CN207514517U - A kind of metastable video monitoring equipment based on Internet of Things - Google Patents
A kind of metastable video monitoring equipment based on Internet of Things Download PDFInfo
- Publication number
- CN207514517U CN207514517U CN201721346206.5U CN201721346206U CN207514517U CN 207514517 U CN207514517 U CN 207514517U CN 201721346206 U CN201721346206 U CN 201721346206U CN 207514517 U CN207514517 U CN 207514517U
- Authority
- CN
- China
- Prior art keywords
- piston
- plate
- internet
- damping spring
- metastable
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
Links
Abstract
The utility model discloses a kind of metastable video monitoring equipments based on Internet of Things, support plate including supporting rack and on supporting rack, monitoring probe is placed in the support plate, the support plate both sides are equipped with the piston plate a positioned at the upside and piston plate b positioned at downside, the piston plate a and piston plate b are respectively positioned in hollow connecting plate, are connected with horizontal shock-absorbing device on the outside of the connecting plate, bottom is connected with longitudinal damping device.The utility model passes through setting horizontal shock-absorbing device, the longitudinal damping device of lower section setting at left and right sides of the support plate of installation monitoring probe, horizontal shock-absorbing device absorption kinetic energy is converted to elastic potential energy in transverse direction, support plate is moved up and down with jolting to a certain extent on longitudinal direction, ensure the clarity of monitored picture, it ensures that picture is minimized by the influence jolted, ensure that the continuity and validity of Internet of Things real time monitoring.
Description
Technical field
The utility model is related to the technical field of the equipment of Internet of Things monitoring, more particularly to a kind of phase based on Internet of Things
To stable video monitoring equipment.
Background technology
Express delivery, is the door t door logistics activity for having postal delivery function concurrently, and Ji Zhi express companies pass through railway, highway and air transport etc.
The vehicles carry out speed delivery to client cargo, especially in existing society, become one of essential logistics mode;
During existing express delivery industry develops, express delivery vehicle becomes the mainstream tool of its transport, and quick and convenience has obtained extensively
Accreditation, but in its transport, often there is loss of goods, it is therefore desirable to which Internet of Things carries out globality monitoring.
Patent CN205545614U discloses a kind of Internet of Things monitoring device on express delivery vehicle, the utility model
Internet of Things monitoring device on express delivery vehicle can carry out front-rear direction, reach the standard grade direction and parallel direction rotation and adjusting, can
To carry out front-rear direction adjusting by the cooperation of retaining rail and pulley;Upper bracket and lower carriage can be carried out by the rotation of regulation pipe
Relative distance adjust, so as to complete generally longitudinally to adjust;It can be carried out by the cooperation of ball bearing and monitoring probe parallel
Rotation is adjusted so as to complete transverse rotation;Whole adaptability is improved, reduces the appearance at dead angle, passes through lower carriage and holder
Connection mode carries out the adjusting of upper and lower directions.
But the Internet of Things monitoring device installed with vehicle, in addition to the appearance at dead angle to be reduced, monitoring as big as possible are each
Outside the situation in corner, it is often more important that, since vehicle inevitably jolts during advancing, this metope with installation
It waits unlike the monitoring device on fixed buildings, monitoring device is not only easily damaged due to jolting, protected according to shock-absorption device
The stability of monitoring device is held, then due to the float of monitoring device in jolting, slightly violent jolts, and is easy to cause picture
Face it is clear that cause the short duration failure of monitoring device, can not affect the effect of Internet of Things real time monitoring.
Invention content
It is an object of the invention to:Caused for above-mentioned Internet of Things monitoring device using shock-absorption device on slightly violent top
Middle picture of winnowing with a dustpan is unintelligible, causes the short duration failure of monitoring device, influences the problem of effect of Internet of Things real time monitoring, this practicality is new
Type provides can be mobile so as to keep opposing stationary video monitoring equipment with jolting.
The technical solution adopted by the present invention is as follows:
A kind of metastable video monitoring equipment based on Internet of Things, the support including supporting rack and on supporting rack
Plate is placed with monitoring probe in the support plate, which is characterized in that the support plate both sides are equipped with the piston plate positioned at upside
The a and piston plate b positioned at downside, the piston plate a and piston plate b are respectively positioned in hollow connecting plate, on the outside of the connecting plate
Be connected with horizontal shock-absorbing device, bottom and top are connected with longitudinal damping device, the horizontal shock-absorbing device be positioned at supporting rack
The curved bend bent plate of inside, the longitudinal direction damping device include the piston cylinder a connected with connecting plate top by oil pipe and with connecting
Synchronous damping device is equipped in the piston cylinder b, the piston cylinder a and piston cylinder b that fishplate bar bottom is connected by oil pipe.
