CN110958795A - Intelligent data acquisition terminal convenient to mount and prevent falling - Google Patents

Intelligent data acquisition terminal convenient to mount and prevent falling Download PDF

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Publication number
CN110958795A
CN110958795A CN201911283977.8A CN201911283977A CN110958795A CN 110958795 A CN110958795 A CN 110958795A CN 201911283977 A CN201911283977 A CN 201911283977A CN 110958795 A CN110958795 A CN 110958795A
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limiting
data
damping
groove
rods
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CN110958795B (en
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王诗涛
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Boqiaoduowen Technology Co.,Ltd.
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Anhui Boqia Duowen Intelligent Power Grid Technology Co ltd
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    • HELECTRICITY
    • H05ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
    • H05KPRINTED CIRCUITS; CASINGS OR CONSTRUCTIONAL DETAILS OF ELECTRIC APPARATUS; MANUFACTURE OF ASSEMBLAGES OF ELECTRICAL COMPONENTS
    • H05K5/00Casings, cabinets or drawers for electric apparatus
    • H05K5/02Details
    • H05K5/0204Mounting supporting structures on the outside of casings
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F16ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
    • F16FSPRINGS; SHOCK-ABSORBERS; MEANS FOR DAMPING VIBRATION
    • F16F15/00Suppression of vibrations in systems; Means or arrangements for avoiding or reducing out-of-balance forces, e.g. due to motion
    • F16F15/02Suppression of vibrations of non-rotating, e.g. reciprocating systems; Suppression of vibrations of rotating systems by use of members not moving with the rotating systems
    • F16F15/04Suppression of vibrations of non-rotating, e.g. reciprocating systems; Suppression of vibrations of rotating systems by use of members not moving with the rotating systems using elastic means
    • F16F15/046Suppression of vibrations of non-rotating, e.g. reciprocating systems; Suppression of vibrations of rotating systems by use of members not moving with the rotating systems using elastic means using combinations of springs of different kinds
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F16ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
    • F16FSPRINGS; SHOCK-ABSORBERS; MEANS FOR DAMPING VIBRATION
    • F16F15/00Suppression of vibrations in systems; Means or arrangements for avoiding or reducing out-of-balance forces, e.g. due to motion
    • F16F15/02Suppression of vibrations of non-rotating, e.g. reciprocating systems; Suppression of vibrations of rotating systems by use of members not moving with the rotating systems
    • F16F15/04Suppression of vibrations of non-rotating, e.g. reciprocating systems; Suppression of vibrations of rotating systems by use of members not moving with the rotating systems using elastic means
    • F16F15/08Suppression of vibrations of non-rotating, e.g. reciprocating systems; Suppression of vibrations of rotating systems by use of members not moving with the rotating systems using elastic means with rubber springs ; with springs made of rubber and metal
    • F16F15/085Use of both rubber and metal springs
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F16ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
    • F16FSPRINGS; SHOCK-ABSORBERS; MEANS FOR DAMPING VIBRATION
    • F16F2238/00Type of springs or dampers
    • F16F2238/02Springs
    • F16F2238/022Springs leaf-like, e.g. of thin, planar-like metal
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F16ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
    • F16FSPRINGS; SHOCK-ABSORBERS; MEANS FOR DAMPING VIBRATION
    • F16F2238/00Type of springs or dampers
    • F16F2238/02Springs
    • F16F2238/026Springs wound- or coil-like

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  • Engineering & Computer Science (AREA)
  • General Engineering & Computer Science (AREA)
  • Physics & Mathematics (AREA)
  • Acoustics & Sound (AREA)
  • Aviation & Aerospace Engineering (AREA)
  • Mechanical Engineering (AREA)
  • Microelectronics & Electronic Packaging (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Studio Devices (AREA)

Abstract

The invention discloses an intelligent data acquisition terminal convenient for hanging and falling prevention, which comprises a shell, a protection plate, a damping plate, an intelligent acquisition terminal, a connecting rod, a stabilizing block, a limiting rod, a first limiting spring, a first limiting block, a sliding block, a rotating rod, a pushing rod, a second limiting spring, a second limiting block, a connecting block and a connecting spring, wherein damping grooves are formed in six surfaces of the shell, and the damping plate is connected in the damping grooves in a sliding manner. Thereby carrying out secondary shock absorption on the shell.

Description

Intelligent data acquisition terminal convenient to mount and prevent falling
Technical Field
The invention relates to a data acquisition terminal, in particular to an intelligent data acquisition terminal convenient to mount and prevent falling.
Background
The DATA acquisition terminal is mainly applied to explosion-proof and field environments with power supply and the like, is a GPRS terminal device specially designed for meeting the requirements of customers and markets, keeps all the advantages of the DATA01 of AX, enables a user to really enable the device to be online in real time, and facilitates the user to check DATA and observe field conditions.
