JPH05304625A - Video camera - Google Patents

Abstract

PURPOSE:To facilitate attaching while saving a space by bending the optical axial direction of an optical block by 90 deg. against the longitudinal direction of a camera main body by using an adaptor, and using it at the time of attaching the video camera to each kind of industrial equipment. CONSTITUTION:A monitoring video camera 11 is constituted of a square case 12 whose cross-sectional shape is a square incorporating a CCD driving circuit and a signal processing circuit (not indicated), and a camera main body 15 whose power cable 14 is connected with a connector base 13 attached to the back end 12b of the case 12 is attached. And also, a square case 17 is provided at the front end of the case 12 so as to be freely fittable, and this is constituted of a front face 17a to which an optical lens 18 is attached, optical block 19 incorporating a CCD (not indicated), and rectangular cylindrical adaptor 21. And also, the adaptor 21 is equipped with an insertion part 21a for inserting the main body 15 into the top end 12a of the case 12, and an attachment part 21b for the integrated block 19. And also, the case 12 is equipped with a longitudinal direction insertion hole 21c, and a rectangular direction insertion hole 21d for inserting the main body 15.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a video camera most suitable for being applied to a surveillance video camera which is used by being attached to various industrial devices.

[0002]

2. Description of the Related Art Conventionally, as a surveillance video camera which is used by being attached to various industrial devices, for example, Japanese Patent Laid-Open No.
There is one described in Japanese Patent Publication No. 260978.

As shown in FIG. 14, the conventional surveillance video camera 1 has a tip 2 of a case 2 of a rectangular tube type.
The optical lens 3 is integrally attached to a, and a CCD (solid-state image sensor and its drive circuit and signal processing circuit is built in the case 2 and a power cable 4 is connected to the rear end 2b of the case 2 of a one-piece type. It was connected to a microstructure.

[0004]

However, in the conventional surveillance video camera 1, since the optical axis direction F of the optical lens 3 is fixed in the longitudinal direction L ₁ of the case 2, the surveillance video camera 1 is provided. When the optical axis direction F of the optical lens 3 is set by a mounting bracket 6 or the like so as to set the optical axis direction F of the optical lens 3 at right angles to a vertical camera mounting surface 5 such as a pillar or a wall of various industrial devices, the surveillance video camera 1 The entire length L _{2 of the above} becomes the protrusion amount from the camera mounting surface 6 as it is.

Therefore, the conventional surveillance video camera 1 is
There is a problem that the mounting space when mounting on various industrial devices becomes large.

The present invention has been made to solve the above problems, and an object of the present invention is to provide a video camera that can be mounted on various industrial devices in a space-saving manner.

[0007]

According to a first aspect of the video camera of the present invention for achieving the above object, there is provided a camera body, an optical block at the tip of the camera body, and an optical axis direction of the optical block. It is provided with means for changing the longitudinal direction of the camera body and the other directions. According to a second aspect of the present invention, an adapter is used as means for varying the optical axis direction of the optical block between the longitudinal direction of the camera body and the other directions. According to a third aspect of the present invention, the adapter is provided with first and second insertion holes into which the optical block can be inserted from a longitudinal direction of the camera body and a direction perpendicular to the longitudinal direction. Claim 4
Uses a multifaceted connector as a means for changing the optical axis direction of the optical block between the longitudinal direction of the camera body and other directions. According to a fifth aspect of the present invention, the multifaceted connector is configured by a case of the optical block formed in a square shape, and the plurality of connector pins attached to the tip of the camera body and parallel to the longitudinal direction of the camera body, and the case of the case. It is provided with a plurality of connector pin insertion holes formed on the back surface and four side surfaces.

[0008]

According to claim 1 of the video camera of the present invention configured as described above, the optical block can be used by bending the optical axis direction of the optical block at 90 ° or the like with respect to the longitudinal direction of the camera body. .. According to a second aspect of the present invention, the optical axis direction of the optical block is set to 90 degrees with respect to the longitudinal direction of the camera body by using the adapter.
Can be bent to ° etc. According to a third aspect of the present invention, by merely inserting the optical block into the first and second insertion holes of the adapter, the optical axis direction of the optical block is a longitudinal direction of the camera body and a state of being bent at 90 ° with respect to the longitudinal direction. You can easily switch to. Claim 4 uses a multi-faced connector,
The optical axis direction of the optical block can be bent in a plurality of directions at 90 ° or the like with respect to the longitudinal direction of the camera body. According to a fifth aspect of the present invention, the optical axis direction of the optical block can be changed by selectively inserting the connector pin insertion holes on the back surface or the four side surfaces of the case formed in the multi-faced connector of the optical block into the connector pin of the camera body. It is possible to easily switch between the longitudinal direction of the camera body and the state in which the camera body is bent at 90 ° in four directions.