Further, the synchronous damping device includes the damping spring being arranged between two pistons in piston cylinder a
A, it damping spring b between two pistons being arranged in piston cylinder b, is filled between the piston and piston plate a and piston
With the fluid between piston plate b.
Further, the fluid is compressible fluid.
Further, damping spring c is provided between the piston and piston plate a, is set between the piston and piston plate b
The total length for being equipped with damping spring d, the damping spring c and damping spring d is less than the length of connecting plate.
Further, multiple damping spring e are uniformly provided between the curved bend bent plate and supporting rack inside.
Further, the quantity of the damping spring e is at least three.
In conclusion by adopting the above-described technical solution, the beneficial effects of the invention are as follows:
The utility model passes through setting horizontal shock-absorbing device, lower section setting at left and right sides of the support plate of installation monitoring probe
Longitudinal damping device, due to the unintelligible problem of picture caused by being movement on longitudinal direction mainly overcome in jolting, laterally
Upper horizontal shock-absorbing device absorbs kinetic energy and is converted to elastic potential energy, on longitudinal direction to a certain extent support plate with being moved down on jolting
It is dynamic, by longitudinal damping device into row buffering after more than a certain range, so as to keep in a certain range monitoring probe relative to
Supporting rack is static, it is ensured that the clarity of monitored picture, it is ensured that picture is influenced to minimize by jolting, and ensure that Internet of Things
Net the continuity and validity of real time monitoring.
Description of the drawings
Fig. 1 is the structure chart of the utility model;
It is marked in figure:1- supporting racks, 2- monitoring probes, 3- piston cylinder a, 4- damping spring a, 5- support plate, 6- connecting plates,
7- damping spring c, 8- piston plate a, 9- damping spring e, 10- piston plate b, 11- curved bends bent plate, 12- oil pipes, 13- damping bullets
Spring b, 14- piston, 15- piston cylinder b, 16- damping springs d.
Specific embodiment
It elaborates with reference to Fig. 1 to the present invention.
A kind of metastable video monitoring equipment based on Internet of Things, the branch including supporting rack 1 and on supporting rack 1
Fagging 5, is placed with monitoring probe 2 in the support plate 5,5 both sides of support plate be equipped with positioned at upside piston plate a8 and
Piston plate b10, the piston plate a8 and piston plate b10 positioned at downside are respectively positioned in hollow connecting plate 6, the connecting plate 6
Outside is connected with horizontal shock-absorbing device, bottom and top are connected with longitudinal damping device, and the horizontal shock-absorbing device is positioned at branch
The curved bend bent plate 11 of 1 inside of support, the longitudinal direction damping device include the piston connected with 6 top of connecting plate by oil pipe 12
It is equipped with together in cylinder a3 and the piston cylinder b15, the piston cylinder a3 and piston cylinder b15 that are connected with 6 bottom of connecting plate by oil pipe 12
Walk damping device.
In the present embodiment, it is located on connecting plate 6 in the support plate 5 for being provided with monitoring probe 2,6 left and right sides of connecting plate connects
Be connected to horizontal shock-absorbing device, bottom and top are connected with longitudinal damping device, since what is mainly overcome in jolting is longitudinal direction
On movement caused by the unintelligible problem of picture, horizontal shock-absorbing device absorbs kinetic energy and is converted to elastic potential energy in transverse direction, on longitudinal direction
Support plate is moved up and down with jolting to a certain extent, by longitudinal damping device into row buffering after more than a certain range, from
And keep monitoring probe 2 static relative to supporting rack in a certain range, it is ensured that the clarity of monitored picture, it is ensured that picture
Influenced to minimize by jolting, protect monitoring probe 2 without damage, ensure that Internet of Things real time monitoring continuity and
Validity.
Specifically, horizontal shock-absorbing device is the curved bend bent plate 11 positioned at 1 inside of supporting rack, in the effect for receiving cross force
When, 11 curvature of curved bend bent plate of side reduces, the curvature increase of the curved bend bent plate 11 of opposite side, the kinetic energy of cross force
The elastic potential energy of curved bend bent plate 11 is converted to, support plate 5 is avoided and excessive displacement occurs in the horizontal, ensure that monitoring is visited
First 2 stabilization in the horizontal.
