KR101779321B1 - Camera Device of Snout - Google Patents

Abstract

The present invention relates to the camera device of a snout which can significantly reduce the number of cleaning times of a glass plate due to the contamination of ash generated inside the snout in configuring the camera device of the snout. In the camera device of the snout according to the present invention, a nitrogen gas supply module (40) having a glass plate (30) is installed between a duct (10) connected to the inside of the snout (A) and a camera module (20) equipped with a camera (21). The nitrogen gas supply module (40) is branched from a nitrogen gas supply unit (50) to form gas curtain layers on the front surface of the glass plate (30) and at a predetermined distance from the front surface, so that the contamination of the ash introduced to the glass plate (30) through the duct (10) is prevented by the double-layer structure. Therefore, the number of cleaning times of the glass plate can be reduced.

Description

Camera Device of Snout < RTI ID = 0.0 >

The present invention relates to a camera device of Snooth, which is installed at the end of a Snout used for a hot dip galvanizing process and photographs a plating process of a strip.

Snout refers to a device for protecting a strip from an external environment by covering the outer surface of a strip that is between a drawing roller of a heating furnace and a drawing roller of a plating bath in a hot dip galvanizing process or the like.

In order to examine the process of drawing the strip to the bath surface of the plating bath at the end of the Snout, the camera is provided with a duct at the peripheral wall of the Snout, and a glass plate is attached to the end of the duct And a camera was installed behind the glass plate.

The camera installed as described above has a problem that the quality of the image sticks to the front of the glass plate due to the sticking of the ash generated in the inside of the snout when used for a long time and the quality of the image is gradually blurred. .

In order to overcome such inconvenience, there has been proposed a method of forming a gas curtain film by providing a nitrogen gas supply port on the entire surface of a glass plate. However, It is necessary to clean the glass plate once a day once a month because it can not be formed. It is necessary to increase the number of the nitrogen gas supply openings from the above-mentioned conventionally proposed structure to form a gas curtain film In this case, the gas curtain film strength is weakened due to the limitation of the supply amount of nitrogen gas and the supply pressure. In order to overcome this problem, the number of nitrogen gas supply devices There is a problem that the economic burden is increased.

On the other hand, in a conventional camera device, a video output through a camera is mostly monitored by being output to a control panel of a field or a monitor of a management room. In general, a system for processing an output image to cause a warning to be issued when an error occurs . However, such a system has a problem in that a warning person can not immediately recognize a warning when the monitor leaves the management room.

For reference, the following prior art documents are those listed in the latest prior art documents searched with the keyword "Snooth * camera" through Patent Information Net Kiffris, and refer to the following prior art documents Technology field, background technology and its development status.

Public / registration numbers: 1015845770000, 1020130138303, 1015892050000, 1020130044972, 2020000000218.

The present invention aims at solving the technical problem to reduce the cleaning frequency of the glass plate due to the contamination of the ash generated in the Snout in the construction of the camera device of the Snout mentioned in the background art The present invention has the object of the present invention.

It is another object of the present invention to provide an image processing apparatus and method that can monitor an image output through a camera device of Snooth through a smart phone of a manager in real time.

The present invention proposes a means for forming a gas curtain layer in a multilayer by branching from one nitrogen gas supply port and forming a gas curtain layer at a predetermined distance from the front surface of the glass plate and the front surface thereof I want to.

In addition, the present invention adds an APU and a communication terminal for interfacing with a manager's smartphone to a control panel for outputting a video image of a camera, installs a camera monitoring application on an APU of a manager's smartphone and a control panel, A method for registering an interlocking account is suggested.

According to the means proposed by the present invention, the gas curtain layer is formed in a multi-layer structure unlike the conventional Snart's camera apparatus, so that the number of times of cleaning the glass plate can be remarkably reduced compared to the conventional one.

In addition, unlike the conventional camera device of Snooth, the present invention outputs an image output through a camera in real time through a smart phone of a manager.

Figure 1 shows an exemplary embodiment of the present invention
Fig. 2 is an enlarged view showing the camera device taken in Fig. 1
FIG. 3 is an enlarged view of a part of the nitrogen gas supply module in FIG. 2. FIG.
Figure 4 shows another embodiment of Figure 3,
FIG. 5 is a block diagram of a camera in cooperation with a smartphone in FIG.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. It should be understood, however, that the appended drawings may be exaggerated, omitted, or schematically illustrated for convenience of description, and the terms and names used in the description are intended to be implicitly construed according to the shape, And the description of the position will be made on the basis of the drawings unless otherwise specified. And specific descriptions of well-known and commonly-used techniques may be omitted to avoid obscuring the subject matter, or to be omitted or replaced with a simple code or name.

Below, 1  To 3  The present invention is described below with reference to the drawings.

