KR20190021644A - Security camera - Google Patents

Abstract

According to the present invention, disclosed is a surveillance camera which comprises: a housing having a light transmitting window; a shaft arranged to pass through the housing; and a wiper unit coupled to the shaft and cleaning the light transmitting window. The wiper unit includes: a blade which cleans the light transmitting window; a blade housing to which the blade is coupled; a fixation unit which is coupled to the shaft and connected to be able to rotate one end of the blade housing; a connection bracket which is arranged to be separated from a part to which the fixation unit and the blade housing are connected in a lengthwise direction of the blade, and connected to the blade housing; and a connection member which connects the connection bracket and the fixation unit.

Description

Security camera {Security camera}

The present invention relates to an apparatus, and more particularly, to a surveillance camera.

A general surveillance camera is a device installed in various places and collecting images. Such a surveillance camera may be provided in a housing or a housing for protecting the camera and the camera, and may have a transmission window through which light is transmitted. At this time, the performance of the surveillance camera may depend on the camera.

On the other hand, the surveillance camera may be disposed outside the building in many cases. At this time, water droplets may be formed on the transmission window depending on the temperature difference between the outside and the inside of the housing, and the weather outside. These droplets not only bend the light coming into the transmission window but also can not obtain a clear image by deforming the image taken by the internal camera. In order to solve the above problems, various devices and structures may be provided in the surveillance camera.

Such a surveillance camera is disclosed in Korean Patent Laid-Open Publication No. 2015-0142378 (entitled "Surveillance Camera Device, Applicant: Hanhwa Techwin Co., Ltd.").

Korea Patent Publication No. 2015-0142378

Embodiments of the present invention provide a surveillance camera.

According to an aspect of the present invention, there is provided a vacuum cleaner comprising: a housing having a transmission window; a shaft disposed to penetrate the housing; and a wiper part coupled to the shaft and cleaning the transmission window, A fixed portion that is coupled to the shaft and to which one end of the blade housing is rotatably connected; and a connection portion that connects the fixed portion and the blade housing in a longitudinal direction of the blade And a connection member for connecting the connection bracket and the fixing unit. The surveillance camera according to the present invention includes:

The wiper section may further include an elastic section disposed between the connection member and the fixing section.

The fixing part may include a coupling part to be engaged with the shaft, and a support part that is bent from the coupling part and is pivotally coupled to the blade housing at an end thereof.

The shaft further includes: a first shaft coupled with the housing; a second shaft coupled to the first shaft and coupled to the wiper portion; and a second shaft disposed between the first shaft and the second shaft, And a universal joint connecting the shaft and the second shaft.

The apparatus may further include a fixing bracket coupled to the housing, a driving unit disposed on the fixing bracket, coupled with the shaft, and a circuit board coupled with the fixing bracket.

The apparatus may further include a rotation unit coupled to the shaft so as to be closer to the driving unit, and a sensing unit disposed on the circuit board to measure a degree of rotation of the rotation unit.

Embodiments of the present invention are easy to assemble and can prevent malfunctions after assembling. Embodiments of the present invention enable efficient cleaning of the transmission window.

1 is a perspective view showing a part of a surveillance camera according to an embodiment of the present invention.
Fig. 2 is a sectional view showing a part of the surveillance camera shown in Fig. 1. Fig.
3 is a perspective view showing the wiper section shown in Fig.
4 is a perspective view showing the shaft, the engaging portion and the shaft fixing bracket shown in Fig. 1;
5 is a perspective view showing the driving unit, the fixing bracket, the sensing unit, and the rotation unit shown in FIG.

BRIEF DESCRIPTION OF THE DRAWINGS The present invention will become more apparent from the following detailed description taken in conjunction with the accompanying drawings, in which: FIG. The present invention may, however, be embodied in many different forms and should not be construed as being limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art. Is provided to fully convey the scope of the invention to those skilled in the art, and the invention is only defined by the scope of the claims. It is to be understood that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. In the present specification, the singular form includes plural forms unless otherwise specified in the specification. It is noted that the terms "comprises" and / or "comprising" used in the specification are intended to be inclusive in a manner similar to the components, steps, operations, and / Or additions. The terms first, second, etc. may be used to describe various elements, but the elements should not be limited by terms. Terms are used only for the purpose of distinguishing one component from another.

