CN109379526B - Liftable outdoor video monitoring equipment based on thing networking - Google Patents

Abstract

The invention discloses liftable outdoor video monitoring equipment based on the Internet of things, which comprises a monitoring box body and mounting seats, wherein the mounting seats are arranged on two side surfaces of the monitoring box body; the lifting assembly comprises a ring sleeve and a protective shell. Has the advantages that: according to the invention, the lifting rod is driven by the pull ring to lift so as to adjust the height of the monitoring camera, and the lifting adjusted state is maintained by clamping the guide wheel between the conical stop blocks, so that different monitoring heights can be set according to different use environments, and the use general range of outdoor video monitoring equipment is expanded.

Description

Liftable outdoor video monitoring equipment based on thing networking

Technical Field

The invention relates to the field of video monitoring equipment, in particular to liftable outdoor video monitoring equipment based on the Internet of things.

Background

Video monitoring systems are increasingly widely applied to various fields of security, road cruising and life, and are increasingly densely installed in different places or corners as front-end video monitoring equipment of the video monitoring systems. At present, video monitoring equipment generally only comprises a fixedly installed camera, and a field image is shot by the camera and is transmitted back to background image processing equipment of a video monitoring system, so that the purposes of field video recording, snapshot, video consultation, monitoring or investigation and solution solving and the like are achieved, and the functions are more and more important.

The applicant finds that at least the following technical problems exist in the prior art: outdoor video monitoring equipment can't adjust the height of surveillance camera head after fixed mounting is accomplished to can't set up different control height, cause outdoor video monitoring equipment's commonality poor.

Disclosure of Invention

The invention aims to solve the problems, and provides a liftable outdoor video monitoring device based on the internet of things, so as to solve the technical problems that in the prior art, the height of a monitoring camera cannot be adjusted after the external video monitoring device is fixedly installed, so that different monitoring heights cannot be set, and the like. The preferable technical scheme in the technical schemes provided by the invention comprises the following steps: the lifting rod is driven by the pull ring to lift so as to adjust the height of the monitoring camera and keep the state after lifting adjustment by clamping the guide wheel between the conical stop blocks, so that different technical effects such as monitoring height can be set according to different use environments, and the following explanation is provided for details.

In order to achieve the purpose, the invention provides the following technical scheme:

the invention provides liftable outdoor video monitoring equipment based on the Internet of things, which comprises a monitoring box body and mounting seats, wherein the mounting seats are arranged on two side surfaces of the monitoring box body;

lifting unit includes ring cover and protective housing, ring cover top surface middle part is fixed with the lifter, the mounting groove has been seted up to lifter top inboard, be provided with the spring in the mounting groove, the spring both ends are fixed with the wheel carrier, the wheel carrier outer end is provided with the guide pulley, the lifter bottom outside is fixed with the connecting rod through the clamp, the connecting rod outer end is provided with the pull ring, ring cover top is provided with the protective housing, the protective housing inside wall is provided with a plurality of toper dogs, toper dog evenly distributed, clearance between the toper dog is not less than the radius of guide pulley.

When the liftable outdoor video monitoring equipment based on the Internet of things is used, the installation seat is provided with the through holes, so that the monitoring box body can be fixedly installed at a use position by additionally installing bolts in the through holes, a user can remotely debug and control the monitoring camera through the wireless signal transceiver, the combination of the monitoring camera and the Internet of things is realized, when the monitoring height of the monitoring camera needs to be adjusted in the debugging process, the box door is opened through the handle, the lifting rod is pulled by the pull ring to lift, the lifting rod drives the monitoring camera below the ring sleeve to lift so as to adjust the monitoring height, and in the adjusting process, the lifting rod drives the guide wheel at the end part of the wheel carrier to roll at the edge of the conical stop block, when the guide wheel rolls over the highest point of the conical stop blocks, the compression stroke of the spring is released, the guide wheel is clamped into the gap between the conical stop blocks, so that the position of the lifting rod can be locked and fixed after the adjustment is finished to prevent the lifting rod from naturally descending, and the adjustment of the monitoring height through the lifting is finished.

Preferably, the number of the installation bases is four, a plurality of through holes are formed in the installation bases, and the installation bases and the monitoring box body are fixed through screws or welded.

Preferably, the box door is connected with the monitoring box body through hinges, and the handle is of a protruding structure.

Preferably, the monitoring camera is a spherical camera, and the operating frequency range of the wireless signal transceiver is 2.4GHZ and 5 GHZ.