The intelligent data acquisition terminal is provided with a plurality of communication ports and a wireless communication module, so that the applicability of the intelligent data acquisition terminal is more flexible, the intelligent data acquisition terminal can be externally connected with and acquire information of various manufacturing production equipment, the field management unification of customers is realized, and the accompanying training, management and maintenance cost is reduced; simultaneously for the interface of purchasing production facility, initial cost greatly reduced for the considerable fund of customer saving, however, this intelligent data acquisition terminal can't carry out accurate analysis to the data that acquire to adjust the angle that acquires and change the definition, simultaneously, do not set for a safe protective structure to data acquisition terminal, for this reason, we propose one kind be convenient for carry with prevent intelligent data acquisition terminal that falls.
Disclosure of Invention
The intelligent data acquisition terminal is convenient to mount and prevent from falling, the illumination image is accurately analyzed through the arrangement of the analysis module and the adjustment module, the accurate analysis of picture shooting is increased, the shooting quality is improved, the time for repeated shooting is saved, the working efficiency is improved, the intelligent data acquisition terminal is safely protected through the mutual matching of the connecting rod, the limiting rod, the push rod and the rotating rod, the damping effect is improved, the protection of the shell is enhanced, the economic loss is reduced, and the working efficiency is improved.
The technical problem solved by the invention is as follows:
(1) how to perform accurate data analysis on picture information shot by a camera through an analysis module so as to obtain a corresponding influence value, and reversely calculating the picture definition under certain environment through the influence value so as to adjust the shooting angle of the camera, so that the problem that the definition of the picture is difficult to be accurately analyzed so as to reversely calculate illumination in the prior art is solved;
(2) how to pass through the setting of guard plate and coupling spring, carry out the shock attenuation for the first time to the casing, the connecting rod drives the gag lever post motion, the gag lever post drives the first spacing spring of first stopper compression, make first spacing spring produce a reverse driving force, the catch bar that sets up in gag lever post and the adjacent shock attenuation inslot is mutually supported, make the spacing spring of second in first spacing spring and the adjacent shock attenuation inslot, provide a reverse driving force to the connecting rod jointly, thereby carry out the secondary shock attenuation to the casing, solve among the prior art and be difficult to comprehensive carry out safety protection's problem to intelligent acquisition terminal.
The purpose of the invention can be realized by the following technical scheme: an intelligent data acquisition terminal convenient to mount and prevent falling comprises a shell, protection plates, a damping plate, an intelligent acquisition terminal, a connecting rod, a stabilizing block, a limiting rod, a first limiting spring, a first limiting block, a sliding block, a rotating rod, a pushing rod, a second limiting spring, a second limiting block, a connecting block and a connecting spring, wherein damping grooves are formed in six surfaces of the shell, the damping plate is connected in the damping grooves in a sliding mode, the protection plates are arranged on one sides, away from the shell, of the damping plate and connected with the damping plate in a sliding mode, and the intelligent acquisition terminal is mounted inside the shell;
limiting rods are symmetrically arranged in the shock absorption grooves, the limiting rods are connected in the shock absorption grooves in a sliding mode, first limiting grooves are symmetrically formed in the shock absorption grooves, first limiting blocks are connected in the first limiting grooves in a sliding mode, the top ends of the first limiting blocks are fixedly connected with the bottoms of the limiting rods, first limiting springs are arranged in the first limiting grooves, and two ends of each first limiting spring are fixedly connected with the shell and the corresponding first limiting block respectively;
connecting rods are symmetrically arranged in the damping grooves, and two ends of each connecting rod are respectively rotatably connected with the limiting rods and the damping plates through hinges;
the damping device is characterized in that pushing rods are symmetrically arranged in the damping groove, the pushing rods are connected in the damping groove in a sliding mode, the pushing rods and the limiting rods are vertically arranged, second limiting grooves are symmetrically formed in the damping groove, second limiting blocks are connected in the second limiting grooves in a sliding mode, the top ends of the second limiting blocks are fixedly connected with the bottoms of the pushing rods, second limiting springs are arranged in the second limiting grooves, and two ends of each second limiting spring are fixedly connected with the shell and the corresponding second limiting block respectively;
rotating rods are symmetrically arranged in the damping grooves, and two ends of each rotating rod are respectively connected with the pushing rod and the damping plate in a rotating mode through hinges;
the shock attenuation board is kept away from the one end symmetry of casing and has been seted up the protecting groove, the one end setting that the guard plate is close to the shock attenuation board is in the corresponding protecting groove, the one end that the guard plate is close to the shock attenuation board is seted up flutedly, the symmetry is provided with coupling spring in the recess, coupling spring's both ends respectively with guard plate and shock attenuation board fixed connection.
The invention has further technical improvements that: the damping groove is symmetrically provided with stabilizing grooves on two sides, stabilizing blocks are symmetrically fixed on two sides of the damping plate, and the stabilizing blocks are connected in the stabilizing grooves in a sliding mode.
