CN115013702B - Monitoring equipment and security protection system - Google Patents

Abstract

The invention discloses monitoring equipment and a security system. The mounting mechanism comprises a fixed seat and a movable seat, the fixed seat is provided with a first connecting part and an elastic piece, the movable seat is provided with a second connecting part and a plug hole, the second connecting part is detachably connected to the first connecting part, the plug hole is of a through hole structure and is provided with a first orifice and a second orifice which are oppositely arranged, and the elastic piece can be inserted into the plug hole from the first orifice so as to prevent the second connecting part from being separated from the first connecting part; the monitoring device is arranged on the movable seat and is enclosed with the surface of the movable seat, which is provided with a second orifice, to form a covering cavity, the second orifice is positioned in the covering cavity, and the covering cavity is also provided with a communication port communicated with the outside. The technical scheme of the invention can well realize the improvement of the installation efficiency of the monitoring equipment on the basis of preventing the monitoring equipment from being disassembled randomly.

Description

Monitoring equipment and security protection system

Technical Field

The invention relates to the technical field of monitoring equipment, in particular to monitoring equipment and a security system using the same.

Background

The monitoring device in the related art generally includes a monitoring device and a mounting mechanism, wherein the monitoring device can be used for monitoring, and the mounting mechanism can be used for detachably mounting the monitoring device on a wall or other bearing object. Wherein, in order to prevent the monitoring device from being disassembled at will, the installation mechanism generally comprises a fixed seat and a movable seat which is in sliding buckling connection with the fixed seat. Specifically, the fixed seat can be used for being installed on a wall body or other bearing objects, and the movable seat can be used for being connected to the monitoring device, so that the structure connected with the fixed seat and preventing random disassembly is convenient to set. When the monitoring device is installed, the monitoring device can be connected to the fixed seat in a sliding and buckling mode through the movable seat, and the movable seat and the fixed seat are further penetrated through the plurality of screws, so that the monitoring device can be detached on a wall, but the purpose that the monitoring device cannot be detached at will is achieved due to double limiting of buckling connection and screw connection.

However, the mounting mechanism of the monitoring device is limited by the mounting scene when a plurality of screws are penetrated, so that the subsequent assembly is difficult; secondly, when a plurality of screws are assembled in a penetrating way, the penetrating assembling process is also required to carry out complicated screwing and fixing operations by aligning the plurality of screws with threaded holes of the movable seat and the fixed seat one by one. Therefore, the installation process of the monitoring equipment is very complex, so that the installation efficiency of the monitoring equipment is low.

Disclosure of Invention

The invention mainly aims to provide the monitoring equipment, and aims to greatly improve the installation efficiency of the monitoring equipment on the basis of better realizing the prevention of the random disassembly of the monitoring equipment.

In order to achieve the above object, the present invention provides a monitoring device comprising:

the mounting mechanism comprises a fixed seat and a movable seat, wherein the fixed seat is provided with a first connecting part and an elastic piece, the movable seat is provided with a second connecting part and a plug hole, the second connecting part is detachably connected with the first connecting part, the plug hole is of a through hole structure and is provided with a first orifice and a second orifice which are oppositely arranged, and the elastic piece can be inserted into the plug hole from the first orifice so as to prevent the second connecting part from being separated from the first connecting part; and

The monitoring device is arranged on the movable seat and is enclosed with the surface of the movable seat, which is provided with the second orifice, to form a covering cavity, the second orifice is positioned in the covering cavity, and the covering cavity is also provided with a communication port communicated with the outside.

Optionally, the monitoring device includes:

the support frame is arranged on the surface of the movable seat, on which the second orifice is formed, and is provided with a covering groove facing the second orifice, the covering groove and the movable seat are enclosed to form the covering cavity, and the support frame is also provided with the communication port; and

the monitoring head is arranged on one side of the support frame, which is away from the movable seat.

Optionally, a concave area is formed by concave inward of part of the side wall of the covering groove, and the concave area is provided with the communication port.

Optionally, in the direction from the bottom of the covering groove to the notch, the opening formed by surrounding the side wall of the covering groove is gradually increased;

the side wall of the groove which is not recessed inwards is defined as a protruding area, and the protruding area is detachably connected with the movable seat through a screw-connection piece.

Optionally, the number of the convex areas and the number of the concave areas are multiple, and one concave area is arranged between every two adjacent convex areas;

The protruding areas are detachably connected to the movable seat through the screw connector, and the two recessed areas which are oppositely arranged are provided with the communication ports.

Optionally, a rotating groove is concavely formed on one side of the support frame away from the notch of the covering groove, the monitoring head is provided with a spherical joint, and the spherical joint is rotatably arranged in the rotating groove and can be limited and fixed relative to the support frame when rotating to any angle;

and/or defining a projection plane parallel to the surface of the movable seat, on which the second orifice is formed, wherein the maximum projection contour line of the support frame on the projection plane coincides with the projection contour line of the movable seat on the projection plane;

and/or, the monitoring head is a camera.

Optionally, the fixed seat is defined to have a sliding surface, and the movable seat is slidably mounted on the sliding surface;

the movable seat can slide on the sliding surface until the second connecting part is connected with the first connecting part, the elastic piece is inserted into the inserting hole, and the inserting direction of the elastic piece and the sliding direction of the movable seat are vertically arranged.

Optionally, the elastic member includes:

The plug connector is arranged in the fixed seat, and the sliding surface is provided with a through hole at a position corresponding to the plug connector; and

the spring is arranged in the fixing seat and can drive one end of the plug to penetrate out of the through hole so as to be inserted into the plug hole.

Optionally, the sliding surface is further provided with a sliding groove, the sliding groove extends along the sliding direction of the movable seat, two groove side walls of the sliding groove in the width direction are connected with a connecting block, the connecting block and a part of groove walls of the sliding groove corresponding to the connecting block are enclosed to form a buckling hole, and the buckling hole is formed into the first connecting part;

the movable seat is provided with a buckle facing the surface of the sliding surface, the buckle is formed into the second connecting part, and the buckle can extend into the sliding groove when sliding on the sliding surface, slide along the length direction of the sliding groove and be clamped into the buckling hole so as to be connected with the buckling hole in a buckling mode.