As shown in the figure, a nitrogen gas supply module 40 is installed between a duct 10 connected to the inside of the snout A and a housing in which the camera 21 is mounted.

As shown, the nitrogen gas supply module 40 is in the form of a tubular flange, and the shape of the tubular body may be circular or rectangular in shape of the duct 10 or the housing of the camera 21. Hereinafter, the shape of the tube is assumed to be circular.

As shown in the figure, the nitrogen gas supply module 40 in the form of a tubular flange is provided with a charging hole 41 connected to the inside of the main body of the tubular body from one side of the intermediate outer surface, And is formed in the supply groove 43 along the circumference of the tube at the upper end and the lower end of the branch hole 42. The circumference of the tube body from the inner side of the supply groove 43 to the inner tube And the discharge port 44 is formed along the discharge port 44. [
As shown in the drawing, the injection hole 41, the branch hole 42, the supply groove 43, and the discharge port 44 are connected through a pipe.

As shown in the figure, a nitrogen gas inlet is connected to the charging hole 41.

The gas supplied by the nitrogen gas inlet is divided into the upper and lower supply grooves 43 through the branch holes 42 and the gas thus supplied flows through the respective discharge ports 44 of the inner pipe Layer gas curtain film formed by the upper and lower discharge ports 44 is formed.

The gas curtain layer formed by the above-mentioned operation is more effective than the conventional single-type gas curtain membrane by blocking the inflow of the ash gas against the same supply amount of nitrogen gas and pressure. So that it is possible to remarkably reduce the cleaning frequency of the glass plate 30 with respect to time. Accordingly, the present invention requires only one cleaning of the glass plate 30 once a month, and it is not necessary to separately improve the supply amount and the pressure of the nitrogen gas, Effect can be obtained.

Below, 1  To 3  Hereinafter, configurations that can be added to the present invention will be described with reference to the drawings.

As shown in the figure, the nitrogen gas supply module 40 has a groove 44 formed at the upper end of the inner tube to seat the glass plate 30 and to press and fix the glass plate 30 at the upper end of the nitrogen gas supply module 40 Heat resistant pushing packing 50, which is made of a soft, heat-resistant material.

Conventionally, a glass plate 30 is interposed between the duct 10 and the camera module 20. This is because there is an ash not only inside but also outside of the snout A, There is a problem that the glass plate 30 penetrates from the edge to the center of the glass plate 30 and gets dirty.

Unlike the conventional structure, the glass plate 30 is disposed inside the nitrogen gas supply module 40 to reduce the contamination of the glass plate 30, and the glass plate 30 can be safely protected from the inside. There is an effect that the thickness of the resin layer 30 can be reduced.

As shown in the figure, the duct 10 is connected to the lower end of the nitrogen gas supply module 40 with a heat-resistant packing 60 intercepting heat transmitted from the duct 10 interposed therebetween.

Conventionally, the duct 10, the glass plate 30 and the camera module 20 are connected in series so that the heat of the duct 10 is transmitted to the glass plate 30 and the camera 21 as it is, Resulting in frequent damage and breakdown.

The above-described structure has the effect of reducing damage and failure of the glass plate 30 and the camera 21 by blocking heat transmitted from the duct 10 by adding the heat-resistant packing 60 in the middle, unlike the related art.

As shown in the figure, the camera module 20 is provided with a camera 21 inside a case, and a separate nitrogen gas supply port 50 is connected to the case to supply nitrogen gas into the case.

The camera module 20 is provided with the camera 21 inside the heat resistant case so that the duct 10, the glass plate 30 and the camera module 20 There is a problem that the external Esh flows into the camera module along the clearance of the connection portion to be connected and the upper surface of the glass plate 30 as well as the lens of the camera 21 is contaminated due to the inflowing Esh.

The nitrogen gas supply port 50 is connected to the camera module 20 so that the gas is exhausted along the clearance of the connection portion, The lens of the camera module 21 and the glass plate 30 can be prevented from being contaminated. The nitrogen gas thus supplied is cooled by the ambient temperature of the camera module 20, ) Can be prevented.

As shown in the figure, the nitrogen gas supply port 50 supplied to the nitrogen gas supply module 40 and the camera module 20 connects the vortex tube 51 to the end of the supply hose to supply only the cold gas , And the hot gas is returned to the nitrogen gas generator.

In this way, it is possible to supply only the nitrogen gas in a cold state, thereby preventing the camera 21 from becoming hot, and also, by using the principle of air movement by temperature, There is an effect that the blocking efficiency of the ash that can be introduced into the inside of the nitrogen gas supply module 40 can be further increased.