[0009]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment in which the present invention is applied to a surveillance video camera will be described below with reference to FIGS.

First, a first embodiment of a surveillance video camera will be described with reference to FIGS.

Surveillance video camera 1 which is a video camera
1 is CC in a square tube type case 12 with a square cross section.
The D drive circuit and the signal processing circuit (neither shown) are built in, and the connector board 13 at the rear end 12b of the case 12
A camera body 15 to which a power cable 14 is connected, an optical lens 18 attached to a front surface 17a of a square case 17, and an optical block 19 having a CCD (not shown) built in the case 17, And an adapter 21 of.

The adapter 21 is used for the camera body 1
5, the insertion portion 21a for detachably inserting into the tip 12a of the case 12, and the attachment portion 21b for the optical block 19.
And the case 17 of the optical block 19 are attached to the mounting portion 21b of the camera body 15 (case 12
( ₁ ) A rectangular tube-shaped first insertion hole 21c for inserting from the direction of the arrow a along the longitudinal direction L ₁ , and a rectangular tube-type for inserting from the direction of the arrow b in a direction perpendicular to the longitudinal direction L ₁ . The second insertion hole 21d is formed.

Therefore, according to this surveillance video camera 11, as shown in FIGS. 2 and 4, the insertion portion 21a of the adapter 21 is inserted into the front end 12a of the case 12 of the camera body 15.
Insert the case 17 of the optical block 19 into the first insertion hole 21c of the adapter 21 in the direction indicated by the arrow a.
Insert it from the direction and attach the adapter 21 to the camera body 15.
When the optical block 19 is detachably attached via the, the optical axis direction F of the optical block 19 is set to the longitudinal direction L ₁ of the camera body 15.

Also, as shown in FIGS. 3 and 5, the case 17 of the optical block 19 is inserted into the second insertion hole 21d of the adapter 21 from the direction of the arrow b, and is similarly detachably attached to the camera body 15. Optical block 1
The optical axis direction F of 9 is set to be bent at 90 ° with respect to the longitudinal direction L ₁ of the camera body 15.

At this time, the case 1 of the camera body 15
2, the drive circuit and the signal processing circuit, and the optical block 19
The CCD in the case 17 is electrically connected by a cable with a connector (not shown) that can be connected or separated.

Then, as shown in FIGS. 2 and 3, the optical axis direction F of the optical block 19 is the longitudinal direction L ₁ of the camera body 15 and when the optical block 19 is bent at 90 ° with respect to the longitudinal direction L ₁ . In either case, the total length L ₂ and the total width W ₁ of the surveillance video camera 11 are substantially constant.

Next, a second embodiment of the surveillance video camera will be described with reference to FIGS.

The surveillance video camera 11 has a connector board 23 at the tip 12a of the case 12 of the camera body 15.
A plurality of connector pins 24 are attached to the connector board 23 in parallel with the longitudinal direction of the camera body 15.

On the other hand, except the front surface 17a of the case 17 of the optical block 19 to which the optical lens 18 is attached,
Back 17b and four sides 17c, 17d, 17e, 1
A plurality of connector pin insertion holes 25 are formed in each of 7f, and the case 17 itself is formed in the multifaceted connector 26. The first pin 24a of the plurality of connector pins 24 and the plurality of connector pin insertion holes 25
Only the insertion hole 25a of the first pin 24a has a larger diameter than the other connector pins 24 and the other connector pin insertion holes 25.

Therefore, according to this surveillance video camera 11, as shown in FIG. 7, the rear surface 17b of the case 17 formed on the multifaceted connector 26 of the optical block 19 is formed.
When the optical block 19 is electrically and mechanically connected to the camera main body 15 by inserting the optical block 19 into the plurality of connector pins 24 of the camera main body 15 from the direction of the arrow a through the plurality of connector pin insertion holes 25. The axial direction F is set to the longitudinal direction L ₁ of the camera body 15.