The invention has further technical improvements that: the other two sides of the damping groove are symmetrically provided with sliding grooves, the other two sides of the damping plate are symmetrically fixed with sliding blocks, and the sliding blocks are connected in the sliding grooves in a sliding mode.
The invention has further technical improvements that: first spacing groove and second spacing groove are perpendicular setting, the one end that first spacing spring was kept away from to the gag lever post and the one end that second spacing spring was kept away from to the catch bar are mutually supported.
The invention has further technical improvements that: the connecting groove is formed in one side of the protection groove, connecting blocks are symmetrically fixed to two side walls of the groove, and the connecting blocks are connected in the connecting groove in a sliding mode.
The invention has further technical improvements that: a hanging rod is fixed on one side of the shell, and a rubber layer is wrapped on the side wall of the shell.
The invention has further technical improvements that: the specific use method of the intelligent data acquisition terminal convenient for mounting and falling prevention comprises the following steps:
p1: the shell is hung on a fixed mounting rack or a supporting rack through a hanging rod;
p2: when the hanging rod is accidentally separated from the mounting frame or the support frame, the shell moves towards the ground, when the protection plate is in contact with the ground, the end part, close to the damping plate, of the protection plate enters the protection groove under the action of the gravity of the shell, the position between the protection plate and the damping plate is changed, so that the connecting spring is compressed, and a reverse pushing force is generated after the connecting spring is compressed to drive the protection plate to move towards the direction far away from the damping plate;
p3: the shock attenuation board also moves towards the direction of casing, the shock attenuation board moves the connecting rod motion that two symmetries set up, the connecting rod drives the gag lever post and moves towards the direction of keeping away from the connecting rod, the gag lever post drives first stopper motion, first stopper compresses first limit spring, two shock attenuation grooves that the shock attenuation groove is adjacent keep quiescent condition under the condition of not atress, the catch bar is rather than the catch bar interact of adjacent shock attenuation inslot, because the catch bar is opposite with the effort of gag lever post, make interact between gag lever post and the catch bar, reach trilateral absorbing effect, meanwhile, the bull stick motion is moved to the shock attenuation board area, make the bull stick promote the catch bar motion, the catch bar moves towards the direction of bull stick, thereby drive the motion of second stopper, second stopper compression second spring, reach absorbing effect.
The invention has further technical improvements that: the intelligent acquisition terminal comprises a camera, a processor, a database, an analysis module, a monitoring module, an adjusting module and a display screen;
the camera is used for acquiring data information of an object in real time, automatically acquiring image information and transmitting the image information to the analysis module through the processor, the monitoring module is used for monitoring the external illumination intensity, the object color and the weather in real time, acquiring the illumination intensity data, the object color data and the weather information, and the weather information comprises sunny data, cloudy data and rainy data and is transmitted to the analysis module;
the database is internally stored with air permeability strength information, the permeability strength information comprises clear-day permeability data, cloudy-day permeability data and rainy-day permeability data, the analysis module is used for analyzing and operating the image information, the illumination strength data, the object color data and the weather information to obtain illumination strength data EiCalculating an influence value and transmitting the influence value to a regulating module;
the adjusting module is used for adjusting the illumination intensity data, the definition data, the color data and the air permeability intensity information, and the specific operation process of the adjusting tank is as follows:
k1: before the camera shoots again, the monitoring module is firstly used for monitoring the illumination intensity data, the color data and the weather information and is brought into the calculation formula
Figure BDA0002317509240000051
Obtaining illumination intensity data required for shooting the cleaning picture;
k2: adjusting the shooting angle of the intelligent acquisition terminal according to the required illumination intensity data calculated in the K1;
k3: shooting an object according to the adjusted intelligent acquisition terminal, and transmitting the shot picture data to a display screen;
the display screen is used for displaying the pictures shot by the intelligent acquisition terminal.
The invention has further technical improvements that: the specific operation process of the analysis operation is as follows:
the method comprises the following steps: acquiring image information, identifying the image information through an image identification unit, converting the image information into picture data, acquiring definition data and color data of a picture, and sequentially marking the definition data and the color data as Qi and Wi, wherein i is 1,2,3.
Step two: acquiring illumination intensity data and object color data, sequentially marking the illumination intensity data and the object color data as Ei and Ri, acquiring weather information, sequentially marking the weather information as Ti, Yi and Ui according to sunny days, cloudy days and rainy days, wherein i is 1,2,3.. once.n, and Qi, Wi, Ei, Ri, Ti, Yi and Ui are in one-to-one correspondence;
thirdly, acquiring corresponding clear-day permeability data, cloudy-day permeability data and rainy-day permeability data from a database according to the clear-day, cloudy-day and rainy-day data acquired in the second step, and sequentially marking the clear-day permeability data, cloudy-day permeability data and rainy-day permeability data as ti, yi and ui;
step four: substituting the color data Wi and the object color data Ri into a calculation formula H-Ri-Wi, wherein H represents the chroma difference between the color data and the object color data, and the chroma difference represents the number of grades of phase difference between the two colors;
step five: bringing picture definition data, illumination intensity data and air permeability intensity information into a calculation formula
Figure BDA0002317509240000061
Wherein m is expressed as an influence factor of the illumination intensity on the definition of the picture.
