CN116366940A - Visual identification device is used in processing based on computer - Google Patents

Abstract

The invention discloses a visual identification device for processing based on a computer, wherein both ends of a middle mounting strip are provided with overturning mounting strips, the middle parts of the middle mounting strip and the overturning mounting strip are provided with embedded mounting blocks, the end parts of the embedded mounting blocks are provided with end control boxes, the inside of each end control box is provided with an isolation circular plate, the side surfaces of the isolation circular plates are provided with adjusting motors, and the end parts of the adjusting motors are provided with multifunctional cameras.

Description

Visual identification device is used in processing based on computer

Technical Field

The invention relates to the technical field of computer vision recognition, in particular to a vision recognition device for processing based on a computer.

Background

The computer vision recognition is a science for researching how to make a machine "see", and further means that a camera and a computer are used for replacing human eyes to recognize, track, measure and other machine vision of a target, and further graphic processing is performed, so that the computer is processed into an image which is more suitable for human eyes to observe or transmit to an instrument for detection, wherein the camera is an important component in a vision recognition device;

but at present, the visual recognition device is limited by the structure of the visual recognition device in the use process, so that a plurality of groups of cameras cannot be conveniently and rapidly adjusted in position when being matched with the visual recognition device, cameras with different functions cannot be compactly installed due to the limitation of the volumes of the cameras, and the shooting range can be greatly influenced once the cameras are switched when the cameras are closely sampled, so that the sampling convenience of the visual recognition device is reduced.

Disclosure of Invention

The invention provides a visual recognition device for processing based on a computer, which can effectively solve the problems that the visual recognition device provided in the background art is limited by the structure of the visual recognition device in the use process, a plurality of groups of cameras cannot be conveniently and rapidly adjusted in position when being matched with the visual recognition device, cameras with different functions cannot be compactly installed due to the limitation of the volumes of the cameras, and the shooting range is greatly influenced when the cameras are switched during close-range sampling, so that the sampling convenience of the visual recognition device is reduced.

In order to achieve the above purpose, the present invention provides the following technical solutions: the visual identification device for processing based on the computer comprises a middle mounting bar, wherein both ends of the middle mounting bar are provided with overturning mounting bars;

the middle mounting strip is internally provided with a multi-angle azimuth adjusting mechanism which is used for dynamically adjusting the form and the inclination angle of the visual identification device so as to adjust the sampling range of the visual identification device, and meanwhile, the camera shooting assembly is cleaned in the use process of the visual identification device;

the multi-angle azimuth adjusting mechanism comprises an embedded mounting block;

the middle part of the middle part installation strip and the middle part of the overturning installation strip are respectively provided with an embedded installation block, the end parts of the embedded installation blocks are provided with end part control boxes, isolation circular plates are arranged in the end part control boxes, the side surfaces of the isolation circular plates are provided with adjusting motors, and the end parts of the adjusting motors are provided with multifunctional cameras;

the device comprises a middle mounting strip, wherein a driving arc piece is arranged at the output shaft of the transposition motor, a sealing bottom box is arranged at the end part of the middle mounting strip, a limiting air bag is arranged at the top of the sealing bottom box, an air guide notch is formed in the top of the sealing bottom box, a limiting telescopic thin rod is arranged in the sealing bottom box, and an air guide sliding plate is arranged at the tail end of the limiting telescopic thin rod;

A sealing telescopic hood is adhered to the side position of one end of the embedded mounting block inside the overturning mounting strip, and transposition telescopic thin rods are symmetrically and rotatably connected to the top position of one end of the embedded mounting block.

Preferably, the regulating motor is powered by an external power supply;

the front bottom of the embedded mounting block is clamped with a limiting front plate through a screw, a cleaning arc-shaped strip is bonded at a position between the inner side of the limiting front plate and the outer side of the multifunctional camera, the top of the front of the embedded mounting block is bonded with a sealing top strip, and the end part of the driving arc-shaped sheet is fixedly connected with the overturning mounting strip;

the end part of the overturning installation strip is fixedly connected with an isolation end box, a protective film is coated on the outer side of the isolation end box, a cleaning fan is embedded in the middle of the inner side of the protective film, the cleaning fan is powered by an external power supply, and an air guide inclined box is fixedly connected to one side of the isolation end box corresponding to the position of an air outlet of the end part of the cleaning fan.

