JPH07294158A - Housing for monitor camera - Google Patents

Abstract

PURPOSE:To provide a housing capable of automatically opening a shutter which closes the opening part for monitoring a main housing body only when a sufficient quantity of cooling air is supplied to the main body. CONSTITUTION:When sufficient cooling air is supplied to a main housing body 51, the pneumatic pressure of a cylinder 97 increases, so that a shutter 90 is moved to a position for opening an opening part 53a by a piston 98. When the supply of air to the main housing body 51 is decreased, the pneumatic pressure of the cylinder 97 decreases, so that the shutter 90 is lowered to a position for closing the opening part 53a because of its weight.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an improvement of a surveillance camera housing for protecting the surveillance camera from radiant heat in a furnace.

[0002]

2. Description of the Related Art When a camera is used to monitor the inside of a furnace, it is necessary to protect the camera from radiant heat from the inside of the furnace by cooling the camera with cooling air. A conventional housing used to protect this type of surveillance camera will be described with reference to FIGS.

The housing 10 includes a surveillance camera 20.
It has a housing main body 11 for accommodating the main body 11 and a mounting portion 12 for fixing the main body 11 to the outer wall surface 31 of the furnace 30. The front plate 13 of the main body 11 faces the tip of the lens portion 21 of the camera 20. An opening 13a for monitoring is formed in the portion to be opened. Then, the mounting portion 12 is fixed to the outer wall surface 31 in a state where the opening 13a is aligned with the monitoring window 32 formed in the furnace 30, and the inside of the furnace 30 is monitored by the camera 20 from the opening 13a. Has become.

By the way, since the inside of the furnace 30 is extremely hot, if only the opening 13a is provided, the radiant heat from the inside of the furnace 30 penetrates into the housing main body 11, and the radiant heat causes the camera 20 and the lens 21 to be radiated. Is heated. Therefore, the housing main body 11 is provided with the air supply port 14, and the housing main body 11 is provided with the air supply port 14.
Cooling air is supplied to the inside of the camera 20 as shown in FIG.
Also, the air that has cooled the lens 21 is discharged into the furnace 30 through the opening 13a and the window 32, thereby preventing the camera 20 and the lens 21 from rising above the guaranteed temperature.

Monitoring of the inside of the furnace 30 may be stopped for inspection of the camera 20, and in such a case, the supply of cooling air is stopped while the radiant heat is applied to the housing body 1.
It is necessary to prevent the entry into 1. Therefore, the shutter 40 is provided in the housing body 11. The shutter 40 has a configuration in which shafts 42 and 43 are provided upright on the left and right side surfaces of a plate portion 41 formed in a substantially U-shape, and the plate portion 41 has the same degree as the opening 13a. 41a having a size and shape are formed. Also,
The shutter 40 is projected outward from the left and right side surfaces of the housing 11 with the left and right shafts 42 and 43 slidable, and the plate portion 41 is arranged in contact with the front plate 13. Then, the operator operates the left and right shafts 42, 43.
6 is moved to the left, the opening 13a is closed by the plate 41 as shown in FIGS. 6 and 8A, and when moved to the right, as shown in FIGS. 7 and 8B. And the hole 41a
Is configured to match the opening 13a. Therefore,
By moving the shafts 42, 43 to the right, the furnace 30
The inside can be monitored by the camera 20, and the radiant heat from the furnace 30 can be prevented from entering the housing body 11 by moving the shafts 42 and 43 to the left.

However, in the above-mentioned conventional housing, there is a case where the operator tries to monitor the inside of the furnace by forgetting that the supply of the cooling air is stopped and moving the shafts 42 and 43 to the right. In some cases, during the monitoring of the inside of the furnace, sufficient cooling air may not be supplied into the housing body 11 due to a failure of the blower that is the supply source of the cooling air or other circumstances. When such a situation occurs, the radiant heat in the furnace heats the camera 20 and the lens 21 to damage them.

[0007]

As described above, in the above housing, the shutter for preventing the radiant heat in the furnace from entering the housing body is opened, but the necessary and sufficient cooling inside the body is achieved. There is a case where air is not supplied, and in such a case, there is a problem that the camera and the lens inside the housing are damaged by radiant heat.

The present invention has been made to solve the above-mentioned conventional drawbacks, and a cooling air sufficient for cooling the inside of the shutter which closes the opening formed in the housing body is provided. An object of the present invention is to provide a surveillance camera housing that can be automatically opened only when supplied to the inside of the body.