1 is a perspective view showing a part of a surveillance camera according to an embodiment of the present invention. Fig. 2 is a sectional view showing a part of the surveillance camera shown in Fig. 1. Fig.

1, the surveillance camera 100 includes a housing 110, a shaft 120, a force unit 130, a shaft fixing bracket 140, a wiper unit 150, a fixing bracket 160, a driving unit 170 A circuit board 180, a rotation unit 191, and a sensing unit 192.

The housing 110 may include a transmission window 111 through which light is transmitted from the outside. At this time, the transmission window 111 may be formed of a material that transmits light such as acrylic or glass. The housing 110 may be formed of a hard material such as synthetic resin or metal. At this time, a space may be formed in the housing 110 and may be engaged with the shaft fixing bracket 140. In this case, one of the housing 110 or the shaft fixing bracket 140 may include a coupling protrusion (not shown). In addition, another one of the housing 110 and the shaft fixing bracket 140 may be formed with an insertion groove (not shown) into which a coupling protrusion (not shown) is inserted. At this time, the engaging projection may be inserted into the insertion groove and then fixed through bolts, screws or the like. Hereinafter, for convenience of explanation, the housing 110 includes the coupling protrusion and the shaft fixing bracket 140 includes the insertion groove.

The shaft 120 may be rotatably connected to the housing 110 and connected to the driving unit 170. The shaft 120 can transmit the rotational force of the driving unit 170 to the wiper unit 150. [

The engaging portion 130 can be inserted into the shaft 120 and disposed between the wiper portion 150 and the housing 110. At this time, the housing 110 may be formed with a receiving groove 113 into which the pressing portion 130 is inserted. In this case, the engaging portion 130 may be in a compressed state to force the wiper portion 150 with a predetermined force. In particular, the engaging portion 130 may include a compression spring, an elastic bar, and the like.

The shaft fixing bracket 140 can be coupled with the housing 110 to support the shaft 120 in a rotatable manner. At this time, the shaft fixing bracket 140 can penetrate the shaft 120 at the center portion, and the insertion groove can be provided at the side surface.

A bearing 193 may be disposed inside the shaft fixing bracket 140 and a shaft 120 may be disposed inside the bearing 193. [ The first sealing portion 194 is disposed in the housing 110 and the second sealing portion 195 is disposed in the shaft fixing bracket 140 to block moisture moving along the shaft 120. At this time, the shaft 120 may be inserted into the first sealing portion 194 and the second sealing portion 195. The first sealing portion 194 may be disposed between the receiving groove 113 and the shaft 120 and the second sealing portion 195 may be disposed inside the shaft fixing bracket 140. The first sealing portion 194 and the second sealing portion 195 may be formed in an O-ring shape.

The wiper part 150 may be connected to the shaft 120 and may partially contact the transmission window 111. In addition, the wiper part 150 can rotate in accordance with the rotation of the shaft 120, thereby cleaning the transmission window 111.

The fixing bracket 160 may be disposed inside the housing 110 or inside a main housing (not shown) to be described later. At this time, the fixing bracket 160 can fix the driving unit 170 and the circuit board 180.

The driving unit 170 may be fixed to the fixing bracket 160. At this time, a space may be formed in the fixing bracket 160 so that the driving unit 170 is seated. The driving unit 170 may be connected to the shaft 120 to rotate the shaft 120. In this case, the driving unit 170 may include a motor rotatable in both directions.

The circuit board 180 may be disposed on the stationary bracket 160 and fixed to the stationary bracket 160. At this time, the circuit board 180 can control the surveillance camera 100 and can detect or analyze an image photographed by a camera (not shown).

The rotation unit 191 may be connected to the shaft 120. In addition, the sensing unit 192 may be disposed and fixed on the circuit board 180. At this time, the sensing unit 192 may sense the rotation of the rotation unit 191.

The surveillance camera 100 may include the camera disposed inside the housing 110 in addition to the above configuration. In addition, the surveillance camera 100 may include the main housing coupled with the housing 110. At this time, the fixing bracket 160 may be fixed to the main housing. The surveillance camera 100 may include a housing 110 or a cooling fan (not shown) disposed inside the main housing.

In operation of the surveillance camera 100, an external image can be captured through the camera. At this time, light passing through the transmission window 111 may be incident on the camera.

During the operation as described above, foreign matter such as water droplets or dust may adhere to the transmission window 111 due to dew, sexuality or the like. The surveillance camera 100 may rotate the wiper unit 150 to remove such foreign matter.