Preferably, the outer shell of the multifunctional camera is cylindrical, the outer shell of the multifunctional camera is tightly attached to the inner wall of the embedded mounting block in a sliding manner, and the side surfaces of the cleaning arc strip and the sealing top strip are tightly attached to the outer side of the shell of the multifunctional camera.

Preferably, the side surface of the driving arc-shaped piece is tightly attached to the side surface of the end part of the middle mounting strip, the side surface of the air guide sliding plate is tightly attached to the inner wall of the sealing bottom box in a sliding manner, and the limiting air bag can transversely stretch out and draw back.

Preferably, the embedded installation block inside the turnover installation strip is in sliding connection with the inner wall of the turnover installation strip, and the middle part of the back surface of the turnover installation strip and the back surface of the turnover installation strip are clamped and limited through the guide block and the guide groove, the other end of the transposition telescopic thin rod is tightly attached to the inner wall of the turnover installation strip, and the opening of the air guide inclined box faces the direction of the multifunctional camera.

Preferably, the back of the middle mounting strip is provided with a dynamic adjusting support fixing mechanism which is used for carrying out auxiliary mounting support on the top element of the visual identification device and adjusting the position of the top assembly of the visual identification device after the visual identification device is mounted at a proper position so as to improve the mounting stability and diversity of the visual identification device;

the dynamic adjustment support fixing mechanism comprises a connecting back block;

the back of the middle mounting strip is fixedly provided with a connecting back block, the bottom end of the connecting back block is fixedly connected with a mounting bottom plate corresponding to the bottom position of the middle mounting strip, the mounting bottom plate is fixedly connected with the middle mounting strip through screws, the two ends of the bottom surface of the mounting bottom plate are fixedly connected with supporting bent plates, the bottoms of the outer sides of the supporting bent plates are sleeved with supporting bottom boxes, sealing elastic belts are adhered between the tops of the two ends of the supporting bent plates and the tops of the inner sides of the supporting bottom boxes, the positions of the inner sides of the supporting bottom boxes corresponding to the bottoms of the supporting bent plates are filled with supporting liquid bags, two adjacent supporting liquid bags are communicated through liquid exchange tubules, and liquid exchange valves are arranged on the outer sides of the liquid exchange tubules;

The middle part of the side surface of the supporting bottom box is connected with a connecting swing rod through an adjusting bolt, the bottom of the connecting swing rod is connected with supporting side rods through an adjusting bolt, a supporting bottom box is connected between the bottoms of the supporting side rods through adjusting bolts, mounting round holes are uniformly formed in the top of the supporting bottom box at equal intervals, a mounting arc block is fixedly connected with the middle part of one side of the inside of the supporting bottom box, a tension spring is fixedly connected with the middle part of one side of the mounting arc block, a sliding bottom rod is fixedly connected with the end part of the tension spring at the position corresponding to one side of the mounting arc block, a limiting rotating block is arranged at one section of bottom of the sliding bottom rod in an embedded and rotating mode through a rotating shaft, and a traction pull button is fixedly arranged at the middle part of one end of the sliding bottom rod;

the bottom surface of the sliding bottom rod is fixedly connected with a traction bottom plate at equal intervals at the position corresponding to the inner position of the supporting bottom box, a traction elastic rope is bonded at the position corresponding to the middle part of the bottom end of the mounting round hole at the top end of the traction bottom plate, and a limiting sucker is fixedly connected at the position corresponding to the top of the mounting round hole at the top end of the traction elastic rope;

the middle mounting strip and the middle of the bottom surface of the overturning mounting strip are respectively adhered with a supporting rubber ring, and the positions of the bottom surface of the middle mounting strip corresponding to the two ends of the supporting rubber rings are respectively adhered with a limiting buckle.

Preferably, the sealing elastic belt can stretch out and draw back elastically in the movement process of the supporting bending plate, viscous solution is filled in the supporting liquid bags, and two ends of the supporting bottom box are tightly and slidably attached to the inner sides of the supporting side rods.

Preferably, the end face size of the installation round hole is smaller than the size of the limiting sucker, the end part of the extension spring is embedded into the cavity inside the sliding bottom rod, and the outer side of the sliding bottom rod is tightly in sliding fit with the side face of the supporting bottom box.