In the longitudinal direction, piston plate a8 and piston plate b10 keeps seal form with connecting plate 6, due to piston cylinder a3 and piston
Synchronous damping device is equipped in cylinder b15, when jolting, the support plate 5 for being provided with monitoring probe 2 can be in certain model
Interior synchronize is enclosed to jolt, it is static relative to supporting rack so as to fulfill monitoring probe 2, it is ensured that the clarity of monitored picture.With ground
The video monitoring equipment of absolute rest is kept to be used cooperatively, one dynamic one is quiet, can more reflect the truth of monitoring in real time.
Embodiment two:
As a special case of embodiment one, synchronous damping device described in embodiment one includes being arranged in piston cylinder a3
Two pistons 14 between damping spring a4, the damping spring b13 between two pistons 14 being arranged in piston cylinder b15,
It is filled in the fluid between piston 14 and piston plate b10 between the piston 14 and piston plate a8.
When jolting upward, piston plate a8 and piston plate b10 in connecting plate 6 and then drive monitoring to visit together
First 2 move upwards, and in the incipient stage since damping spring a4 is in free state, piston 14 will not be acted, work as both sides
Piston 14 when being contacted with damping spring a4, start compression shock absorption spring a4, along with the whole process that connecting plate 6 rises,
Connecting plate 6 is followed by supporting rack 1 and synchronizes and rises first, until then ascensional range slows down during compression shock absorption spring a4, protection monitoring is visited
First 2 is without damage.It jolts similar with upward principle of jolting downwards.
Embodiment three:
To optimize damping effect, fluid described in embodiment two is compressible fluid.In compression shock absorption spring a4 first
Compression fluid, then damping effect is more preferably apparent, is conducive to protect monitoring probe.
Example IV:
To advanced optimize damping effect, damping spring is provided between piston 14 and piston plate a8 described in embodiment one
C7 is provided with the total of damping spring d16, the damping spring c7 and damping spring d16 between the piston 14 and piston plate b10
Length is less than the length of connecting plate 6.By setting damping spring c7 and damping spring d16, damping spring c7 and damping spring d16
Total length be less than connecting plate 6 length, the falling process after jolting, damping spring c7 and damping spring d16 are helped
In 6 fast and stable of connecting plate, picture is prevented to be chronically at concussion state.
Embodiment five:
To optimize horizontal shock-absorbing effect, curved bend bent plate 11 described in embodiment one and supporting rack are uniformly set between 1 inside
There are multiple damping spring e9, damping spring e9 and curved bend bent plate 11 are applied in combination, and damping effect is more preferably.
Embodiment six:
To advanced optimize horizontal shock-absorbing effect, the quantity of damping spring e9 described in embodiment five is at least three, by
It being uniformly arranged between 1 inside of more than 11 supporting rack of curved bend bent plate in damping spring e9, then the length of damping spring e9 differs,
It is deformed first positioned at intermediate damping spring e9 when being compressed, then the damping spring e9 deformations at edge, progressive, more can
Abundant damping.
It is the embodiment of the utility model as described above.The utility model is not limited to the above embodiment, anyone
It should learn the structure change made under the enlightenment of the utility model, it is every that there is same or similar skill with the utility model
Art scheme, each falls within the scope of protection of the utility model.
Claims (6)
1. a kind of metastable video monitoring equipment based on Internet of Things, including supporting rack (1) and on supporting rack (1)
Support plate (5) is placed with monitoring probe (2) on the support plate (5), which is characterized in that support plate (5) both sides are equipped with
Piston plate a (8) positioned at the upside and piston plate b (10) positioned at downside, the piston plate a (8) and piston plate b (10) are respectively positioned on
In hollow connecting plate (6), horizontal shock-absorbing device is connected on the outside of the connecting plate (6), bottom and top are connected with longitudinal direction and subtract
Device is shaken, the horizontal shock-absorbing device is the curved bend bent plate (11) on the inside of supporting rack (1), the longitudinal direction damping device packet
It includes the piston cylinder a (3) connected with connecting plate (6) top by oil pipe (12) and is connected with connecting plate (6) bottom by oil pipe (12)
Synchronous damping device is equipped in logical piston cylinder b (15), the piston cylinder a (3) and piston cylinder b (15).