Specifically, when the driving unit 170 is operated, the rotational force of the driving unit 170 can be transmitted to the wiper unit 150 through the shaft 120. The wiper part 150 can remove foreign substances from the transmission window 111 by repeating the rotation movement at a predetermined angle.

In this case, the sensing unit 192 and the rotation unit 191 can measure the rotation angle of the shaft 120 and sense the rotation direction of the shaft 120 and the like. The driving unit 170 may determine the operation direction of the driving unit 170 based on the result detected by the sensing unit 192.

Therefore, the surveillance camera 100 can effectively remove foreign matter from the transmission window 111. [ Even when the rotation center of the driving unit 170, the shaft 120 and the wiper unit 150 are shifted from each other due to tolerances during installation or operation, the surveillance camera 100 can be operated by the wiper unit 150, As shown in Fig.

Hereinafter, the configuration and operation of each component will be described in detail.

3 is a perspective view showing the wiper section shown in Fig.

3, the wiper portion 150 may include a blade 151, a blade housing 152, a fixing portion 153, a connection bracket 154, a connecting member 155, and a resilient portion 156 have.

The blade 151 can engage with the blade housing 152. At this time, the portion of the blade 151 that engages with the blade housing 152 can be interchangeably coupled to the blade housing 152 by having a concave-convex structure on the surface.

The blade housing 152 can fix the blade 151 and can be connected to the fixing portion 153. At this time, the blade housing 152 may include a fixing protrusion 152a to be inserted into a part of the concavo-convex structure of the blade 151.

The fixing portion 153 can connect the shaft (not shown) and the blade housing 152. At this time, the fixing portion 153 may include a coupling portion 153a to which the shaft is coupled and a support portion 153b to be bent from the coupling portion 153a. The engaging portion 153a is formed to be the same as or similar to the outer shape of the shaft, so that the shaft can be engaged. At this time, the engaging portion 153a may be inserted into the shaft or inserted into the shaft. Further, the engaging portion 153a is capable of adjusting the position of engagement with the shaft in the longitudinal direction of the shaft. In this case, the engaging portion 153a may include a plurality of holes into which bolts, screws, and the like are inserted to fix the shaft and the engaging portion 153a after the shaft is inserted. The support portion 153b can be bent at an angle from the engaging portion 153a. At this time, the support portion 153b may form a right angle with the engaging portion 153a. The support portion 153b can connect the blade housing 152 to be rotatable. In particular, the blade housing 152 may be connected to the end of the support portion 153b. In this case, the blade housing 152 is not separated from the support portion 153b at the end of the support portion 153b, so that the contact force between the blade 151 and the transmission window (not shown) can be maintained during operation of the blade 151. [

The connection bracket 154 can connect the fixing portion 153 and the blade housing 152. At this time, the connection bracket 154 can connect the side surface of the blade housing 152 and the lower surface of the support portion 153b.

The connecting member 155 can fix the connecting bracket 154 to the supporting portion 153b. At this time, the connecting member 155 may be formed in the form of a stud bolt. The connection member 155 can adjust the distance between the connection bracket 154 and the support portion 153b.

The resilient portion 156 may be disposed between the support portion 153b and the connection bracket 154 to provide the connection force to the connection bracket 154. [ The elastic portion 156 may include a compression spring or an elastic bar formed of an elastic material such as rubber, silicone, or the like. At this time, the connecting member 155 may be inserted into the elastic portion 156. In particular, the resilient portion 156 may be compressed to have a length less than the initial length. In this case, the elastic portion 156 can maintain the contact force between the blade 151 and the transmission window constant in the longitudinal direction of the blade 151 by pressing the blade housing 152 through the connection bracket 154. If the blade 151 is fixed when the blade 151 is moved in a state where the transmission window is in contact with the blade 151 and the blade 151 is in contact with the blade 151, The contact force between the window and the blade 151 may be reduced. When the blades 151 are not aligned horizontally in the structure in which the blades 151 are simply fixed, due to various causes such as design tolerances, assembly tolerances, etc., the transmission window and the blade 151 in the longitudinal direction of the blades 151, Can be different from each other. In addition, when the blade 151 is fixed at the center or pressed at the center, half force is generated at both ends of the blade 151, so that both ends of the blade 151 are not in contact with the transmission window or uniform contact force is not generated have. The blade 151 is rotatably supported at the end of the support portion 153b while the blade 151 is pressed through the elastic portion 156 at the other end of the blade 151, It is possible to uniformly form the contact force generated by the contact with the window. In particular, the elastic portion 156 can prevent the blade from moving toward the support portion 153b when the blade 151 moves in contact with the transmission window.