[0009]

SUMMARY OF THE INVENTION A surveillance camera housing according to the present invention includes a housing body in which a camera is housed and an opening is provided at a portion facing a lens portion of the camera, and a plate for closing the opening. Having a hole and a hole formed in the plate, and being slidable from a first position where the opening is closed by the plate to a second position where the hole faces the opening. A shutter held by the housing body, an air supply port provided in the housing body for supplying air into the housing body,
A cylinder provided in the housing body and supplied with air from the same air supply source as the air supply source for supplying air to the air supply port; and a cylinder provided in the cylinder and connected to the shutter to be supplied into the cylinder. The piston for moving the shutter from the first position to the second position in response to the pressure of the air, and the shutter for moving the shutter to the second position when the pressure of the air in the cylinder falls below a predetermined pressure. And a moving means for moving from the position to the first position.

[0010]

In the present invention, the same air supply source for supplying air to the air supply port and the same air supply source for supplying air for driving the piston for moving the shutter from the first position to the second position to the cylinder. Since it is used, if sufficient air is supplied to the supply port to cool the inside of the housing body, and therefore the pressure of the air supply source is high enough, the pressure of the air supplied to the cylinder will also be Higher and therefore the shutter is moved by the piston into the second position which opens the opening. Further, when the air pressure of the air supply source becomes low, and therefore the amount of air supplied to the air supply port becomes small, the air pressure in the cylinder also decreases, so that the shutter moves from the second position to the first position by the moving means. It is moved to the position and the opening is closed.

[0011]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described in detail below with reference to FIGS. 1 is a side sectional view of the housing with the shutter closed, FIG. 2 is a side sectional view of the housing with the shutter open, and FIG. 3 is a sectional view of the main part of the housing showing the operation of the shutter. 3 is an enlarged view of a circle portion A in FIG. 3B, and FIG. 5 is a sectional view taken along line BB in FIG. 3A.

The housing 50 according to the present invention comprises a housing main body 51 in which a surveillance camera 60 is housed, and a mounting portion 5 for fixing the main body 51 to the outer wall surface 71 of the furnace 70.
2 has a camera 60 on the front plate 53 of the main body 51.
An opening 53a for monitoring is formed in a portion facing the tip of the lens portion 61. Then, the mounting portion 52 is fixed to the furnace wall 71 with the opening portion 53 a positioned so as to match the monitoring window portion 72 formed in the furnace 70. Therefore, as shown in FIGS. 2 and 3B, the camera 60 can monitor the inside of the furnace 70 through the opening 53 a and the window 72.

An air supply port 54 is provided in the lower part of the front surface of the housing body 51, and the air supply port 54 is connected to a blower (air supply source) 81 by a pipe 80. Therefore, from the blower 81 to the housing body 5
As shown in FIGS. 2 and 3 (b), the cooling air supplied into the inside of the main body 1 is discharged into the furnace 70 through the opening 53a and the window 72 after cooling the inside of the main body 51. 70
The camera 60 and the lens 61 are not heated by the radiant heat from the camera.

A shutter 90 is provided in the housing body 51 so as to be in contact with the front plate 53. As shown in FIG. 5, the shutter 90 has a substantially "U" shape.
The shafts 92, 9 are provided on the upper and lower edges of the plate portion 91 formed in a V shape.
3, the plate portion 91 is provided with a hole portion 91a having a size and shape similar to those of the opening portion 53a. The shutter 90 is the housing main body 51.
Pipe parts 55 and 5 provided so as to project above and below
The upper and lower shafts 92 and 93 are inserted into the slide shaft 5 in such a manner that they can slide. When the shutter 90 is at the lowermost end (first position), the opening 53a is closed by the plate portion 91, and when the shutter 90 is at the uppermost end (second position), the hole 91a is opened. It coincides with the part 53a. As shown in FIG. 4, the plate portion 91 and the shafts 92 and 93 have some play, and the opening 53a is closed so that the plate portion 91 can release the air pressure in the housing main body 51. When the plate portion 91 can be sufficiently received, the plate portion 91 is in close contact with the front plate 53, so that the frictional force between them becomes large and the plate portion 91
In the state in which the air pressure is not received so much, the frictional force between the two becomes small, and therefore, it can slide downward along the front plate 53 without being obstructed by the front plate 53.

A cylinder 97 is provided in the lower part of the front side of the housing body 51, and the cylinder 97 is connected to the pipe 80 branched from the above-mentioned pipe 80. Further, the piston 98 in the cylinder 97 is the shutter 9
0 is connected to the lower shaft 93. In addition, the pipe 80,
82 is provided with a pressure reducing valve 84 and a pressure gauge 85,
The air pressure of the air supply source 81 is reduced to a predetermined pressure, and air is supplied to the air supply port 54 and the cylinder 97. Here, in this example, the pressure of the air supplied to the air supply port 54 and the pressure of the air supplied to the cylinder 97 are set as follows.