A kind of 2. metastable video monitoring equipment based on Internet of Things according to claim 1, which is characterized in that institute
Synchronous damping device is stated to include damping spring a (4) between two pistons (14) being arranged in piston cylinder a (3), be arranged on work
The damping spring b (13) between two pistons (14) in plug tube b (15), be filled in the piston (14) and piston plate a (8) it
Between fluid between piston (14) and piston plate b (10).
A kind of 3. metastable video monitoring equipment based on Internet of Things according to claim 2, which is characterized in that institute
Fluid is stated as compressible fluid.
A kind of 4. metastable video monitoring equipment based on Internet of Things according to claim 1, which is characterized in that institute
It states and damping spring c (7) is provided between piston (14) and piston plate a (8), set between the piston (14) and piston plate b (10)
It is equipped with damping spring d (16), the total length of the damping spring c (7) and damping spring d (16) are less than the length of connecting plate (6).
A kind of 5. metastable video monitoring equipment based on Internet of Things according to claim 1, which is characterized in that institute
Multiple damping spring e (9) are uniformly provided between stating on the inside of curved bend bent plate (11) and supporting rack (1).
A kind of 6. metastable video monitoring equipment based on Internet of Things according to claim 5, which is characterized in that institute
The quantity for stating damping spring e (9) is at least three.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201721346206.5U CN207514517U (en) | 2017-10-16 | 2017-10-16 | A kind of metastable video monitoring equipment based on Internet of Things |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201721346206.5U CN207514517U (en) | 2017-10-16 | 2017-10-16 | A kind of metastable video monitoring equipment based on Internet of Things |
Publications (1)
Publication Number | Publication Date |
---|---|
CN207514517U true CN207514517U (en) | 2018-06-19 |
Family
ID=62535086
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201721346206.5U Expired - Fee Related CN207514517U (en) | 2017-10-16 | 2017-10-16 | A kind of metastable video monitoring equipment based on Internet of Things |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN207514517U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107504342A (en) * | 2017-10-16 | 2017-12-22 | 河南天佑电气工程有限公司 | A kind of metastable video monitoring equipment based on Internet of Things |
-
2017
- 2017-10-16 CN CN201721346206.5U patent/CN207514517U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107504342A (en) * | 2017-10-16 | 2017-12-22 | 河南天佑电气工程有限公司 | A kind of metastable video monitoring equipment based on Internet of Things |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN104676122B (en) | Three-direction impact-resistant support and hanger | |
CN207108190U (en) | A kind of vertical lift car floor shock-absorption device | |
CN105782312A (en) | Shock-absorbing seat for mining machine | |
CN207121815U (en) | A kind of damping bearing of highway bridge | |
CN207514517U (en) | A kind of metastable video monitoring equipment based on Internet of Things | |
CN103662412B (en) | Packing chest suspention shock absorber and packing chest thereof | |
CN109931360A (en) | Attenuator device and rack | |
CN106894331B (en) | A kind of energy consumption limit support of included Viscous fluid damper | |
CN109811640B (en) | Two-stage buffering, limiting and shock isolating device | |
CN107504342A (en) | A kind of metastable video monitoring equipment based on Internet of Things | |
CN113202902A (en) | Damping base for rail transit management equipment | |
CN207518732U (en) | A kind of video monitoring equipment based on Internet of Things | |
CN213039737U (en) | Suspension damping mechanism of engineering vehicle | |
CN203651810U (en) | Car stopper | |
CN208460398U (en) | A kind of vehicle-mounted hard disks damping device | |
CN108131543A (en) | A kind of big data server antihunting device | |
RU2569970C2 (en) | Damper for freight railway vehicle | |
CN115853133A (en) | Three-dimensional shock insulation system | |
CN206735355U (en) | A kind of inclined unloader with shock-damping structure | |
CN209988312U (en) | Transport frame for firearms with anticollision | |
CN210600824U (en) | Shock absorption device for coal mine underground coal mining machine | |
CN207331451U (en) | A kind of stent easy to bridge machinery | |
CN204222571U (en) | Band carrier bar single shaft rubber suspension system | |
CN213839400U (en) | Damping device for bridge design | |
CN212801187U (en) | Anti-seismic bridge support |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20180619 Termination date: 20181016 |
|
CF01 | Termination of patent right due to non-payment of annual fee |