As shown in FIG. 8, the optical block 1
Case 17 configured as a multi-faced connector 26 of 9
One side 17c of the connector pin insertion hole 25
When the optical block 19 is electrically and mechanically connected to the camera body 15 by inserting it into the plurality of connector pins 24 of the camera body 15 from the direction of the arrow a, the optical axis direction F of the optical block 19 is the longitudinal direction of the camera body 15a. The optical lens 18 is set to be bent at 90 ° with respect to the direction L ₁ , and the optical lens 18 faces in the direction of arrow c.

Therefore, in the same manner, the insertion surface of the case 17 for the plurality of connector pins 24 is changed to the other three side surfaces 1.
By simply switching to 7d, 17e, and 17f, the direction of the optical lens 18 can be sequentially switched to the directions of arrows d, e, and f.

Also in this case, as shown in FIGS. 7 and 8, the total length L ₂ and the total width W ₁ are substantially constant as described above.

As described above, this surveillance video camera 1
According to 1, the optical axis direction F of the optical block 19 is the longitudinal direction L ₁ of the camera body 15 and is 9 with respect to the longitudinal direction L ₁ .
Since it can be used by freely switching to a state in which it is bent at 0 °, the optical axis direction F of the optical block 19 of the surveillance video camera 11 can be changed to various industries as shown in the mounting state A of FIG. Vertical camera mounting surface 5 such as a device pillar or wall
In the case where the optical block 19 is mounted so as to be set at a right angle to the camera body 15, the optical axis direction F of the optical block 19 is bent at 90 ° with respect to the longitudinal direction L ₁ of the camera body 15, and the camera body 15 is placed vertically. It can be mounted parallel to the camera mounting surface 5.

Further, as shown in the mounting state B of FIG. 9, the optical axis direction F of the optical block 19 of the surveillance video camera 11 is set to the horizontal camera mounting surface 7 such as a beam or arm of various industrial devices. In the case of mounting so as to be parallel to each other, the camera body 15 is mounted on the horizontal camera mounting surface 7 with the optical axis direction F of the optical block 19 set to the longitudinal direction L ₁ of the camera body 15 as in the conventional case. It should be installed parallel to.

Therefore, in any of the mounting states A and B shown in FIG. 9, the projecting margin of the surveillance video camera 11 from the camera mounting surface 5 or 7 is a very small mounting of only the entire width W ₁ of the camera body 15. Since the space is provided, the surveillance video camera 11 can be installed in various industrial devices in a space-saving manner.

Next, FIGS. 10 to 13 show a mounting device of the surveillance video camera 11 to various industrial devices, and FIGS. 10 and 11 show the case 12 of the camera body 15.
A pair of magnet plates 28 are attached to the upper and lower surfaces 12c and 12d of the camera so that the camera body 15 can be easily magnetically attracted to the metal member 29 of various industrial devices by the magnet plates 28 from either side of the upper and lower surfaces 12c and 12d. It is the one.

Further, FIG. 12 shows a surveillance video camera 11
The case 12 of the camera body 15 is made of metal, and the camera body 15 can be easily magnetically attracted to the metal member 29 of various industrial devices by using the magnet pedestal 30 made of a magnet. In this case, magnetic attraction can be performed from any of the four side surfaces of the camera body 15.

FIG. 13 shows a surveillance video camera 11
Of the industrial video equipment, the monitoring video camera 11 is provided with the magnet plate 28 and the magnet pedestal 30 on the metal cover 34 of the illuminator such as the fluorescent lamp 33 that illuminates the subject 32 on the table 31 of various industrial devices. There is a convenience that it can be easily magnetically attracted by using it, and that it is not necessary to use a dedicated mounting metal or the like. In addition, 35 is a fluorescent lamp stand.

The above is a description of one embodiment of the present invention.
The present invention is not limited to the above embodiments, and various modifications can be made based on the technical idea of the present invention.

[0031]

The video camera of the present invention constructed as described above has the following effects.

According to the present invention, the optical axis direction of the optical block can be bent at 90 ° with respect to the longitudinal direction of the camera body for use, so that the space saving of the video camera for various industrial devices can be achieved. Can be installed.