Preferably, the ring sleeve and the support are fixed through threads, the mounting groove is a through groove, and the mounting groove is in clearance fit with the spring.

Preferably, the compression stroke of the spring is not less than the profile height of the conical stop block, and the spring and the wheel frame are fixed through a clamping hook.

Preferably, the guide wheels exist in pairs, the guide wheels are movably riveted with the wheel frame, and the pull ring is of a solid annular structure.

Has the advantages that: the invention adjusts the height of the monitoring camera by driving the lifting rod to lift through the pull ring and keeps the state after lifting adjustment by clamping the guide wheel between the conical stop blocks, thereby setting different monitoring heights according to different use environments, improving the use general range of outdoor video monitoring equipment, realizing the quick adjustment of any rotation angle of any height of the video monitoring equipment without a complex rotation control device and a mechanical transmission structure of peripheral independent equipment, and hardly generating rotation friction motion in the rotation angle adjustment process, thereby greatly increasing the reliability and the service life.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a front external view of the present invention;

FIG. 2 is a front internal view of the present invention;

fig. 3 is an enlarged view of a portion of the lift assembly of the present invention.

The reference numerals are explained below:

1. monitoring the box body; 101. a mounting seat; 102. a box door; 103. a support; 104. a surveillance camera; 105. a handle; 106. a wireless signal transceiver; 2. a lifting assembly; 201. a lifting rod; 202. a protective shell; 203. a connecting rod; 204. sleeving a ring; 205. a conical stopper; 206. a guide wheel; 207. a wheel carrier; 208. a pull ring; 209. a spring; 2010. and (4) mounting the groove.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be described in detail below. It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope of the invention. All other embodiments, which can be derived by a person skilled in the art from the examples given herein without any inventive step, are within the scope of the present invention.

The first embodiment: referring to fig. 1-3, the invention provides a liftable outdoor video monitoring device based on the internet of things, which comprises a monitoring box body 1 and a mounting seat 101, wherein the mounting seat 101 is arranged on two side surfaces of the monitoring box body 1, a box door 102 is arranged in front of the monitoring box body 1, a handle 105 is fixedly arranged on the surface of the box door 102, a monitoring camera 104 is arranged below the monitoring box body 1, a support 103 is fixed on the top surface of the monitoring camera 104, a wireless signal transceiver 106 is fixed on the outer side of the middle part of the support 103, and a lifting assembly 2 is arranged at the top end of the support 103;

lifting unit 2 includes ring cover 204 and protective housing 202, ring cover 204 top surface middle part is fixed with lifter 201, the mounting groove 2010 has been seted up to lifter 201 top inboard, be provided with spring 209 in the mounting groove 2010, spring 209 both ends are fixed with wheel carrier 207, wheel carrier 207 outer end is provided with guide pulley 206, lifter 201 bottom outside is fixed with connecting rod 203 through the clamp, connecting rod 203 outer end is provided with pull ring 208, ring cover 204 top is provided with protective housing 202, the protective housing 202 inside wall is provided with a plurality of toper dogs 205, toper dog 205 evenly distributed, the clearance between the toper dog 205 is not less than the radius of guide pulley 206.

Preferably, the number of mount pad 101 is four, offers a plurality of through-holes on the mount pad 101, and mount pad 101 passes through fix with screw or welded fastening with control box 1, so sets up, is convenient for through install the bolt additional in mount pad 101 after with control box 1 fix the position of use.

The door 102 is hinged to the monitoring box 1, and the handle 105 is a protruding structure, so that the door 102 can be opened or closed conveniently through the handle 105.

The monitoring camera 104 is a spherical camera, and the working frequency range of the wireless signal transceiver 106 is 2.4GHZ and 5GHZ, so that the suitability of the wireless signal transceiver 106 is ensured.

Ring cover 204 passes through the thread tightening with support 103, so sets up, and the equipment of support 103 and ring cover 204 of being convenient for, mounting groove 2010 are logical groove, and mounting groove 2010 and spring 209 clearance fit, so set up, and the spring 209 of being convenient for freely stretches out and draws back in mounting groove 2010.

The compression stroke of the spring 209 is not less than the profile height of the conical stop 205, and the spring 209 and the wheel frame 207 are fixed through a clamping hook, so that the guide wheel 206 can pass through the highest point of the conical stop 205.

The guide wheels 206 are arranged in pairs, the guide wheels 206 are movably riveted with the wheel frame 207, so that the guide wheels 206 can freely roll on the edge of the wheel frame 207, and the pull ring 208 is of a solid annular structure, so that the pull ring 208 has enough strength.