The invention also provides a security system, which comprises:

a monitoring device, which is the monitoring device described above; and

and the mobile terminal is electrically connected with the monitoring device of the monitoring equipment.

When the monitoring equipment is installed, the fixed seat of the installation mechanism can be installed on a wall body or other bearing objects, the movable seat is connected to the monitoring device, and then the movable seat can be driven to be movably installed on the fixed seat. Specifically, when the movable seat is movably mounted on the fixed seat, the elastic piece on the fixed seat can be pressed by the movable seat in a propping way so as to deform, and further deformation elasticity is generated. And then when the movable seat moves to the second connecting part to be connected with the first connecting part, the first orifice of the plug hole on the movable seat corresponds to the elastic piece, so that the movable seat does not continuously butt and extrude the elastic piece. The elastic piece at this moment can reset under the effect of its deformation elasticity to insert in the spliced eye on the movable seat, with the effect that blocks second connecting portion and first connecting portion separation with this spliced eye looks grafting cooperation, thereby accomplished the connection of movable seat and fixing base both and fixed, with indirect realization monitoring device installation on wall body or other bearing object.

In addition, the elastic piece can block the separation of the second connecting part and the first connecting part after being inserted into the plug hole, so that the elastic piece is required to be pressed to be compressed first to be separated from the plug hole in the actual disassembly process, and then the second connecting part and the first connecting part can be further driven to be separated. Meanwhile, after the monitoring device is connected with the movable seat, the second orifice of the plug hole is covered and hidden through a covering cavity formed by encircling the movable seat. When the elastic piece is required to be pressed to compress and the plug hole is separated from the plug hole, the elastic piece can be pressed to compress only after the elastic piece extends into the cover cavity from the communication port of the cover cavity. So through the restriction to the unblock order between elastic component and the spliced eye and between second connecting portion and the first connecting portion to and further cover the hiding effect to the spliced eye for monitoring device dismantles the unusual discipline of process, thereby better realization prevent that supervisory equipment from being dismantled at will.

In addition, when the monitoring device is connected with the fixed seat and the movable seat in the installation structure, the first connecting part on the fixed seat, the second connecting part on the movable seat, the elastic piece on the fixed seat and the inserting hole on the movable seat are all in the process of driving the movable seat and the fixed seat to relatively move and install, so that the paired connection is completed. At this time, the moving mounting operation is not limited by the mounting scene when the connection is made using a plurality of screws like the conventional mounting structure. Meanwhile, the movable mounting operation is a complicated operation that a plurality of screws are required to be screwed one by one when the plurality of screws are adopted for mounting in a similar traditional mounting structure, and the monitoring device can be mounted in one step by directly driving the movable seat and the main body part to move in place relatively. On the basis of better realizing preventing the monitoring equipment from being disassembled at will, the installation process of the monitoring device is greatly simplified, and therefore the installation efficiency of the monitoring device is improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and other drawings may be obtained according to the structures shown in these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of an embodiment of a monitoring device according to the present invention;

FIG. 2 is another schematic view of the monitoring device of FIG. 1;

FIG. 3 is a schematic view of an explosive structure of the monitoring device of FIG. 2;

FIG. 4 is another schematic view of an explosive structure of the monitoring device of FIG. 2;

FIG. 5 is a schematic diagram of the monitoring device in FIG. 3;

FIG. 6 is a schematic diagram of an explosion structure of the monitoring device in FIG. 5;

FIG. 7 is a schematic view of the support frame of FIG. 6;

FIG. 8 is a schematic view of the mounting mechanism of FIG. 3;

FIG. 9 is a schematic view of an exploded view of the mounting mechanism of FIG. 8;

FIG. 10 is another schematic view of an exploded structure of the mounting mechanism of FIG. 8;

FIG. 11 is a schematic view of an explosive structure of the holder of FIG. 9;

FIG. 12 is another view of an explosion structure of the holder of FIG. 9

FIG. 13 is a schematic cross-sectional view of the mounting structure of FIG. 8;

fig. 14 is another cross-sectional schematic view of the mounting structure of fig. 1.

Reference numerals illustrate:

reference numerals	Name of the name	Reference numerals	Name of the name
				100	Monitoring device	15	Clamping plate
1	Mounting mechanism	17	Movable seat
				10	Fixing seat	171	Second connecting part
11	First connecting part	172	Plug hole
				12	Elastic piece	173	A first orifice
121	Plug-in connector	174	Guide surface
				122	Abutting plate	175	A second orifice
123	Mounting column	176	Buckle
				124	Guide cylinder	177	Protrusions
125	Plug-in column	2	Monitoring device
				126	Spring	21	Cover cavity
13	Sliding surface	23	Communication port
				131	Via hole	25	Supporting frame
132	Sliding chute	251	Covering groove
				133	Connecting block	253	Recessed region
134	Groove	255	Raised areas
				135	Fastening hole	257	Rotary groove
14	Seat main body	258	Limiting ring
				141	Accommodating groove	27	Monitoring head
142	Mounting cylinder	271	Spherical joint
				143	Guide post

The achievement of the objects, functional features and advantages of the present invention will be further described with reference to the accompanying drawings, in conjunction with the embodiments.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

It should be noted that all directional indicators (such as up, down, left, right, front, and rear … …) in the embodiments of the present invention are merely used to explain the relative positional relationship, movement, etc. between the components in a particular posture (as shown in the drawings), and if the particular posture is changed, the directional indicator is changed accordingly.

In the present invention, unless specifically stated and limited otherwise, the terms "connected," "affixed," and the like are to be construed broadly, and for example, "affixed" may be a fixed connection, a removable connection, or an integral body; can be mechanically or electrically connected; either directly or indirectly, through intermediaries, or both, may be in communication with each other or in interaction with each other, unless expressly defined otherwise. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art according to the specific circumstances.