Compared with the prior art, the invention has the beneficial effects that:
1. when the invention is used, the camera collects the data information of an object in real time and automatically acquires the image information, the image information is transmitted to the analysis module through the processor, the monitoring module monitors the data in real time to obtain the illumination intensity data, the object color data and the weather information and transmits the data to the analysis module, the air permeability intensity information is stored in the database, the analysis module analyzes the image information, the illumination intensity data, the object color data and the weather information, the adjustment module is used for adjusting the illumination intensity data, the definition data, the color data and the air permeability intensity information, the image information shot by the camera is accurately analyzed through the analysis module to obtain the corresponding influence value, the definition of the image in a certain environment is reversely calculated through the influence value, thereby adjusting the shooting angle of the camera, the accurate analysis of the picture shooting scores is increased, the shooting quality is improved, the time for repeated shooting is saved, and the working efficiency is improved.
2. When the protection plate is contacted with the ground, the end part of the protection plate close to the damping plate enters the protection groove under the action of the gravity of the shell, the position between the protection plate and the damping plate is changed, so that the connecting spring is compressed, a reverse driving force is generated after the connecting spring is compressed, the protection plate is driven to move towards the direction far away from the damping plate, the damping plate also moves towards the shell, the damping plate drives two symmetrically arranged connecting rods to move, the connecting rod drives the limiting rod to move towards the direction far away from the connecting rod, the limiting rod drives the first limiting block to move, the first limiting block compresses the first limiting spring, two adjacent damping grooves of the damping grooves keep a static state under the condition of no stress, the limiting rod interacts with the push rod in the adjacent damping groove, and the interaction between the limiting rod and the push rod is realized because the acting force of the push rod is opposite to that the limiting rod interacts with the push rod, the damping plate drives the rotating rod to move, so that the rotating rod pushes the pushing rod to move, the pushing rod moves towards the rotating rod and drives the second limiting block to move, the second limiting block compresses the second limiting spring, the damping effect is achieved, the shell is subjected to primary damping through the arrangement of the protection plate and the connecting spring, the connecting rod drives the limiting rod to move, the limiting rod drives the first limiting block to compress the first limiting spring and enables the first limiting spring to generate a reverse driving force, the limiting rod is matched with the pushing rod arranged in the adjacent damping groove, the first limiting spring and the second limiting spring in the adjacent damping groove provide a reverse driving force for the connecting rod together, so that secondary damping is performed on the shell, and meanwhile, three-side common damping is realized through the structures in the three damping grooves on the surface of the shell, the shock absorption effect is improved, the structure is simple, the protection performance of the shell is enhanced, the economic loss is reduced, and the working efficiency is improved.
Drawings
In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.
FIG. 1 is a schematic overall perspective view of the present invention;
FIG. 2 is a schematic view of the overall internal structure of the present invention;
FIG. 3 is an enlarged view of the area A of the present invention;
FIG. 4 is an enlarged view of the area B of the present invention;
FIG. 5 is a schematic view of a connection structure of the protection plate and the shock absorption plate according to the present invention.
In the figure: 1. a housing; 2. a protection plate; 3. a damper plate; 4. an intelligent acquisition terminal; 5. a connecting rod; 6. a stabilizing block; 7. a stabilizing slot; 8. a damping groove; 9. a limiting rod; 10. a first limit groove; 11. a first limit spring; 12. a first stopper; 13. a chute; 14. a slider; 15. a rotating rod; 16. a push rod; 17. a second limit spring; 18. a second limiting block; 19. a second limit groove; 20. a protective bath; 21. connecting blocks; 22. a connecting spring; 23. a groove; 24. and connecting the grooves.