By adopting the structure, when in use, the installation seat 101 is provided with a plurality of through holes, so that the monitoring box body 1 can be fixedly installed at a use position by adopting a mode of additionally installing bolts in the through holes, a user can remotely debug and control the monitoring camera 104 through the wireless signal transceiver 106, the combination of the monitoring camera 104 and the Internet of things is realized, when the monitoring height of the monitoring camera 104 needs to be adjusted in the debugging process, the door 102 is opened through the handle 105, the lifting rod 201 is pulled to lift by holding the pull ring 208, the lifting rod 201 drives the monitoring camera 104 below the ring sleeve 204 to lift for adjusting the monitoring height, in the adjusting process, the lifting rod 201 drives the guide wheel 206 at the end part of the wheel frame 207 to roll at the edge of the conical stop block 205, when the guide wheel 206 rolls over the highest point of the conical stop block 205, the spring 209 releases the compression stroke of the spring 209 to clamp the guide wheel 206 into the gap between the conical stop blocks 205, therefore, the position of the lifting rod 201 can be locked and fixed after the adjustment is finished, so that the lifting rod 201 is prevented from naturally descending, and the adjustment of the monitoring height through lifting is finished.

Second embodiment: the liftable outdoor video monitoring equipment based on the internet of things comprises a monitoring box body 1 and a mounting seat 101, wherein the mounting seat 101 is arranged on two side surfaces of the monitoring box body 1, a box door 102 is arranged in front of the monitoring box body 1, a handle 105 is fixedly arranged on the surface of the box door 102, a monitoring camera 104 is arranged below the monitoring box body 1, a support 103 is fixedly arranged on the top surface of the monitoring camera 104, a wireless signal transceiver 106 is fixedly arranged on the outer side of the middle part of the support 103, and a lifting component 2 is arranged at the top end of the support 103;

the lifting assembly 2 comprises a ring sleeve 204 and a cylindrical protective shell 202, a hollow lifting rod 201 is fixed in the middle of the top surface of the ring sleeve 204, an installation groove 2010 is formed in the inner side of the top of the lifting rod 201, a spring 209 is arranged in the installation groove 2010, wheel carriers 207 are fixed at two ends of the spring 209, guide wheels 206 are arranged at the outer ends of the wheel carriers 207, a hollow connecting rod 203 is fixed on the outer side of the bottom of the lifting rod 201 through a hoop, a rotatable pull ring 208 is arranged at the outer end of the connecting rod 203, and a mechanical trigger switch is connected to the front end of the pull ring 208 and arranged in the hollow rod body in the lifting rod; the protective shell 202 is arranged above the ring sleeve 204, a plurality of circles of high-low staggered conical stop blocks 205 distributed in a circular ring shape are arranged on the inner side wall of the protective shell 202, the conical stop blocks 205 are uniformly distributed at equal intervals, gaps among the conical stop blocks 205 are not smaller than the radius of the guide wheel 206, and the surface of each conical stop block 205 is rounded;

a magnet is arranged on the inner side wall of the protective shell 202 between every two adjacent conical stoppers 205, the wheel carrier 207 is composed of a fixed section and an electric control telescopic section, wherein the fixed section is a section from the end part of the spring 209 to the circle center part of the guide wheel 206, the telescopic section is a section from the circle center part of the guide wheel 206 to the nearby inner side wall of the protective shell 202, a first magnet is arranged on the telescopic section towards the nearby end part of the inner side wall of the protective shell 202, the first magnet has the same polarity with the nearby side of the magnet on the nearby inner side wall of the protective shell 202, and the mechanical trigger switch and the electronic circuit are connected to a control port on the electric control telescopic section of each wheel carrier 207 through a hollow rod body in the lifting rod 201;

wherein when the pull ring 208 rotates clockwise, the mechanical trigger switch is triggered, the switch sends a first signal to the control port, the magnets on the telescopic sections of the two wheel carriers extend towards the inner side wall of the protective shell 202 at the near side in response to the signal, after the pull ring 208 rotates anticlockwise to reset, the mechanical trigger switch is triggered again, the switch sends a second signal to the control port, the magnets on the telescopic sections of the wheel carriers retract away from the inner side wall of the protective shell 202 at the near side, wherein the telescopic section of the wheel carrier 207 retracts through the electric push rod fixed on the fixed section of the wheel carrier 207

Further, the number of the installation bases 101 is four, a plurality of through holes are formed in the installation bases 101, and the installation bases 101 and the monitoring box body 1 are fixed through screws or welded.