Referring to fig. 1 to 14 in combination, in an embodiment of the present invention, the present invention proposes a monitoring device 100, wherein the monitoring device 100 includes a mounting mechanism 1 and a monitoring apparatus 2, the mounting mechanism 1 includes a fixed seat 10 and a movable seat 17, the fixed seat 10 is provided with a first connection portion 11 and an elastic member 12, the movable seat 17 is provided with a second connection portion 171 and an insertion hole 172, the second connection portion 171 is detachably connected to the first connection portion 11, the insertion hole 172 is in a through hole structure and has a first hole 173 and a second hole 175 which are oppositely arranged, and the elastic member 12 can be inserted into the insertion hole 172 from the first hole 173 to block separation of the second connection portion 171 from the first connection portion 11; the monitoring device 2 is arranged on the movable seat 17 and is enclosed with the surface of the movable seat 17, on which the second orifice 175 is formed, to form a covering cavity 21, the second orifice 175 is positioned in the covering cavity 21, and the covering cavity 21 is also provided with a communication port 23 communicated with the outside.

In this embodiment, the fixing base 10 of the mounting mechanism 1 may be pre-mounted to a wall or other load bearing object, and a mounting position is provided by the fixing base 10 so as to mount the movable base 17. The movable seat 17 can be used for being connected with the monitoring device 2, so that when the movable seat 17 is mounted on the fixed seat 10, the monitoring device 2 is mounted on a wall or other bearing objects. The fixing base 10 may be provided with a through hole, so that a screw is inserted to mount the fixing base 10 on a wall or other bearing objects. The screw connection has the advantages of simplicity and reliability, so that the installation efficiency of the fixing seat 10 on a wall body or other bearing objects is improved while the installation stability of the fixing seat 10 is guaranteed. The shapes of the fixed seat 10 and the movable seat 17 may be the same, for example, the fixed seat and the movable seat may be a cylinder structure or a cube structure, so as to enhance the aesthetic appearance of the installation mechanism 1, thereby being beneficial to improving the competitiveness of the subsequent products in the market. The fact that the first connection portion 11 on the fixed base 10 and the second connection portion 171 on the movable base 17 are detachably provided means that the movable base 17 can be moved to connect the second connection portion 171 and the first connection portion 11 when it is mounted movably with respect to the fixed base 10. When the elastic member 12 on the fixed base 10 is disengaged from the insertion hole 172 on the movable base 17, the blocking effect on the separation of the second connection portion 171 and the first connection portion 11 is eliminated, so that the second connection portion 171 and the first connection portion 11 can be separated. It should be noted that the movable seat 17 may be rotatably mounted or slidably mounted. At this time, when the movable seat 17 is rotatably mounted with respect to the fixed seat 10, the direction in which the elastic member 12 is inserted into the insertion hole 172 is set at an angle to the tangential direction of the rotation locus of the movable seat 17, so that the movable seat 17 can be prevented from being rotated in the opposite direction of the rotational mounting at this time when the elastic member 12 is subsequently inserted into the insertion hole 172, to detach the first connection portion 11 from the second connection portion 171. When the movable seat 17 is slidably mounted with respect to the fixed seat 10, the insertion direction of the elastic member 12 into the insertion hole 172 may be set at an angle with the sliding direction of the movable seat 17, so that the movable seat 17 is prevented from sliding in the opposite direction of the sliding mounting when the elastic member 12 is subsequently inserted into the insertion hole 172, so as to detach the first connection portion 11 and the second connection portion 171. The elastic member 12 on the fixed seat 10 and the insertion hole 172 on the movable seat 17 are also detachably disposed, specifically, when the movable seat 17 is movably mounted with respect to the fixed seat 10, the elastic member 12 can be pressed by the movable seat 17 to deform and generate deformation elastic force, and then when the movable seat 17 moves with respect to the fixed seat 10 to connect the second connection portion 171 and the first connection portion 11, the insertion hole 172 on the movable seat 17 corresponds to the elastic member 12, so that the movable seat 17 does not continuously press the elastic member 12, and the elastic member 12 can be inserted into the insertion hole 172 under the action of the deformation elastic force to realize the insertion connection of the two. When it is desired to separate the elastic member 12 from the insertion hole 172, the elastic member 12 may be pressed to cause the elastic member 12 to be compressively deformed in a direction away from the insertion hole 172. The elastic member 12 may be pressed to be entirely separated from the insertion hole 172. Then, the movable seat 17 can be directly driven to move and disassemble along the opposite direction of the movable seat during moving and mounting, and the final separation of the movable seat 17 and the fixed seat 10 can be completed after the first connecting part 11 and the second connecting part 171 are also separated. Of course, the elastic member 12 may be pressed to be partially separated from the insertion hole 172. The movable seat 17 can be directly driven to move and disassemble in the opposite direction during the moving and disassembling process, and the movable seat 17 can gradually abut against the extrusion elastic piece 12 to further compress the extrusion elastic piece, so that the elastic piece 12 gradually and completely breaks away from the inserting hole 172 during the moving and disassembling process. Meanwhile, the first and second connection parts 11 and 171 are also separated during the moving and disassembling of the movable seat 17. Thus, after the elastic member 12 is completely separated from the insertion hole 172 and the first connecting portion 11 and the second connecting portion 171 are separated, the movable seat 17 and the fixed seat 10 can be separated finally. In order to facilitate the removal of the elastic member 12 when the elastic member is pressed to be partially separated from the insertion hole 172, the movable seat 17 may be driven to move in the opposite direction of the removal and installation, and the first hole 173 of the insertion hole may be provided with a guiding surface 174, so that the elastic member 12 is pressed by the guiding surface 174 to be compressed again without obstructing the removal of the first connecting portion 11 and the second connecting portion 171. That is, the guide surface 174 allows the movable seat 17 and the fixed seat 10 to be removed without completely separating the guide elastic member 12 from the insertion hole, thereby improving the removal efficiency. When the movable seat 17 is movably assembled on the fixed seat 10, the elastic piece 12 can be guided to be gradually and smoothly inserted into the inserting hole 172 when the movable seat 17 is movably assembled to a certain position through the guiding surface 174, so that the convenience in assembling the movable seat 17 and the fixed seat 10 is improved, and the installation efficiency of the monitoring device 2 is improved. In addition, the monitoring device 2 may be used for monitoring the surroundings. Meanwhile, after the monitoring device 2 is connected with the movable seat 17, the surface of the second orifice 175 with the plug hole 172 formed on the movable seat 17 can be used for enclosing to form the covering cavity 21, and the second orifice 175 is located in the covering cavity 21. This is so that the monitoring device 2 is not easily found by the hiding effect of the insertion hole 172, so that the effect of preventing the monitoring apparatus 100 from being detached at will is improved. At this time, only by extending into the cover cavity 21 through the communication port 23, the elastic member 12 inserted into the insertion hole 172 can be further pushed and unlocked to be separated from the insertion hole 172.