According to a second aspect, by using an adapter, the optical axis direction of the optical block is 90 degrees with respect to the longitudinal direction of the camera body.
The optical block can be bent at an angle such that the operation of switching the optical block in the optical axis direction can be easily performed.

According to a third aspect of the present invention, by merely inserting the optical block into the first and second insertion holes of the adapter, the optical axis of the optical block is bent at the longitudinal direction of the camera body and at 90 ° to the longitudinal direction. Since it is possible to easily switch to the above state, it is possible to easily switch the optical block in the optical axis direction.

According to a fourth aspect of the present invention, a multifaceted connector is used.
Since the optical axis direction of the optical block can be bent in a plurality of directions at 90 ° or the like with respect to the longitudinal direction of the camera body, there are restrictions on the installation location of the video camera in various industrial devices. Lost.

According to a fifth aspect of the present invention, by simply inserting the connector pin insertion holes on the back surface or four side surfaces of the case formed in the multi-faceted connector of the optical block into the connector pins of the camera body, the light of the optical block can be obtained. Since the axial direction can be easily switched between the longitudinal direction of the camera body and the state of being bent in four directions at 90 ° to that, the optical axis direction of the optical block can be changed to the longitudinal direction of the camera body. In addition, at 90 ° to that, the operation for easily switching to the state of bending in four directions can be easily performed, and an adapter or the like need not be used.

[Brief description of drawings]

FIG. 1 is an exploded perspective view showing a first embodiment of a video camera of the present invention.

FIG. 2 is a perspective view of an optical block of the video camera of the first embodiment when the optical axis direction is set in the longitudinal direction of the camera body.

FIG. 3 is a perspective view of the optical block of the video camera of the first embodiment when the optical axis direction is bent at 90 ° with respect to the camera body.

4 is a partially cutaway side view of FIG. 2. FIG.

5 is a partially cutaway side view of FIG. 3. FIG.

FIG. 6 is an exploded perspective view showing a second embodiment of the video camera of the present invention.

FIG. 7 is a perspective view when the optical axis direction of the optical block of the video camera of the second embodiment is set to the longitudinal direction of the camera body.

FIG. 8 is a perspective view when the optical axis direction of the optical block of the video camera of the second embodiment is bent with respect to the longitudinal direction of the camera body.

FIG. 9 is a perspective view illustrating a method of attaching the video camera of the present invention to various industrial devices.

FIG. 10 is a perspective view illustrating a magnet plate for attachment to a metal member of the video camera of the present invention.

FIG. 11 is a partially cutaway front view illustrating a method of attaching a video camera of the present invention to a metal member using a magnet plate.

FIG. 12 is a partially cutaway front view for explaining a method of attaching a video camera of the present invention to a metal member using a magnet pedestal.

FIG. 13 is a perspective view illustrating an example of use of the video camera of the present invention.

FIG. 14 is a perspective view showing a method of attaching a conventional surveillance video camera to various industrial devices.

[Explanation of symbols]

11 Surveillance video camera (video camera) 15 Camera body 19 Optical block 21 Adapter 24 Connector pin 25 Connector pin insertion hole 26 Multi-faced connector F Optical block optical axis direction L ₁ Longitudinal direction of camera body

Claims (5)

[Claims] 1. A video camera comprising: a camera body; an optical block at the tip of the camera body; and means for varying the optical axis direction of the optical block between the longitudinal direction of the camera body and other directions. 2. The video camera according to claim 1, wherein an adapter is used as means for changing the optical axis direction of the optical block between the longitudinal direction of the camera body and the other directions. 3. The adapter is provided with first and second insertion holes into which the optical block can be inserted in a longitudinal direction of the camera body and a direction perpendicular to the longitudinal direction. The video camera described in 2. 4. A video camera using a multifaceted connector as means for varying the optical axis direction of the optical block between the longitudinal direction of the camera body and the other directions. 5. The multifaceted connector is constituted by a case of the optical block formed in a square shape, and is attached to the tip of the camera body, and has a plurality of connector pins parallel to the longitudinal direction of the camera body. The video camera according to claim 4, further comprising a plurality of connector pin insertion holes formed on a back surface and four side surfaces of the case.