As shown in FIG. 2, the pipe 8 for supplying a sufficient amount of air for cooling the inside of the housing body 51.
0 air pressure is P _1A , blower 81 air pressure is P ₁ , pipe 8
4 of air pressure when a P _1B, the value of P _1B, the friction between the shutter 90 and the front plate 53 caused by air pressure P _1A when its weight W and the shutter 90 of the shutter 90 is in the first position It is made slightly larger than the sum with the force N (P _1B > P _{1A in} this example). Accordingly, the shutter 90 is the first position, therefore, even when the opening 53a is closed by the shutter 90 as shown in FIG. 1, the air pressure P ₀ of the blower 81
Is smaller than P ₁ , and therefore the air pressure P of the pipes 80 and 82 is
_{When 0A} and P _0B are smaller than P _1A and P _1B , respectively,
The shutter 90 is maintained in the first position, and when the air pressure of the blower 81 rises to P ₁ , the piston 98 moves the shutter 90 to the second position. ), As shown in FIG.
Opens. Further, when the air pressure of the blower 81 decreases and the air pressure of the cylinder 97 becomes smaller than the weight of the shutter 90, the shutter 90 descends due to the weight of the shutter 90, and FIGS.
As shown in (a), the opening 53a is closed.

As described above, in the housing 50 of this embodiment, when the amount of cooling air supplied into the housing main body 51 is sufficient to cool the inside of the main body 51,
When the shutter 90 is moved to the second position by the piston 98 to open the opening 53a and the amount of air supplied into the housing main body 51 decreases, the shutter 90 descends due to its own weight to the first position, The opening 53a is closed. Therefore, the opening 53 is provided only when sufficient air for cooling the inside of the housing main body 51 is supplied to the inside of the main body 51.
Since a is in an open state, there is no possibility that the camera 60 and the lens portion 61 in the main body 51 will be heated by the radiant heat of the furnace 70.

In this example, the weight of the shutter 90 is used as a means for moving the shutter 90 to the first position when the air pressure in the cylinder 97 is reduced. For example, a spring or the like is used. A load may be applied in the direction in which the shutter 90 moves to the first position.

[0019]

As described above, in the housing according to the present invention, the shutter opens the monitoring opening when the air pressure of the air supply source for supplying the air into the housing body is sufficiently high. Moved to the position by the piston,
When the air pressure of the air supply source decreases, the shutter is moved to the first position that closes the opening by the moving means, so that the opening is opened only when sufficient air is supplied into the housing body. . Therefore, if a camera is housed in this housing and the inside of the furnace is monitored, the opening for monitoring is opened only when the inside of the housing body is sufficiently cooled by the cooling air. There is no danger of heating the camera and lens.

[Brief description of drawings]

FIG. 1 is a side sectional view of a housing according to an embodiment of the present invention.

FIG. 2 is a side sectional view of a housing according to an embodiment of the present invention.

FIG. 3 is a cross-sectional view showing the operation of the housing according to the embodiment of the present invention.

FIG. 4 is an enlarged view of a circle portion A in FIG.

FIG. 5 is a sectional view taken along line BB of FIG.

FIG. 6 is a top sectional view of a conventional housing.

FIG. 7 is a top sectional view of a conventional housing.

FIG. 8 is a sectional view showing the operation of the conventional housing.

[Explanation of symbols]

50 Housing 51 Housing Main Body 53a Opening 54 Air Supply Port 60 Camera 61 Lens 81 Air Supply 90 Shutter 91 Plate 91a Hole 97 Cylinder 98 Piston

Claims (1)

[Claims] 1. A housing main body in which a camera is housed and an opening is provided in a portion facing a lens portion of the camera, a plate portion closing the opening portion, and a hole portion formed in the plate portion. A shutter held by the housing main body in a slidable state from a first position where the opening is closed by the plate to a second position where the hole faces the opening; An air supply port provided in the main body for supplying air into the housing main body, and a cylinder provided with air from the same air supply source as the air supply source provided in the housing main body for supplying air to the air supply port, The shutter is provided in the cylinder and is connected to the shutter to move the shutter from the first position to the second position in response to the pressure of the air supplied into the cylinder. Camera, and a moving means for moving the shutter from the second position to the first position when the pressure of air in the cylinder becomes equal to or lower than a predetermined pressure. For housing.