In the technical scheme of the invention, when the monitoring equipment 100 is installed, the fixed seat 10 of the installation mechanism 1 can be installed on a wall body or other bearing objects, the movable seat 17 is connected to the monitoring device 2, and then the movable seat 17 can be driven to be movably installed on the fixed seat 10. Specifically, when the movable seat 17 is movably mounted on the fixed seat 10, the elastic member 12 on the fixed seat 10 is pressed by the movable seat 17, and can be deformed, thereby generating deformation elasticity. After that, when the movable seat 17 moves to the second connection portion 171 and is connected to the first connection portion 11, the first hole 173 of the plugging hole 172 on the movable seat 17 corresponds to the elastic member 12, so that the movable seat 17 does not continuously press the elastic member 12. The elastic member 12 at this time can reset under the action of the deformation elastic force thereof, and is inserted into the insertion hole 172 on the movable seat 17, so as to be in insertion fit with the insertion hole 172 to play a role of blocking the separation of the second connection portion 171 and the first connection portion 11, thereby completing the connection and fixation of the movable seat 17 and the fixed seat 10, and indirectly realizing the installation of the monitoring device 2 on a wall body or other bearing objects.

In addition, the elastic member 12 can block the separation of the second connection portion 171 and the first connection portion 11 after being inserted into the insertion hole 172, so that the elastic member 12 needs to be pressed to be compressed to be separated from the insertion hole 172 during the actual disassembly process, and then the second connection portion 171 and the first connection portion 11 can be further driven to be separated. Meanwhile, after the monitoring device 2 is connected with the movable seat 17, the second hole 175 of the plug hole 172 is covered and hidden by the covering cavity 21 formed by surrounding the movable seat 17. So that when the elastic member 12 is required to be pressed to be compressed and disengaged from the insertion hole 172, the elastic member 12 can be pressed to be compressed only after the elastic member is inserted into the covering cavity 21 from the communication port 23 of the covering cavity 21. By defining the unlocking sequence between the elastic member 12 and the insertion hole 172 and between the second connection portion 171 and the first connection portion 11 and further covering and hiding the insertion hole 172, the disassembly process of the monitoring device 2 is irregularly regulated, and thus the monitoring device 100 is better prevented from being disassembled at will.

In addition, when the monitoring device 2 is connected through the fixing base 10 and the movable base 17 in the installation structure 1, the first connection portion 11 on the fixing base 10 and the second connection portion 171 on the movable base 17, and the elastic member 12 on the fixing base 10 and the insertion hole 172 on the movable base 17 are all in mating connection in the process of driving the movable base 17 and the fixing base 10 to perform relative movement installation. At this time, the moving mounting operation is not limited by the mounting scene when the connection is made using a plurality of screws like the conventional mounting structure 1. Meanwhile, the movable mounting operation is a complicated operation that a plurality of screws need to be screwed one by one when the mounting structure 1 is mounted by adopting a plurality of screws like the conventional mounting structure, and the mounting of the monitoring device 2 can be completed in one step by directly driving the movable seat 17 and the main body part to move relatively in place. On the basis of better realizing the prevention of the random disassembly of the monitoring equipment 100, the installation process of the monitoring device 2 is greatly simplified, so that the installation efficiency of the monitoring device 2 is improved.

Referring to fig. 2 to 5 in combination, in an embodiment of the invention, the monitoring device 2 includes a support frame 25 and a monitoring head 27, the support frame 25 is disposed on a surface of the movable seat 17 where the second hole 175 is formed, and a covering groove 251 facing the second hole 175 is formed, the covering groove 251 and the movable seat 17 enclose to form a covering cavity 21, and the support frame 25 is further provided with a communication port 23; the monitoring head 27 is provided on the side of the support frame 25 facing away from the movable seat 17.

In the present embodiment, this cavity is defined by the support frame 25 and the movable seat 17, and a communication port 23 is provided to communicate the covering cavity 21 with the outside. So that the part of structure is not required to be arranged on the monitoring head 27, thereby ensuring that the self structure of the monitoring head 27 is not influenced by the mounting structure 1 and only has a better monitoring effect. The supporting frame 25 is further provided with a covering slot 251, so that the supporting frame 25 has a cover structure and can cover the second hole 175 of the plugging hole 172 through the covering slot 251. The hiding effect of the second hole 175 of the insertion hole 172 can be improved at this time, thereby contributing to further improvement of the effect of preventing the monitoring apparatus 100 from being arbitrarily detached. Of course, it should be noted that, in other embodiments, the support frame 25 may also include a side plate and a top plate, wherein one end of the side plate is connected to the movable seat 17, and the top plate is connected to one end of the side plate away from the movable seat 17 and is disposed at an angle with respect to the side plate, so that the top plate can cover the second hole 175 of the plugging hole 172 correspondingly. At this time, the surface of the top plate, the side plate, and the movable seat 17, in which the second orifice 175 is formed, is enclosed to form the covering chamber 21, and the communication port 23 is said to be formed by the surface of the top plate, the side plate, and the movable seat 17, in which the second orifice 175 is formed, being enclosed. Alternatively, in another embodiment, the support 25 may include only a top plate, where the surface of the movable seat 17 formed with the second hole 175 may be convexly provided with a shroud, so that the shroud, the surface of the movable seat 17 formed with the second hole 175, and the top plate enclose to form the covering cavity 21, and the communication port 23 may be directly provided on the shroud. That is, the structure of the support frame 25 is not particularly limited, and the second hole 175 of the insertion hole 172 may be covered and hidden. In addition, the monitoring head 27 may be a camera, in particular, so that an image may be acquired to improve the monitoring effect. Of course, the monitoring head 27 may be a millimeter wave radar, an ultrasonic sensor, or the like.

Further, referring to fig. 5 to 7 in combination, a recess 253 is formed by recessing a portion of the side wall of the covering groove 251 inward, and the recess 253 is provided with a communication port 23.