Detailed Description
The technical solutions of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
Referring to fig. 1-5, an intelligent data acquisition terminal convenient for mounting and falling prevention comprises a shell 1, a protection plate 2, a damping plate 3, an intelligent acquisition terminal 4, a connecting rod 5, a stabilizing block 6, a stabilizing groove 7, a damping groove 8, a limiting rod 9, a first limiting groove 10, a first limiting spring 11, a first limiting block 12, a sliding groove 13, a sliding block 14, a rotating rod 15, a pushing rod 16, a second limiting spring 17, a second limiting block 18, a second limiting groove 19, a protection groove 20, a connecting block 21, a connecting spring 22, a groove 23 and a connecting groove 24, wherein the damping groove 8 is formed in all six surfaces of the shell 1, the damping plate 3 is connected in the damping groove 8 in a sliding manner, the protection plate 2 is arranged on one side of the damping plate 3, which is far away from the shell 1, the protection plate 2 is connected with the damping plate 3 in a sliding manner, and the intelligent acquisition terminal 4 is arranged inside;
stabilizing grooves 7 are symmetrically formed in two sides of the damping groove 8, stabilizing blocks 6 are symmetrically fixed to two sides of the damping plate 3, and the stabilizing blocks 6 are connected in the stabilizing grooves 7 in a sliding mode;
limiting rods 9 are symmetrically arranged in the shock absorption groove 8, the limiting rods 9 are connected in the shock absorption groove 8 in a sliding mode, first limiting grooves 10 are symmetrically formed in the shock absorption groove 8, first limiting blocks 12 are connected in the first limiting grooves 10 in a sliding mode, the top ends of the first limiting blocks 12 are fixedly connected with the bottoms of the limiting rods 9, first limiting springs 11 are arranged in the first limiting grooves 10, and two ends of each first limiting spring 11 are fixedly connected with the shell 1 and the corresponding first limiting block 12 respectively;
the connecting rods 5 are symmetrically arranged in the damping grooves 8, and two ends of each connecting rod 5 are rotatably connected with the limiting rods 9 and the damping plates 3 through hinges respectively;
sliding grooves 13 are symmetrically formed in the other two sides of the damping groove 8, sliding blocks 14 are symmetrically fixed to the other two sides of the damping plate 3, and the sliding blocks 14 are connected in the sliding grooves 13 in a sliding mode;
push rods 16 are symmetrically arranged in the shock absorption groove 8, the push rods 16 are connected in the shock absorption groove 8 in a sliding mode, the push rods 16 and the limiting rods 9 are vertically arranged, second limiting grooves 19 are symmetrically arranged in the shock absorption groove 8, second limiting blocks 18 are connected in the second limiting grooves 19 in a sliding mode, the top ends of the second limiting blocks 18 are fixedly connected with the bottom of the push rods 16, second limiting springs 17 are arranged in the second limiting grooves 19, and two ends of each second limiting spring 17 are fixedly connected with the shell 1 and the corresponding second limiting block 18 respectively;
the first limiting groove 10 and the second limiting groove 19 are vertically arranged, and one end of the limiting rod 9, which is far away from the first limiting spring 11, and one end of the pushing rod 16, which is far away from the second limiting spring 17, are matched with each other;
rotating rods 15 are symmetrically arranged in the damping groove 8, and two ends of each rotating rod 15 are rotatably connected with the push rod 16 and the damping plate 3 through hinges respectively;
protection grooves 20 are symmetrically formed in one end, far away from the shell 1, of the shock absorption plate 3, one end, close to the shock absorption plate 3, of the protection plate 2 is arranged in the corresponding protection groove 20, a groove 23 is formed in one end, close to the shock absorption plate 3, of the protection plate 2, a connecting spring 22 is symmetrically arranged in the groove 23, and two ends of the connecting spring 22 are fixedly connected with the protection plate 2 and the shock absorption plate 3 respectively;
a connecting groove 24 is formed in one side of the protective groove 20, connecting blocks 21 are symmetrically fixed to two side walls of the groove 23, and the connecting blocks 21 are connected in the connecting groove 24 in a sliding mode;
a hanging rod is fixed on one side of the shell 1, and a rubber layer is wrapped on the side wall of the shell 1;
the specific use method of the intelligent data acquisition terminal convenient for mounting and falling prevention comprises the following steps:
p1: the shell 1 is hung on a fixed mounting rack or a supporting rack through a hanging rod;
p2: when the hanging rod is accidentally separated from the mounting frame or the support frame, the shell 1 moves towards the direction of the ground, when the protection plate 2 is in contact with the ground, the end part, close to the shock absorption plate 3, of the protection plate 2 enters the protection groove 20 under the action of the gravity of the shell 1, the position between the protection plate 2 and the shock absorption plate 3 is changed, so that the connecting spring 22 is compressed, and a reverse pushing force is generated after the connecting spring 22 is compressed to drive the protection plate 2 to move towards the direction far away from the shock absorption plate 3;
p3: the damping plate 3 also moves towards the direction of the shell 1, the damping plate 3 drives two connecting rods 5 which are symmetrically arranged to move, the connecting rods 5 drive the limiting rods 9 to move towards the direction far away from the connecting rods 5, the limiting rods 9 drive the first limiting blocks 12 to move, the first limiting blocks 12 compress the first limiting springs 11, the two adjacent damping grooves 8 of the damping grooves 8 keep a static state under the condition of no stress, the limiting rods 9 interact with the pushing rods 16 in the adjacent damping grooves 8, the interaction between the limiting rods 9 and the pushing rods 16 is realized due to the opposite acting force of the pushing rods 16 and the limiting rods 9, so that the three-side damping effect is achieved, meanwhile, the damping plate 3 drives the rotating rod 15 to move, the rotating rod 15 pushes the pushing rods 16 to move towards the rotating rod 15, so as to drive the second limiting blocks 18 to move, the second limiting blocks 18 compress the second limiting springs 17, the shock absorption effect is achieved;
the intelligent acquisition terminal 4 comprises a camera, a processor, a database, an analysis module, a monitoring module, an adjusting module and a display screen;
the camera is used for acquiring data information of an object in real time, automatically acquiring image information and transmitting the image information to the analysis module through the processor, the monitoring module is used for monitoring the external illumination intensity, the object color and the weather in real time, acquiring the illumination intensity data, the object color data and the weather information, and the weather information comprises sunny data, cloudy data and rainy data and is transmitted to the analysis module;
the system comprises a database, an analysis module and an analysis module, wherein the database stores air permeability strength information, the permeability strength information comprises clear-day permeability data, cloudy-day permeability data and rainy-day permeability data, the analysis module is used for carrying out analysis operation on image information, illumination intensity data, object color data and weather information, and the specific operation process of the analysis operation is as follows:
the method comprises the following steps: acquiring image information, identifying the image information through an image identification unit, converting the image information into picture data, acquiring definition data and color data of a picture, and sequentially marking the definition data and the color data as Qi and Wi, wherein i is 1,2,3.