When the contact forces at both ends of the blade 151 are different from each other, the above problem can be solved by adjusting the connecting member 155.

Therefore, the surveillance camera 100 can effectively remove the foreign substance of the transmission window by keeping the contact force between the blade 151 and the transmission window constant. In addition, the surveillance camera 100 can maintain the contact force between the transmission window and the blade 151 uniformly in the longitudinal direction of the blade 151.

4 is a perspective view showing the shaft, the engaging portion and the shaft fixing bracket shown in Fig. 1;

Referring to FIG. 4, the shaft 120 may include a first shaft 121, a universal joint 123, and a second shaft 122.

The first shaft 121 and the second shaft 122 may be formed in a bar shape. The first shaft 121 may be connected to the wiper unit 150 and the second shaft 122 may be connected to the driving unit 170. The first shaft 121 can be inserted into the shaft fixing bracket 140. In addition, the second shaft 122 may be integrally formed with the rotary shaft of the driving unit (not shown) or formed separately and connected to each other. At this time, the rotation shaft of the second shaft 122 and the driving unit may be connected through a rotation unit (not shown). Hereinafter, for convenience of explanation, the second shaft 122 and the case of being formed separately from the rotational axis of the driving unit will be described in detail. The universal joint 123 may be disposed between the first shaft 121 and the second shaft 122 to connect the first shaft 121 and the second shaft 122 to each other. At this time, the universal joint 123 stably transfers the rotational force of the driving unit 170 to the end of the first shaft 121 even when the first shaft 121 and the second shaft 122 are not properly installed at a predetermined position . That is, the universal joint 123 may be configured such that at least one of the first shaft 121 and the second shaft 122 is not installed in a proper position, or the rotation centers of the first shaft 121 and the second shaft 122 are It is possible to transmit the rotational force of the driving unit 170 to the second shaft 122 through the first shaft 121. [

The shaft 120 may be provided with a catching portion 130. At this time, the engaging part 130 can apply the wiper part (not shown) in the longitudinal direction of the shaft 120 in the same or similar manner as described above. At this time, the engaging part 130 can adjust the contact force between the wiper part and the transmission window (not shown).

The shaft fixing bracket 140 can be coupled with a housing (not shown) to support the shaft 120 in a rotatable manner. At this time, a first sealing portion 194 is disposed on the front surface of the bearing 193 inside the shaft fixing bracket 140 so that water is supplied into the bearing 193 or the shaft fixing bracket 140 through the first shaft 121 Can be blocked.

Meanwhile, the shaft 120 may rotate according to the operation of a driving unit (not shown). In this case, when the first shaft 121 and the second shaft 122 are integrally formed, when the rotation of the driving unit is transmitted to the end of the shaft 120, the end of the shaft 120 may not circularly move at one point have. In such a case, it may cause vibration, and may cause damage or breakage of at least one of the driving unit and the shaft 120.

However, by using the universal joint 123 as described above, the rotation of the driving unit can be prevented from being transmitted to the first shaft 121 even if the installation position of the first shaft 121 and the second shaft 122 is shifted from the existing design position, It is possible to accurately transmit the signal to the antenna 121.

Therefore, a surveillance camera (not shown) can realize accurate movement of the wiper part (not shown).

5 is a perspective view showing the driving unit, the fixing bracket, the sensing unit, and the rotation unit shown in FIG.

Referring to FIG. 5, the driving unit 170 may be connected to the second shaft 122. At this time, the driving unit 170 may be fixed to the fixing bracket 160. Particularly, the driving unit 170 may be integrally formed with the fixing bracket 160 or may be separately formed and coupled.

The circuit board 180 may be fixed with the fixing bracket 160. At this time, the circuit board 180 and the driving unit 170 may be coupled to the fixing bracket 160 to be formed as an assembly.

The rotation portion 191 may be coupled to the second shaft 122. At this time, the rotation unit 191 may be movable in the longitudinal direction of the second shaft 122, and may be provided with a plurality of holes so that the rotation unit 191 may be disposed at and fixed at a position of the second shaft 122. The rotation unit 191 may include a rotation plate 192a projecting toward the sensing unit 192 side. At this time, the rotary plate 192a may be partially opened. In other words, the rotary plate 192a may be in the form of a flap.