In the present embodiment, the communication port 23 is provided in the recessed region 253, so that the communication port 23 and the second orifice 175 of the plug hole 172 can be brought closer. And when people dismount the monitoring device 2, people can conveniently observe the position of the second orifice 175 through the communication port 23 more intuitively. Meanwhile, after the hand extends into the covering cavity 21 from the communication port 23, the hand can quickly reach the second hole 175 to press the elastic member 12 positioned in the inserting hole 172. Thus, the position of the communication port 23 is thus set, and the convenience of disassembly of the monitoring device 2 can be improved.

Further, referring to fig. 6 and 7 in combination, in the direction from the bottom of the covering groove 251 to the notch, the opening formed by the surrounding of the groove side wall of the covering groove 251 is gradually increased; the side walls of the recess, which define the recess 251 not recessed inwardly, are raised areas 255, the raised areas 255 being detachably connected to the movable seat 17 by screw means.

In the present embodiment, the opening formed by surrounding the groove sidewall of the covering groove 251 is gradually enlarged, so that the supporting frame 25 is substantially in a cone structure. At this time, part of the groove side wall of the cover groove 251 is formed into a convex area 255, and an installation position can be better provided by the convex area 255, that is, a screw can be directly penetrated in the direction from the groove bottom to the groove opening, so that the detachable connection between the monitoring device 2 and the movable seat 17 is realized. Thus, the support frame 25 does not need to be additionally provided with a connecting plate for providing a mounting position, thereby being beneficial to simplifying the structure of the support frame 25. The monitoring device 2 and the movable seat 17 are detachably connected, so that when one of the monitoring device 2 and the movable seat 17 is damaged, a damaged person can be detached, and the whole is required to be replaced due to local damage, thereby being beneficial to reducing maintenance and replacement cost. And the two are connected through the screw joint, the screw joint can be a screw or a combination of a stud and a nut, and the screw joint has the advantages of simplicity and reliability, thereby being beneficial to improving the convenience of disassembly and assembly of the two. Of course, the present application is not limited to this, and in other embodiments, the support frame 25 may be a straight cylindrical structure with equal diameter. In addition, it should be noted that, although the monitoring device 2 and the movable seat 17 are detachably connected in the present application, the movable seat 17 is mainly used for conveniently setting a structure (such as the second connection portion 171 and the plugging hole 172) for preventing the monitored device 2 from being optionally detached, and forms a whole after being connected with the supporting frame 25 of the monitoring device 2, and meanwhile, in the subsequent actual mounting and dismounting process of the monitoring device 2, people may also usually install the movable seat 17 on the fixed seat 10 or remove the movable seat from the fixed seat 10, so as to indirectly realize the mounting and dismounting of the monitoring device 2 on a wall or other bearing objects. In other words, during normal installation and removal of the monitoring device 2 on a wall or other load-bearing object, one does not unlock the connection between the monitoring device 2 and the movable seat 17. Therefore, the detachable connection between the monitoring device 2 and the movable seat 17 does not affect the effect of preventing the monitoring device 2 from being detached randomly, and is mainly used for realizing detachment and maintenance of the monitoring device 2 and the movable seat 17 when the monitoring device and the movable seat are damaged. Of course, in other embodiments, the support frame 25 and the movable seat 17 may be directly welded or glued.

Further, referring to fig. 6 and 7 in combination, the number of the convex areas 255 and the concave areas 253 is plural, and a concave area 253 is disposed between every two adjacent convex areas 255; the plurality of convex areas 255 are detachably connected to the movable seat 17 through screw connectors, and two concave areas 253 which are oppositely arranged are provided with communication ports 23.

In this embodiment, the plurality of protruding areas 255 are provided, so that the support frame 25 can be installed and fixed by a plurality of screw connectors, thereby being beneficial to greatly improving the connection strength between the support frame 25 and the movable seat 17, and further being beneficial to improving the installation stability of the monitoring device 2. The concave region 253 is disposed between every two adjacent convex regions 255, and the two opposite concave regions 253 are provided with the communication ports 23, so that the shape of the support frame 25 is regular, thereby being beneficial to improving the convenience of processing and forming the support frame, further improving the appearance aesthetic property and improving the competitive power of the subsequent products in the market. The two communication ports 23 are arranged oppositely, so that two opposite sides of the two communication ports 23 in the arrangement direction can extend into the covering cavity 21 to press and unlock the elastic piece 12 in the plug hole 172, thereby being beneficial to further improving the convenience of disassembling the elastic piece. In order to further increase the regularity of the support frame 25 and the movable seat 17 on the peripheral side, so as to increase the aesthetic appearance of the product and the competitiveness of the subsequent product on the market, a projection plane parallel to the surface of the movable seat 17 on which the second orifice 175 is formed is defined, and the maximum projection contour line of the support frame 25 on the projection plane coincides with the projection contour line of the movable seat 17 on the projection plane. That is, the maximum peripheral side edge of the support frame 25 and the edge of the movable seat 17 may coincide.

In addition, referring to fig. 5 and 6 in combination, the connection between the support frame 25 and the monitoring head 27 may be that a rotation groove 257 is concavely formed on one side of the support frame 25 facing away from the notch of the covering groove 251, the monitoring head 27 is provided with a spherical joint 271, and the spherical joint 271 is rotatably installed in the rotation groove 257 and can be limited and fixed relative to the support frame 25 when rotated to any angle.

In the present embodiment, the rotation fit of the spherical joint 271 and the rotation groove 257 makes it unnecessary to disassemble the fixing base 10 to adjust the mounting direction, and the adjustment of the monitoring orientation of the monitoring head 27 can be achieved by directly driving the monitoring head 27 to rotate, thereby facilitating the improvement of the convenience of the adjustment of the monitoring orientation of the monitoring head 27. Moreover, the spherical joint 271 makes it possible to achieve the adjustment of the orientation of the monitoring head 27 in any direction due to the rotation in any direction, thereby further facilitating the rapid adjustment of the monitoring head 27 to a desired monitoring orientation. The rotation groove 257 may be embedded with a friction increasing pad (e.g., a rubber pad or a silica gel pad with a larger friction coefficient), so that the ball joint 271 and the rotation groove 257 are tightly matched and have larger friction, and the monitoring head 27 can be limited and fixed relative to the support frame 25 when rotating to any angle. Of course, the outer side of the supporting frame 25 may be sleeved with a limiting ring 258, and a notch is formed between two ends of the limiting ring 258, so that after the monitoring head 27 is rotated in place, two ends of the limiting ring 258 can be penetrated through the screw connection piece, so that two ends of the limiting ring 258 are close to each other, and further the outer side of the groove side wall of the rotating groove 257 is extruded, and the locking of the spherical joint 271 is realized by driving the groove side wall of the rotating groove 257 to shrink.