Step two: acquiring illumination intensity data and object color data, sequentially marking the illumination intensity data and the object color data as Ei and Ri, acquiring weather information, sequentially marking the weather information as Ti, Yi and Ui according to sunny days, cloudy days and rainy days, wherein i is 1,2,3.. once.n, and Qi, Wi, Ei, Ri, Ti, Yi and Ui are in one-to-one correspondence;
thirdly, acquiring corresponding clear-day permeability data, cloudy-day permeability data and rainy-day permeability data from a database according to the clear-day, cloudy-day and rainy-day data acquired in the second step, and sequentially marking the clear-day permeability data, cloudy-day permeability data and rainy-day permeability data as ti, yi and ui;
step four: substituting the color data Wi and the object color data Ri into a calculation formula H-Ri-Wi, wherein H represents the chroma difference between the color data and the object color data, and the chroma difference represents the number of grades of phase difference between the two colors;
step five: bringing picture definition data, illumination intensity data and air permeability intensity information into a calculation formula
Figure BDA0002317509240000111
Wherein m is an influence factor of the illumination intensity on the definition of the picture;
step six: the illumination intensity data EiThe influence value calculation formula is transmitted to the adjusting module;
the adjusting module is used for adjusting the illumination intensity data, the definition data, the color data and the air permeability intensity information, and the specific operation process of the adjusting tank is as follows:
k1: before the camera shoots again, the monitoring module is firstly used for monitoring the illumination intensity data, the color data and the weather information and is brought into the calculation formula
Figure BDA0002317509240000112
Obtaining illumination intensity data required for shooting the cleaning picture;
k2: adjusting the shooting angle of the intelligent acquisition terminal 4 according to the required illumination intensity data calculated in the K1;
k3: shooting an object according to the adjusted intelligent acquisition terminal 4, and transmitting the shot picture data to a display screen;
the display screen is used for displaying the pictures shot by the intelligent acquisition terminal 4.
The working principle is as follows: when the invention is used, firstly, the camera collects data information of an object in real time and automatically acquires image information, the image information is transmitted to the analysis module through the processor, the monitoring module monitors the data in real time to obtain illumination intensity data, object color data and weather information and transmits the data to the analysis module, the database stores the air permeability intensity information, the analysis module analyzes the image information, the illumination intensity data, the object color data and the weather information, the adjusting module is used for adjusting the illumination intensity data, the definition data, the color data and the air permeability intensity information, the shell 1 is hung on a fixed mounting rack or a supporting rack through a hanging rod, when the hanging rod is accidentally separated from the mounting rack or the supporting rack, the shell 1 moves towards the direction of the ground, when the protection plate 2 is contacted with the ground, the protection plate 2 enters the protection groove 20 under the action of the gravity of the shell 1, the end part of the protection plate 2 close to the shock absorption plate 3 In, the position between the protection plate 2 and the damping plate 3 changes, so that the connecting spring 22 is compressed, a reverse driving force is generated after the connecting spring 22 is compressed, the protection plate 2 is driven to move towards the direction far away from the damping plate 3, the damping plate 3 also moves towards the direction of the shell 1, the damping plate 3 drives the two symmetrically arranged connecting rods 5 to move, the connecting rods 5 drive the limiting rods 9 to move towards the direction far away from the connecting rods 5, the limiting rods 9 drive the first limiting blocks 12 to move, the first limiting blocks 12 compress the first limiting springs 11, the two damping grooves 8 adjacent to the damping grooves 8 are kept in a static state under the condition of no stress, the limiting rods 9 interact with the push rods 16 in the adjacent damping grooves 8, and the acting forces of the push rods 16 and the limiting rods 9 are opposite, so that the limiting rods 9 and the push rods 16 interact with each other, and the effect of three-sided damping is achieved, meanwhile, the damping plate 3 drives the rotating rod 15 to move, so that the rotating rod 15 pushes the pushing rod 16 to move, the pushing rod 16 moves towards the rotating rod 15, the second limiting block 18 is driven to move, the second limiting block 18 compresses the second limiting spring 17, and the damping effect is achieved.