Further, the box door 102 is connected with the monitoring box 1 through a hinge, and the handle 105 is a convex structure.

Further, the monitoring camera 104 is a spherical camera, and the operating frequency bands of the wireless signal transceiver 106 are 2.4GHZ and 5 GHZ.

Further, the ring sleeve 204 and the support 103 are fixed by threads, the mounting groove 2010 is a through groove, and the mounting groove 2010 is in clearance fit with the spring 209.

Further, the compression stroke of the spring 209 is not less than the profile height of the conical stop 205, and the spring 209 and the wheel frame 207 are fixed by a hook.

Further, the guide wheels 206 are arranged in pairs, the guide wheels 206 are movably riveted with the wheel frame 207, and the pull ring 208 is of a solid ring structure.

In the embodiment, on the basis of the first embodiment, the rotation angle adjustment can be performed when the monitoring equipment is at any height, so that the quick and convenient adjustment of any dimension of the monitoring equipment is realized, and the specific working process is as follows:

when the height of the monitoring box body 1 is adjusted in use, because the mounting seat 101 is provided with a plurality of through holes, the monitoring box body 1 can be fixedly mounted at a use position by adopting a mode of additionally mounting bolts in the through holes, a user can remotely debug and control the monitoring camera 104 through the wireless signal transceiver 106, the combination of the monitoring camera 104 and the Internet of things is realized, when the monitoring height of the monitoring camera 104 needs to be adjusted in a debugging process, the box door 102 is opened through the handle 105, the lifting rod 201 is pulled to lift by the handle pull ring 208, the lifting rod 201 drives the monitoring camera 104 below the ring sleeve 204 to lift for adjusting the monitoring height, in the adjusting process, the lifting rod 201 drives the guide wheel 206 at the end part of the wheel frame 207 to roll at the edge of the conical stop block 205, when the guide wheel 206 rolls over the highest point of the conical stop block 205, the spring 209 releases the compression stroke of the spring 209 to clamp the guide wheel 206 into the gap between the conical stop blocks 205, therefore, the position of the lifting rod 201 can be locked and fixed after the adjustment is finished, so that the lifting rod 201 is prevented from naturally descending, and the adjustment of the monitoring height through lifting is finished.

When the rotation angle is adjusted during use, firstly after the adjustment of the predetermined height is completed according to the above method, after the guide pulley 206 is completely clamped into the gap between the conical stoppers 205 and stops moving, at this time, the hand-held pull ring 208 is rotated clockwise to trigger the mechanical trigger switch, the switch sends a first signal to the control port, in response to the signal, the magnets on the two wheel frames are extended towards the inner side wall of the proximal protective shell 202, the magnets on the two wheel frames are subjected to the reverse thrust of the magnets on the inner side wall of the protective shell 202, and the electric control push rod is rigid and can be contracted, so the reverse thrust forces the spring 209 at the rear end of the wheel frame 207 to contract, thereby the two guide pulleys 206 are pulled out from the gap between the currently clamped conical stoppers 205, at this time, the ring sleeve 204 and the lifting rod 201 are rotated until the camera lens rotates to a proper angle, rotating the pull ring 208 counterclockwise to perform a reset operation, at this time, the mechanical trigger switch is triggered again, and a second signal is sent to the control port, the magnet on the extendable portion of the wheel frame is retracted away from the inner sidewall of the protective shell 202 on the near side, at this time, the guiding tube 206 is slowly clamped into the gap between the conical stoppers 205 and fixed in place under the action of the elastic force of the spring 209 itself, and the extension of the extendable portion of the wheel frame 207 is achieved by the electric push rod fixed on the fixed portion of the wheel frame 207.

Through the sequential operation of the height and the rotation angle, the adjustable angle of the outdoor video monitoring equipment capable of being lifted can be adjusted, the complicated lead screw transmission and other equipment do not need to be arranged independently by the outside, the operation is simple and convenient, and the rotation friction motion can hardly occur in the rotation angle adjusting process, so the reliability and the service life of the outdoor video monitoring equipment are greatly increased.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and all the changes or substitutions should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the appended claims.