The basic structure of the monitoring device 2 is described above, and the mounting structure 1 is described further below. Referring to fig. 8 to 14, in an embodiment of the present invention, a fixed seat 10 is defined to have a sliding surface 13, and a movable seat 17 is slidably mounted on the sliding surface 13; the movable seat 17 can slide on the sliding surface 13 until the second connecting portion 171 is connected to the first connecting portion 11, and the elastic member 12 is inserted into the insertion hole 172, and the insertion direction of the elastic member 12 and the sliding direction of the movable seat 17 are perpendicular.

In the present embodiment, since the insertion direction of the elastic member 12 and the sliding direction of the movable seat 17 are perpendicular, after the elastic member 12 is inserted into the insertion hole 172 under the action of deformation elastic force, when the movable seat 17 receives an external force in the sliding direction, the external force acts to press only the lateral peripheral surface of the elastic member 12 through the movable seat 17, and no pressing is caused in the axial direction of the elastic member 12. So that the elastic member 12 is not compressed in the axial direction, it is ensured that the elastic member 12 can perform stable abutting limitation on the movable seat 17 in the insertion hole 172 of the movable seat 17, thereby being beneficial to improving the blocking effect of the elastic member 12 on the separation of the first connecting portion 11 and the second connecting portion 171, so that the movable seat 17 is stably mounted on the fixed seat 10. Moreover, the vertical distance (the vertical distance is smaller than the inclined distance) between the top of the elastic member 12 and the surface of the movable seat 17 where the first hole 173 is formed at this time, so that the elastic member 12 can be compressed by a very short distance and inserted into the insertion hole 172 or separated from the insertion hole 172. Namely, the elastic member 12 is quickly inserted into and separated from the fixed seat 10, thereby being beneficial to improving the sliding dismounting efficiency of the movable seat 17 on the fixed seat 10.

Further, referring to fig. 8, 9, 11 and 13 in combination, the elastic member 12 includes a plug 121 and a spring 126, the plug 121 is disposed in the fixing base 10, and the sliding surface 13 has a through hole 131 corresponding to the plug 121; the spring 126 is disposed in the fixing base 10, and can drive one end of the plug to pass through the through hole 131 to be inserted into the plug hole 172.

In this embodiment, the elastic member 12 is composed of the spring 126 and the plug member 121, so that the elastic member 12 can only provide the elastic force by the spring 126, while the plug member 121 does not provide the elastic force, but only is used for limiting the plug with the plug hole 172. At this time, since the plug 121 and the plug hole 172 are in hard contact, the contact stability between the elastic member 12 and the plug hole 172 can be improved, which is advantageous in further improving the blocking effect of the separation of the first connection portion 11 and the second connection portion 171. In addition, the spring 126 can have a better elastic force, so that the larger deformation elastic force is conveniently improved to drive the plug connector 121 to be stably plugged in the plug hole 172, so as to further improve the blocking effect on the separation of the first connecting portion 11 and the second connecting portion 171. Moreover, since the spring 126 is more common in the market, it can be purchased directly to facilitate the convenience of access thereto. In addition, it should be noted that the elastic member 12 may be integrally made of an elastic material, in other words, the elastic member 12 may be directly configured as an elastic rubber column, one end of which facing away from the fixing base 10 may be pressed by the movable base 17 movably assembled, and then when the movable base 17 moves to connect the second connection portion 171 and the first connection portion 11, the insertion hole 172 on the movable portion corresponds to the rubber column so that the rubber column may be elastically inserted into the insertion hole 172.

Further, in order to facilitate assembly of the plug 121 and the spring 126, referring to fig. 9, 11, 12 and 13, the fixing base 10 may include a base body 14 and a clamping plate 15, the base body 14 may be formed with a receiving groove 141, the clamping plate 15 may cover the notch of the receiving groove 141, and the through hole 131 is disposed on the clamping plate 15. At this time, the entire sliding surface 13 may be formed by the surface of the holding plate 15 facing away from the groove bottom wall of the accommodation groove 141. Of course, a part of the sliding surface 13 may be formed by a surface of the holding plate 15 facing away from the bottom wall of the accommodation groove 141, while another part of the sliding surface 13 may be formed by a surface of the seat body 14 on the side where the notch of the accommodation groove 141 is formed. The elastic member 12 and the portion of the plug member 121 may be disposed in the receiving groove 141, and the portion of the plug member 121 is penetrated out through the through hole 131. So can carry out comparatively simple centre gripping installation to elastic component 12 through grip block 15 and seat main part 14, and then when accomplishing the connection between grip block 15 and the seat main part 14, can once only accomplish the installation to elastic component 12. Still further, the plug 121 may include an abutment plate 122 and a plug post 125, the abutment plate 122 is disposed in the accommodating groove 141, the plug post 125 is connected to a side of the abutment plate 122 away from the bottom wall of the accommodating groove 141, and the elastic member 12 may elastically abut between a side of the abutment plate 122 away from the plug post 125 and a bottom wall of the accommodating groove 141, so as to drive the plug post 125 to pass through the through hole 131 and be inserted into the plug hole 172. At this time, the abutting plate 122 can abut against one side of the clamping plate 15 facing the bottom wall of the accommodating groove 141, so as to perform an abutting limiting function to more conveniently prevent the plug connector 121 from being separated from the through hole 131.