The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise forms disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims (9)

1. The utility model provides an intelligent data acquisition terminal convenient to mount and prevent falling which characterized in that: the intelligent acquisition device comprises a shell (1), protection plates (2), a damping plate (3), an intelligent acquisition terminal (4), a connecting rod (5), a stabilizing block (6), a limiting rod (9), a first limiting spring (11), a first limiting block (12), a sliding block (14), a rotating rod (15), a pushing rod (16), a second limiting spring (17), a second limiting block (18), a connecting block (21) and a connecting spring (22), wherein damping grooves (8) are formed in six sides of the shell (1), the damping plate (3) is connected in the damping grooves (8) in a sliding mode, the protection plates (2) are arranged on one sides, away from the shell (1), of the damping plate (3), the protection plates (2) are connected with the damping plate (3) in a sliding mode, and the intelligent acquisition terminal (4) is installed inside the shell (1);
limiting rods (9) are symmetrically arranged in the damping groove (8), the limiting rods (9) are connected in the damping groove (8) in a sliding mode, first limiting grooves (10) are symmetrically formed in the damping groove (8), first limiting blocks (12) are connected in the first limiting grooves (10) in a sliding mode, the top ends of the first limiting blocks (12) are fixedly connected with the bottoms of the limiting rods (9), first limiting springs (11) are arranged in the first limiting grooves (10), and two ends of each first limiting spring (11) are fixedly connected with the shell (1) and the corresponding first limiting block (12) respectively;
the connecting rods (5) are symmetrically arranged in the damping grooves (8), and two ends of each connecting rod (5) are rotatably connected with the limiting rods (9) and the damping plate (3) through hinges respectively;
push rods (16) are symmetrically arranged in the shock absorption groove (8), the push rods (16) are connected in the shock absorption groove (8) in a sliding mode, the push rods (16) and the limiting rods (9) are vertically arranged, second limiting grooves (19) are symmetrically formed in the shock absorption groove (8), second limiting blocks (18) are connected in the second limiting grooves (19) in a sliding mode, the top ends of the second limiting blocks (18) are fixedly connected with the bottom of the push rods (16), second limiting springs (17) are arranged in the second limiting grooves (19), and two ends of each second limiting spring (17) are fixedly connected with the shell (1) and the corresponding second limiting block (18) respectively;
rotating rods (15) are symmetrically arranged in the damping groove (8), and two ends of each rotating rod (15) are rotatably connected with the pushing rod (16) and the damping plate (3) through hinges respectively;
protection groove (20) have been seted up to the one end symmetry of casing (1) is kept away from in shock attenuation board (3), the one end setting that guard plate (2) are close to shock attenuation board (3) is in corresponding protection groove (20), the one end that guard plate (2) are close to shock attenuation board (3) is seted up fluted (23), the symmetry is provided with connecting spring (22) in recess (23), the both ends of connecting spring (22) respectively with guard plate (2) and shock attenuation board (3) fixed connection.
2. The intelligent data acquisition terminal convenient to mount and prevent falling according to claim 1, characterized in that, stable groove (7) has been seted up to shock attenuation groove (8) bilateral symmetry, the shock attenuation board (3) bilateral symmetry is fixed with stable piece (6), stable piece (6) sliding connection is in stable groove (7).
3. The intelligent data acquisition terminal convenient to mount and prevent falling according to claim 1, characterized in that spout (13) have been seted up to shock attenuation groove (8) other bilateral symmetry, the other bilateral symmetry of shock attenuation board (3) is fixed with slider (14), slider (14) sliding connection is in spout (13).
4. The intelligent data acquisition terminal convenient to mount and prevent falling according to claim 1, wherein the first limiting groove (10) and the second limiting groove (19) are vertically arranged, and one end of the limiting rod (9) far away from the first limiting spring (11) and one end of the push rod (16) far away from the second limiting spring (17) are matched with each other.
5. The intelligent data acquisition terminal convenient to mount and prevent falling according to claim 1, wherein a connecting groove (24) is formed in one side of the protection groove (20), connecting blocks (21) are symmetrically fixed to two side walls of the groove (23), and the connecting blocks (21) are slidably connected in the connecting groove (24).
6. The intelligent data acquisition terminal convenient to mount and prevent falling according to claim 1, characterized in that a hanging rod is fixed on one side of the shell (1), and a rubber layer is wrapped on the side wall of the shell (1).
