of the furnace at a high temperature where it is difficult for a worker to approach it can be moved to the outside of the furnace and protected in a situation such as in case of power failure. A guide rail 10 installed by the fixing bracket 11 and formed at a predetermined interval to the outside; A connector 40 connected to the body of the guide rail 10 and the body of the surveillance camera 30 to selectively move the surveillance camera 30 to the rear; The camshaft 51 is installed on the upper side of the guide rail 10 and fixed to the outside of the body to be fixed to the monitoring camera 30 so as to move the monitoring camera 30 to the rear side in case of power failure. Road monitoring camera return device, characterized in that the inner side of the cam shaft 51 is composed of a spring return motor (50) for driving the cam shaft (51) by the elastic force of the spring.