In addition, in order to ensure stable placement of the spring 126 between the abutment plate 122 and the groove bottom wall of the receiving groove 141 and to ensure that the spring 126 applies deformation elastic force to the socket 121 only in the axial direction, referring to fig. 11 to 13, the groove bottom wall of the receiving groove 141 may be provided with a mounting cylinder 142, and the position of the abutment plate 122 corresponding to the mounting cylinder 142 may be provided with a mounting post 123, so that opposite ends of the spring 126 may be inserted into the mounting cylinder 142 and sleeved into the mounting post 123, respectively, and further the spring 126 may be subjected to a limit guiding effect through the mounting cylinder 142 and the mounting post 123, so that it is stably mounted between the abutment plate 122 and the groove bottom wall of the receiving groove 141 and is only axially stretched. Meanwhile, since the mounting post 123 is disposed on the abutting plate 122, the cross-sectional area thereof is smaller than the area of the mounting cylinder 142, and when the plug-in connector 121 is pressed by the sliding movable seat 17 in an abutting manner or manually pressed by a person to shrink, the mounting post 123 on the abutting plate 122 of the plug-in connector 121 cannot collide with the mounting cylinder 142, so that the safety of shrinking and separating the plug-in connector 121 from the plug-in hole 172 can be ensured. Moreover, since the mounting post 123 on the plug board can be inserted into the mounting cylinder 142, the shrinkage travel of the plug connector 121 from the plug hole 172 can be better satisfied, and the distance between the abutting plate 122 and the bottom wall of the accommodating groove 141 can be relatively smaller, thereby being beneficial to reducing the overall volume of the fixing seat 10. In order to further improve the stability of the insertion of the connector 121 into the insertion hole 172 and the retraction of the connector from the insertion hole 172, a guide post 143 may be provided on the bottom wall of the receiving groove 141, and a guide cylinder 124 for inserting the guide post 143 may be provided on the abutment plate 122 of the connector 121 corresponding to the guide post 143, so that the movement of the connector 121 is further guided by the insertion guiding action of the guide post 143 and the guide cylinder 124.

Further, referring to fig. 9, 10 and 14 in combination, the sliding surface 13 is further provided with a sliding groove 132, the sliding groove 132 extends along the sliding direction of the movable seat 17, two groove side walls of the sliding groove 132 in the width direction are connected with a connecting block 133, the connecting block 133 and a part of the groove wall of the sliding groove 132 corresponding to the connecting block 133 are enclosed to form a buckling hole 135, and the buckling hole 135 is formed as the first connecting portion 11; the surface of the movable seat 17 facing the sliding surface 13 is provided with a buckle 176, the buckle 176 is formed into a second connecting portion 171, and the buckle 176 can extend into the sliding groove 132 when the movable seat 17 slides on the sliding surface 13 and slide along the length direction of the sliding groove 132 to be buckled into the buckling hole 135 so as to be buckled with the buckling hole 135.

In this embodiment, the first connecting portion 11 is set to the fastening hole 135, and the second connecting portion 171 is set to the fastening hole 176, so that the structures of the first connecting portion 11 and the second connecting portion 171 are simpler, and no complex connecting structure is required to be additionally arranged, thereby being beneficial to improving the convenience of processing and forming the fixed seat 10 and the movable seat 17 and reducing the manufacturing cost. Moreover, since the first connection portion 11 and the second connection portion 171 are fastened and fixed, when the monitoring device 2 needs to be detached from the wall or the bearing object, after the plug post 125 of the elastic member 12 is driven to be detached from the plug hole 172, the movable seat 17 can be driven to move along the opposite direction to the direction of moving and assembling the movable seat 17, so that the detachment of the fastener 176 from the fastening hole 135 can be quickly realized, that is, the separation of the second connection portion 171 and the first connection portion 11 can be quickly realized, thereby being beneficial to improving the convenience in use of the installation mechanism 1. In addition, since the buckling hole 135 is arranged on the sliding surface 13, the buckling hole and the elastic piece 12 can be respectively very compact on the fixing seat 10, thereby being beneficial to further reducing the whole volume of the fixing seat 10 and facilitating the installation of the fixing seat. Moreover, when the first connecting portion 11 is the fastening hole 135, the fastening hole 135 is on the same side as the elastic member 12, so that the surface of the sliding surface 13 facing the movable seat 17 is easily covered by the fastening hole 135, thereby realizing the function of hiding the fastening buckle 176 and the fastening hole 135, and avoiding the fastening buckle from being unreasonably disassembled or damaged by foreign objects. The fastening hole 135 may be formed in the clamping plate 15 when only a surface of the sliding surface 13 facing away from the bottom wall of the receiving groove 141 is formed. While when a part of the sliding surface 13 is formed by the surface of the holding plate 15 facing away from the groove bottom wall of the receiving groove 141 and another part is formed by the surface of the seat body 14 where the notch of the receiving groove 141 is formed, the catching hole 135 may be provided on the seat body 14 and located at one side of the holding plate 15. In addition, the buckle 176 is arranged in the chute 132 for sliding assembly, so that the chute 132 has a guiding function on the relative movement of the movable seat 17 on the fixed seat 10, and the movable seat 17 and the fixed seat 10 are not easy to deviate in the moving assembly process, so that the assembly can be completed in one step, and the convenience of assembling the movable seat 17 and the fixed seat 10 is further improved. The two groove side wall connecting blocks 133 connected to the width direction of the sliding groove 132 and the sliding groove 132 are enclosed to form the buckling hole 135, so that the structure of the buckling hole 135 is simpler, thereby being beneficial to improving the convenience of processing and forming the buckling hole. To further enhance the stability of the movable seat 17 mounted on the fixed seat 10, the number of the sliding grooves 132 may be two and respectively located at opposite sides of the clamping plate 15, so as to form two buckling holes 135. At this time, the movable seat 17 may be provided with two corresponding buckles 176. Moreover, the fixing base 10 may have a symmetrical structure on opposite sides of the clamping plate 15, so that the shape thereof is regular to facilitate the processing and forming thereof. Similarly, the movable seat 17 may have a symmetrical structure, and may be shaped regularly to facilitate machining. Note that, the present application is not limited to this, and in other embodiments, a hole may be directly formed in a groove side wall at one end in the longitudinal direction of the chute 132. The first connection portion 11 and the second connection portion 171 may be magnets, so that the first connection portion 11 and the second connection portion 171 are close to each other for magnetic attraction fixation when being assembled by moving the movable seat 17 relative to the fixed seat 10; or the first connecting portion 11 is one of a bump and a groove body, and the second connecting portion 171 is the other of the bump and the groove body, so that the first connecting portion 11 and the second connecting portion 171 are close to each other for plugging and fixing when being assembled relative to the fixed seat 10 through the movable seat 17. That is, the connection between the first connection portion 11 and the second connection portion 171 needs to be ensured, and the first connection portion 11 and the second connection portion 171 may be unlocked only after the elastic member 12 is disengaged from the insertion hole 172.