Claims (8)

1. The utility model provides an outdoor video monitoring equipment of liftable based on thing networking, includes control box (1) and mount pad (101), its characterized in that: the mounting seats (101) are arranged on two side faces of the monitoring box body (1), a box door (102) is arranged in front of the monitoring box body (1), a handle (105) is fixedly mounted on the surface of the box door (102), a monitoring camera (104) is arranged below the monitoring box body (1), a support (103) is fixed on the top face of the monitoring camera (104), a wireless signal transceiver (106) is fixed on the outer side of the middle of the support (103), and a lifting assembly (2) is arranged at the top end of the support (103);

the lifting assembly (2) comprises a ring sleeve (204) and a cylindrical protective shell (202), a hollow lifting rod (201) is fixed in the middle of the top surface of the ring sleeve (204), a mounting groove (2010) is formed in the inner side of the top of the lifting rod (201), a spring (209) is arranged in the mounting groove (2010), wheel carriers (207) are fixed at two ends of the spring (209), guide wheels (206) are arranged at the outer ends of the wheel carriers (207), a hollow connecting rod (203) is fixed on the outer side of the bottom of the lifting rod (201) through a hoop, a rotatable pull ring (208) is arranged at the outer end of the connecting rod (203), and a mechanical trigger switch is connected to the front end of the pull ring (208) and arranged in the hollow rod body in the lifting rod (; the protective shell (202) is arranged above the ring sleeve (204), a plurality of circles of high-low staggered conical stop blocks (205) distributed in a circular ring shape are arranged on the inner side wall of the protective shell (202), the conical stop blocks (205) are uniformly distributed at equal intervals, gaps among the conical stop blocks (205) are not smaller than the radius of the guide wheel (206), and the surface of each conical stop block (205) is rounded;

a magnet is arranged on the inner side wall of the protective shell (202) between every two adjacent conical stop blocks (205), the wheel carrier (207) is composed of a fixed section and an electric control telescopic section, wherein the fixed section is a section from the end part of the spring (209) to the circle center part of the guide wheel (206), the telescopic section is a section from the circle center part of the guide wheel (206) to the nearby inner side wall of the protective shell (202), a first magnet is arranged on the telescopic section towards the end part of the nearby inner side wall of the protective shell (202), the polarity of the first magnet is the same as that of the nearby side of the magnet on the nearby inner side wall of the protective shell (202), and the mechanical trigger switch and the electronic circuit are connected to a control port on the electric control telescopic section of each wheel carrier (207) through a hollow rod body in the lifting rod (201);

when the pull ring (208) rotates clockwise, a mechanical trigger switch is triggered, the switch sends a first signal to the control port, the magnets on the telescopic sections of the two wheel carriers extend towards the inner side wall of the protective shell (202) at the near side in response to the signal, after the pull ring (208) rotates anticlockwise to reset, the mechanical trigger switch is triggered again, the switch sends a second signal to the control port, the magnets on the telescopic sections of the wheel carriers contract away from the inner side wall of the protective shell (202) at the near side, and the telescopic section of the wheel carrier (207) stretches out and draws back through an electric push rod fixed on a fixed section of the wheel carrier (207).

2. The liftable outdoor video monitoring equipment based on the Internet of things of claim 1, wherein: the number of the mounting seats (101) is four, a plurality of through holes are formed in the mounting seats (101), and the mounting seats (11) and the monitoring body (1) are fixed through screws or welded.

3. The liftable outdoor video monitoring equipment based on the Internet of things of claim 1, wherein: the box door (102) is connected with the monitoring box body (1) through hinges, and the handle (15) is of a protruding structure.

4. The liftable outdoor video monitoring equipment based on the Internet of things of claim 1, wherein: the monitoring camera (104) is a spherical camera, and the working frequency ranges of the wireless signal transceiver (106) are 2.4GHZ and 5 GHZ.

5. The liftable outdoor video monitoring equipment based on the Internet of things of claim 1, wherein: the ring sleeve (204) and the support (103) are fixed through threads, the mounting groove (2010) is a through groove, and the mounting groove (2010) is in clearance fit with the spring (209).

6. The liftable outdoor video monitoring equipment based on the Internet of things of claim 1, wherein: the compression stroke of the spring (209) is not less than the profile height of the conical stop block (205), and the spring (209) and the wheel carrier (207) are fixed through a clamping hook.

7. The liftable outdoor video monitoring equipment based on the Internet of things of claim 1, wherein: the guide wheels (206) are arranged in pairs, the guide wheels (206) are movably riveted with the wheel frame (206), and the pull ring (208) is of a solid annular structure.

8. The liftable outdoor video monitoring equipment based on the Internet of things of claim 1, wherein: the telescopic section on the wheel carrier (207) is stretched by an electric push rod fixed on the fixed section on the wheel carrier (207).

Images