The sensing unit 192 may be fixed to the circuit board 180 as described above. At this time, the sensing unit 192 may include a light generating unit and a light receiving unit. The light generating part can generate light or laser, and the light receiving part can sense such light or laser.

When the driving unit 170 operates as described above, the rotational force of the driving unit 170 may be transmitted to the outside through the second shaft 122. At this time, the rotation unit 191 may be coupled to the second shaft 122 and rotate together with the second shaft 122 when the second shaft 122 rotates. In this case, the sensing unit 192 may generate a signal according to the rotation of the rotation unit 191. For example, the sensing unit 192 may generate a signal when the open portion of the rotation unit 191 is terminated. Specifically, in the opened portion of the rotation part 191, light or laser generated in the light generating part can be detected by the light receiving part. In this case, the sensing unit 192 may generate a signal, and the driving unit 170 may generate a rotational force in the same direction according to the signal. When the portion of the rotation plate 192a reaches the sensing unit 192, the light or the laser generated by the light generating unit may be blocked, so that the light receiving unit may not detect the light or the laser. In this case, the sensing unit 192 may generate the opposite signal, and the driving unit 170 may generate the rotational force inversely to the signal. In another embodiment, the sensing unit 192 generates a signal to rotate the driving unit 170 in one direction in the rotating plate 192a and rotates the driving unit 170 in the other direction when the rotating plate 192a ends It is also possible to generate a signal. In such a case, the driving unit 170 may be continuously changed in the rotating direction so that the wiper unit (not shown) performs the reciprocating rotational motion.

In particular, the driving unit 170, the fixing bracket 160, the circuit board 180, the rotation unit 191, and the circuit board 180 may be installed in the housing in the assembled state. The rotation unit 191 and the sensing unit 192 may be disposed as close to the driving unit 170 as possible. In this case, since the positions of the sensing unit 192 and the rotation unit 191 are different from each other, it is possible to minimize the occurrence of errors in the result detected by the sensing unit 192.

Therefore, the surveillance camera 100 can precisely control the rotation of the driving unit 170, thereby precisely controlling the movement of the wiper unit.

Although the present invention has been described in connection with the above-mentioned preferred embodiments, it is possible to make various modifications and variations without departing from the spirit and scope of the invention. Accordingly, it is intended that the appended claims cover all such modifications and variations as fall within the true spirit of the invention.

100: Surveillance camera
110: Housing
111: Transmission window
113: receiving groove
120: shaft
121: First shaft
122: Second shaft
123: Universal joint
130:
140: shaft fixing bracket
150: Wiper part
151: blade
152: blade housing
153:
154: Connection bracket
155:
156:
160: Fixing bracket
170:
180: circuit board
191:
192:
192a: rotating plate
193: Bearings
194: first sealing portion
195: second sealing portion

Claims (6)

A housing having a transmission window;
A shaft disposed to penetrate the housing; And
And a wiper portion coupled to the shaft, the wiper portion cleaning the transmission window,
The wiper section,
A blade for cleaning the transmission window;
A blade housing to which the blade is coupled;
A fixing part coupled to the shaft and having one end of the blade housing rotatably connected;
A connecting bracket disposed to be spaced apart from a portion where the fixed portion and the blade housing are connected in a longitudinal direction of the blade, the connecting bracket being connected to the blade housing; And
And a connection member for connecting the connection bracket and the fixing unit. The method according to claim 1,
The wiper section,
And an elastic part disposed between the connecting member and the fixing part. The method according to claim 1,
The fixing unit includes:
An engaging portion engaging with the shaft; And
And a support portion disposed to be bent from the coupling portion and having the blade housing rotatably coupled to an end thereof. The method according to claim 1,
The shaft includes:
A first shaft engaged with the housing;
A second shaft connected to the first shaft and coupled to the wiper part; And
And a universal joint disposed between the first shaft and the second shaft and connecting the first shaft and the second shaft. The method according to claim 1,
A fixing bracket coupled to the housing;
A driving unit disposed on the fixing bracket and engaged with the shaft; And
And a circuit board coupled to the fixing bracket. 6. The method of claim 5,
A rotating part coupled to the shaft so as to be close to the driving part;
And a sensing unit disposed on the circuit board and measuring a degree of rotation of the rotation unit.

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