The duct 10 is provided with a lower duct 10 connected to the main wall of the snout A and an upper duct 10 connected to the nitrogen gas supply module 40. The lower duct 10, And the upper duct 10 is formed with insertion portions 11 and 12 which are in the shape of balls on the opposite sides of the upper and lower ducts 10 and 10 so as to be male and female and a tightening flange 13 of semi- So that the photographing angle of the camera 21 can be freely adjusted.

Although not shown, the female insertion portion 11 is formed with a plurality of cut-out holes 11a opened longitudinally along the outer periphery of the peripheral wall for insertion of the male insertion portion 12, So that the tightening flange 13 can be inserted into the female insertion portion 11 in order to prevent unintentional angle adjustment due to deviation and loosening of the male insertion portion 11 in the right position. So that the correct position of the male insertion portions 11 and 12 can be easily fixed.

Conventionally, the side surface of the Snout A is cut, the duct 10 is mounted on the incision, and then the glass 10 is attached to the end of the duct 10 with the glass plate 30 interposed therebetween. When the installation direction of the duct 10 is inconsistent or the angle is not precise, the module 20 is mounted. In addition, the module 20 is photographed in an unintended direction, There is a problem that the photographing range is narrowed by covering the peripheral wall of the duct 10 when the direction is adjusted.

The duct 10 can be folded in the form of a joint by installing the duct 10 in the form of a ball joint so that the installation of the duct 10 can be simplified. The photographing angle of the camera 21 can be freely adjusted, so that it is possible to photograph a desired place precisely without covering the circumference of the duct 10.

As shown in the figure, a lighting device is installed on one side of the camera device. The lighting device illuminates the inside of the Snout A to be photographed by the camera 21. In the camera device according to the present invention, The lighting module 20a having the illumination lamps 21a may be provided in place of the illumination module 20, and the rest may be configured in the same manner.

Below, 4  Reference will now be made to the following.

As shown in the figure, the supply groove 43 of the nitrogen gas supply module 40 is formed larger than the discharge port 44.

In this way, the action of increasing the supply pressure in the supply groove 43 is effected, whereby the action of distributing the supply pressure uniformly throughout the supply groove 43 occurs, It is possible to strongly discharge the ink.

As shown in the figure, the outlet 44 of the nitrogen gas supply module 40 is formed so as to be narrow and wide at the inlet of the outlet so as to be diffused to the discharge pressure, is inclined to have a directionality, The discharge port 44 is formed so as to be inclined at a viewing angle to the glass plate 30 so that the nitrogen gas can be entirely covered and coated on the glass plate 30, 44 is inclined at an angle to the inlet of the duct 10 so that the ejection pressure of the nitrogen gas may be affected from a distance as far as possible so that the ash introduced from the duct 10 is not as close as possible to the glass plate 30 .

In this way, the shielding ability of the ash introduced from the duct 10 is improved, thereby reducing the number of cleaning times of the glass plate 30 further.

As shown in the figure, the nitrogen gas supply module 40 has a structure in which the supply groove 43 is made larger than the discharge port 44, the discharge port 44 is made smaller, The nitrogen gas supply module 40 is fabricated in such a manner that a line extending from one surface of the upper and lower inner surfaces of the upper and lower discharge ports 44 to one surface of the upper and lower surfaces of the upper and lower supply grooves 43 is defined as a horizontal line The upper flange 40a, the lower flange 40c, and the intermediate connection pipe 40b, and then the opposite surfaces of the upper flange 40a and the lower flange 40c are joined to each other by a step difference. Thereafter, The bolts are fastened together and joined together.

In this way, the nitrogen gas supply module 40 can be manufactured more easily, and the shape, shape, and size of each component can be freely machined, It is possible to remarkably narrow the interval between the two.

Below, 5  The present invention is described below with reference to the drawings.

A camera 21 for photographing a lead-in process of the strip C with a bath surface of the plating bath B is installed at the end of the Snout A, and the camera 21 outputs an image to the monitor through the CPU of the control panel An APU interlocked with the manager's smartphone and a communication terminal connected to the Internet are added to the control panel and a camera monitoring application is installed so that the smartphone of the manager can interact with the APU and the manager, A push server registers an interlocking account for real-time connection with an administrator on the Internet, so that the image output to the monitor can be monitored in real time through the manager's smart phone.

In consideration of the fact that most of the above-mentioned configurations are possessed by smart phones, the manager monitors the images displayed by the camera 21 at any time without monitoring the management room through the image, It is possible to maximize the convenience of management by enabling the remote control by adjusting the CPU of Snooth (A).

In the above, the linked account can be utilized by accessing and registering with Google GCM or Apple APNS, and the push server can communicate with the user through the server of Google or Apple in the same manner as KakaoTalk.

In this case, there is no need to construct a separate server, no separate communication cost is involved, and video and information can be delivered quickly.