7. The intelligent data acquisition terminal convenient to mount and prevent falling of claim 1, wherein the specific use method of the intelligent data acquisition terminal convenient to mount and prevent falling is as follows:
p1: the shell (1) is hung on a fixed mounting rack or a supporting rack through a hanging rod;
p2: when the hanging rod is accidentally separated from the mounting frame or the support frame, the shell (1) moves towards the ground, when the protection plate (2) is in contact with the ground, the end part, close to the shock absorption plate (3), of the protection plate (2) enters the protection groove (20) under the action of the gravity of the shell (1), the position between the protection plate (2) and the shock absorption plate (3) is changed, so that the connecting spring (22) is compressed, and a reverse pushing force is generated after the connecting spring (22) is compressed to drive the protection plate (2) to move towards the direction away from the shock absorption plate (3);
p3: the damping plate (3) also moves towards the direction of the shell (1), the damping plate (3) drives two connecting rods (5) which are symmetrically arranged to move, the connecting rods (5) drive the limiting rods (9) to move towards the direction far away from the connecting rods (5), the limiting rods (9) drive the first limiting blocks (12) to move, the first limiting blocks (12) compress the first limiting springs (11), two adjacent damping grooves (8) of the damping grooves (8) keep a static state under the condition of no stress, the limiting rods (9) interact with the push rods (16) in the adjacent damping grooves (8), and the push rods (16) and the limiting rods (9) have opposite acting forces, so that the limiting rods (9) and the push rods (16) interact with each other to achieve the effect of three-side damping, meanwhile, the damping plate (3) drives the rotating rods (15) to move, and the rotating rods (15) drive the push rods (16) to move, the push rod (16) moves towards the direction of the rotating rod (15) so as to drive the second limiting block (18) to move, and the second limiting block (18) compresses the second limiting spring (17) to achieve the damping effect.
8. The intelligent data acquisition terminal convenient to mount and prevent falling of claim 1, wherein the intelligent acquisition terminal (4) comprises a camera, a processor, a database, an analysis module, a monitoring module, an adjustment module and a display screen;
the camera is used for acquiring data information of an object in real time, automatically acquiring image information and transmitting the image information to the analysis module through the processor, the monitoring module is used for monitoring the external illumination intensity, the object color and the weather in real time, acquiring the illumination intensity data, the object color data and the weather information, and the weather information comprises sunny data, cloudy data and rainy data and is transmitted to the analysis module;
the database is internally stored with air permeability strength information, the permeability strength information comprises clear-day permeability data, cloudy-day permeability data and rainy-day permeability data, the analysis module is used for analyzing and operating the image information, the illumination strength data, the object color data and the weather information to obtain illumination strength data EiThe calculation formula of the influence value is calculated,and transmits it to the regulating module;
the adjusting module is used for adjusting the illumination intensity data, the definition data, the color data and the air permeability intensity information, and the specific operation process of the adjusting tank is as follows:
k1: before the camera shoots again, the monitoring module is firstly used for monitoring the illumination intensity data, the color data and the weather information and is brought into the calculation formula
Figure FDA0002317509230000041
Obtaining illumination intensity data required for shooting the cleaning picture;
k2: adjusting the shooting angle of the intelligent acquisition terminal (4) according to the required illumination intensity data calculated in the K1;
k3: shooting an object according to the adjusted intelligent acquisition terminal (4), and transmitting the shot picture data to a display screen;
the display screen is used for displaying pictures shot by the intelligent acquisition terminal (4).
9. The intelligent data acquisition terminal convenient to mount and prevent falling of claim 8, characterized in that, the specific operation process of the analysis operation is:
the method comprises the following steps: acquiring image information, identifying the image information through an image identification unit, converting the image information into picture data, acquiring definition data and color data of a picture, and sequentially marking the definition data and the color data as Qi and Wi, wherein i is 1,2,3.
Step two: acquiring illumination intensity data and object color data, sequentially marking the illumination intensity data and the object color data as Ei and Ri, acquiring weather information, sequentially marking the weather information as Ti, Yi and Ui according to sunny days, cloudy days and rainy days, wherein i is 1,2,3.. once.n, and Qi, Wi, Ei, Ri, Ti, Yi and Ui are in one-to-one correspondence;
thirdly, acquiring corresponding clear-day permeability data, cloudy-day permeability data and rainy-day permeability data from a database according to the clear-day, cloudy-day and rainy-day data acquired in the second step, and sequentially marking the clear-day permeability data, cloudy-day permeability data and rainy-day permeability data as ti, yi and ui;
step four: substituting the color data Wi and the object color data Ri into a calculation formula H-Ri-Wi, wherein H represents the chromaticity difference between the color data and the object color data;
step five: bringing picture definition data, illumination intensity data and air permeability intensity information into a calculation formula
Figure FDA0002317509230000051
Wherein m is expressed as an influence factor of the illumination intensity on the definition of the picture.
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Address before: 230000 northeast corner of the intersection of YaoYuan road and Taihe Road, Luyang Industrial Park, Luyang District, Hefei City, Anhui Province

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