Further, referring to fig. 9, 10 and 14, one of two surfaces of the connection block 133 and the buckle 176, which are abutted against each other, is provided with a protrusion 177, the other of the two surfaces is provided with a groove 134, and the protrusion 177 can be elastically embedded into the groove 134 when the buckle 176 and the buckle hole 135 are buckled.

In this embodiment, through the embedded cooperation of the protrusion 177 and the groove 134, when the buckle 176 is installed in place, the protrusion 177 can provide a feedback effect of resistance change, so as to give the user an installation in place indication through the feedback resistance hand feeling. That is, when the protrusion 177 is elastically inserted into the recess 134, the snap 176 and the snap hole 135 are accurately snapped, and the elastic member 12 is accurately inserted into the insertion hole 172, so that the movable seat 17 is accurately mounted on the fixed seat 10. Therefore, the arrangement of the projection 177 and the recess 134 reduces the occurrence of the situation that the movable seat 17 is not mounted in place on the fixed seat 10, thereby being beneficial to ensuring the effective mounting of the monitoring device 2.

The invention also provides a security system, which comprises the monitoring device 100 and the mobile terminal, wherein the specific structure of the monitoring device 100 refers to the above embodiment, and because the security system adopts all the technical schemes of all the embodiments, the security system at least has all the beneficial effects brought by the technical schemes of the embodiments, and the detailed description is omitted. The mobile terminal is electrically connected to the monitoring device 2 of the monitoring apparatus 100, and may be a mobile phone, a display screen or other display terminals with display functions.

The foregoing description is only of the preferred embodiments of the present invention and is not intended to limit the scope of the invention, and all equivalent structural changes made by the description of the present invention and the accompanying drawings or direct/indirect application in other related technical fields are included in the scope of the invention.

Claims (7)

1. A monitoring device, comprising:

the mounting mechanism comprises a fixed seat and a movable seat, wherein the fixed seat is provided with a first connecting part and an elastic piece, the movable seat is provided with a second connecting part and a plug hole, the second connecting part is detachably connected with the first connecting part, the plug hole is of a through hole structure and is provided with a first orifice and a second orifice which are oppositely arranged, and the elastic piece can be inserted into the plug hole from the first orifice so as to prevent the second connecting part from being separated from the first connecting part; and

the monitoring device is arranged on the movable seat and is enclosed with the surface of the movable seat, on which the second orifice is formed, to form a covering cavity, the second orifice is positioned in the covering cavity, and the covering cavity is also provided with a communication port communicated with the outside;

Defining that the fixed seat is provided with a sliding surface, and the movable seat is slidably arranged on the sliding surface; the movable seat can slide on the sliding surface until the second connecting part is connected with the first connecting part, the elastic piece is inserted into the inserting hole, and the inserting direction of the elastic piece and the sliding direction of the movable seat are vertically arranged;

the elastic piece comprises a plug connector and a spring, the plug connector is arranged in the fixed seat, and the sliding surface is provided with a through hole at a position corresponding to the plug connector; the spring is arranged in the fixed seat and can drive one end of the plug to pass through the through hole so as to be inserted into the plug hole;

the sliding surface is also provided with a sliding groove, the sliding groove extends along the sliding direction of the movable seat, two groove side walls of the sliding groove in the width direction are connected with connecting blocks, the connecting blocks and the sliding groove correspond to part of groove walls of the connecting blocks to form buckling holes in a surrounding mode, and the buckling holes are formed into the first connecting parts; the surface of the movable seat facing the sliding surface is provided with a buckle, the buckle is formed into the second connecting part, and when the movable seat slides on the sliding surface, the buckle can extend into the sliding chute and slide along the length direction of the sliding chute to be clamped into the buckling hole so as to be connected with the buckling hole in a buckling way;

The fixing seat comprises a seat main body and a clamping plate, wherein the seat main body is provided with a containing groove, the clamping plate is covered on a notch of the containing groove, the through hole is formed in the clamping plate, the clamping plate deviates from the surface of the bottom wall of the containing groove to form a sliding surface, the part of the plug connector and the spring are arranged in the containing groove, the part of the plug connector is penetrated out from the through hole, and the clamping plate and the seat main body are used for clamping and installing the plug connector and the spring.

2. The monitoring device of claim 1, wherein the monitoring means comprises:

the support frame is arranged on the surface of the movable seat, on which the second orifice is formed, and is provided with a covering groove facing the second orifice, the covering groove and the movable seat are enclosed to form the covering cavity, and the support frame is also provided with the communication port; and

the monitoring head is arranged on one side of the support frame, which is away from the movable seat.

3. The monitoring device according to claim 2, wherein a recess area is formed by recessing a part of the side wall of the covering groove inward, and the recess area is provided with the communication port.

4. A monitoring device according to claim 3, wherein the opening formed by the side walls of the covering groove is arranged to be gradually enlarged in the direction from the bottom of the covering groove to the notch;

the side wall of the groove which is not recessed inwards is defined as a protruding area, and the protruding area is detachably connected with the movable seat through a screw-connection piece.

5. The monitoring device of claim 4, wherein the number of raised areas and recessed areas is plural, and one recessed area is arranged between every two adjacent raised areas;

the protruding areas are detachably connected to the movable seat through the screw connector, and the two recessed areas which are oppositely arranged are provided with the communication ports.

6. The monitoring device according to claim 2, wherein a rotating groove is concavely formed on one side of the support frame away from the notch of the covering groove, the monitoring head is provided with a spherical joint, and the spherical joint is rotatably arranged in the rotating groove and can be limited and fixed relative to the support frame when rotating to any angle;

and/or defining a projection plane parallel to the surface of the movable seat, on which the second orifice is formed, wherein the maximum projection contour line of the support frame on the projection plane coincides with the projection contour line of the movable seat on the projection plane;

And/or, the monitoring head is a camera.

7. A security system, comprising:

monitoring device according to any one of claims 1 to 6; and

and the mobile terminal is electrically connected with the monitoring device of the monitoring equipment.