Hereinafter, the application of the configuration proposed by the present invention will be described.

In order to facilitate understanding of the principles and principles of the present invention to be pursued by the present invention, the present invention is described in detail with reference to the drawings and specific elements included in the constitution of the present invention and its constitution, The structure, form, shape, arrangement, direction, and quantity are determined in consideration of the principle to be pursued, and various modifications may be made thereto as needed. It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are intended to provide further explanation of the invention as claimed and desired or desirable. It is. Accordingly, the present invention includes all of the above-described configurations, and it is most preferable to complete the present invention. However, the present invention can be completed by selecting or excluding some of the configurations described above according to cost reduction, Or some of the components may be separated and completed in parallel with other components. In addition, each of the constituent elements described above can be applied independently to other technical fields in view of principle, purpose, function, role, action, effect, and the like. Accordingly, the present invention is not limited to the above embodiments and various changes and modifications may be made without departing from the scope of the present invention.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives , modifications and variations will be apparent to those skilled in the art in light of the above teachings. The effect on the part seems to be sufficiently inferable. Those skilled in the art will appreciate that various modifications and changes may be made thereto by those skilled in the art based on the teachings herein without departing from the spirit and scope of the invention.

A: Snout
B: Plating tank
B1: Feed roller
C: Strip
10: Duct
20: Camera module
30: Glass plate
40: Nitrogen gas supply module
50: Press Packing
60: Heat-resistant packing

Claims (3)

A nitrogen gas supply module 40 having a glass plate 30 is installed between a duct 10 connected to the inside of the snout A and a camera module 20 equipped with the camera 21, (A), and is capable of taking an image of an incoming strip (C)
The nitrogen gas supply module 40 is branched from one nitrogen gas supply port 50 to form a gas curtain layer at a predetermined distance from the front surface and the front surface of the glass plate 30, 30 is blocked by the gas curtain layer of the multiple layers,
The nitrogen gas supply module 40 is in the form of a tubular flange and has a chute groove 44 formed at the upper end of the inner pipe so that the glass plate 30 is seated. A branch hole 42 is formed at the outlet of the input hole 41 and branched vertically and the upper and lower ends of the branch hole 42 are respectively connected to the supply groove 43 along the circumference of the pipe body And a discharge port 44 is formed along the circumference of the tube from the inner side of the supply groove 43 to the inner tube of the tube to form a multilayer gas curtain layer,
The supply hole 41, the branch hole 42, the supply groove 43 and the discharge port 44 of the nitrogen gas supply module 40 are connected to each other through a pipeline and the supply groove 43 is larger than the discharge port 44 The upper discharge port 44 is formed to be inclined at a viewing angle to the glass plate 30 while the lower discharge port 44 is formed at a lower end of the duct (10) is inclined at an angle to the entrance,
The nitrogen gas supply module 40 horizontally cuts a line extending from one surface of the upper and lower discharge openings 44 to one surface of the upper and lower inner surfaces of the upper and lower supply grooves 43 as a boundary line 40 ' The lower flange 40c and the intermediate connecting pipe 40b and then the opposite surfaces of the upper flange 40c and the lower connecting flange 40b are joined to each other by a step difference and then a plurality of bolts are vertically fastened to the peripheral wall of the tube, And,
The nitrogen gas supply port (50) of the nitrogen gas supply module (40) includes a vortex tube (51) connected to the end of the supply hose to supply only cool gas.
The method according to claim 1,
The camera 21 of the camera module 20 is provided with an APU for outputting an image to the monitor through the CPU of the control panel and interfacing with the manager's smartphone and a communication terminal connected to the Internet, A camera monitoring application is installed in the manager's smart phone, and an interlocking account is registered on the Internet, which is connected to the communication terminal, to be connected to the manager in real time by a push server. To enable real-time monitoring through the manager's smartphone,
The duct 10 connected to the nitrogen gas supply module 40 includes a lower duct 10 connected to the main wall of the snout A and an upper duct 10 connected to the nitrogen gas supply module 40 And the lower duct 10 and the upper duct 10 are formed with inserting portions 11 and 12 which are male and female engageable with each other by a ball-shaped tubular body. At the center of the outer surface of the engaging portion, a tightening flange 13 are combined to freely adjust the photographing angle of the camera 21,
The camera device comprising:
The method according to claim 1,
The duct 10 is connected between the nitrogen gas supply module 40 and the duct 10 with the heat-resistant packing 60 interposed therebetween to block heat transmitted from the duct 10,
The camera module 20 is provided with a camera 21 inside a case, and a nitrogen gas supply port 50 is connected to one side of the case to supply nitrogen gas into the case. The nitrogen gas supply port 50 is a system in which the vortex tube 51 is connected to the end of the supply hose to supply only cold gas,
The camera device comprising:

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