Preferably, a dynamic circulation auxiliary cooling mechanism is arranged on the back of the connecting back block, and the inside of the visual recognition device is cooled by continuously circulating cooling solution, so that the phenomenon that the visual recognition device is overheated after being used for a long time is prevented, and the movement stability of the visual recognition device is improved;

the dynamic circulation auxiliary cooling mechanism comprises a transfer outer box;

the middle part of the back surface of the connecting back block is embedded and provided with a transfer outer box, the middle part of the back surface of the transfer outer box is sleeved with a sealing side cover through threads, the middle part of the inner side of the transfer outer box is fixedly connected with a diversion inner box, both sides and the front surface of the transfer outer box are fixedly connected with liquid separation outer pipes, and both sides and the front surface of the diversion inner box are fixedly connected with liquid separation inner pipes at positions corresponding to the inner positions of the liquid separation outer pipes;

The tail ends of the liquid separation outer pipe and the liquid separation inner pipe correspond to middle mounting strips, cooling flat boxes are fixedly connected to the positions of the bottoms of the inner sides of the overturning mounting strips, an inner mounting plate is fixedly connected to the middle of the inner side of each cooling flat box, a guide inner pipe is fixedly connected to the positions of the tail ends of the liquid separation inner pipes correspond to the middle of the inner side of the inner mounting plate, and guide inner plates are fixedly connected to the positions of the two sides of the inner corresponding to the inner mounting plate in a staggered mode;

the middle part of the bottom end of the diversion inner box is fixedly connected with a liquid supply thin pipe, the middle part of the bottom end of the middle-turn outer box is fixedly connected with an installation outer pipe corresponding to the outer side position of the liquid supply thin pipe, the bottom of the tail end of the installation outer pipe is fixedly connected with a connection bottom box, and the middle part of one side of the connection bottom box is fixedly connected with a collection outer pipe;

the utility model discloses a liquid supply tubule, including support side pole, collection outer tube tip, liquid supply tubule end fixedly connected with circulating pump, circulating pump one end corresponds support side pole side position department fixedly connected with preceding liquid box, the collection outer tube tip corresponds support side pole side position department fixedly connected with back liquid box of opposite side, fixedly connected with connects the tubule between preceding liquid box and the back liquid box top, preceding liquid box and back liquid box one side middle part all bond and have the heat conduction silica gel pad.

Preferably, a gap is reserved between the outer side of the liquid separation inner pipe and the inner wall of the liquid separation outer pipe, the liquid separation outer pipe and the tail end of the liquid separation inner pipe are communicated with each other through the inner cavity of the cooling flat box, and the liquid supply thin pipe penetrates through the inside of the connecting bottom box.

Compared with the prior art, the invention has the beneficial effects that: the invention has scientific and reasonable structure and safe and convenient use:

1. the multi-angle azimuth adjusting mechanism is arranged, the adjusting process of the use process of the visual recognition device is optimized through the mutual matching of all components in the multi-angle azimuth adjusting mechanism, the inclination angle of the overturning installation strip can be adjusted through the adjusting motor, the distance between the multifunctional cameras can be effectively pulled in after the overturning installation strip overturns and swings, the multifunctional cameras are distributed in a circular triangle manner in space, the distribution mode among the multifunctional cameras is effectively improved, the multifunctional cameras are driven to rotate through the adjusting motor, the shooting ranges of the three multifunctional cameras are gradually overlapped in the rotating process of the multifunctional cameras, the shooting range of the visual recognition device is not changed when the multifunctional cameras are switched, the sampling process of the visual recognition device is effectively improved, the sampling precision and the adjusting convenience of the visual recognition device are improved, and the use convenience of the visual recognition device is effectively improved;

Meanwhile, the cleanliness of the lens of the multifunctional camera needs to be maintained in the use process of the visual identification device, the continuous flowing air flow barrier generated by the cleaning fan and the air guide inclined box on the front surface of the overturning installation strip effectively prevents the dust from being adsorbed on the lens in the use process of the multifunctional camera, and the lens of the multifunctional camera is wiped through the cleaning arc strip in the rotating and storage process after the use of the multifunctional camera is completed, so that the cleanliness of the visual identification device in the use process is effectively improved.

2. The dynamic adjustment support fixing mechanism is arranged, the installation and placement process of the visual recognition device is optimized through the mutual matching among all components in the dynamic adjustment support fixing mechanism, the visual recognition device can be adjusted by adjusting the inclination angles of the connection swing rod, the support side rod and the support bottom box when the visual recognition device is required to be directly placed on a desktop through the combined design of the deformable connection swing rod, the support side rod and the support bottom box, so that the visual recognition device can be stably placed on the desktop, and when the visual recognition device is required to be clamped to the outer side of the display, the support bottom box can be tightly adsorbed to the back of the display through the limiting sucker, so that the rapid installation of the visual recognition device is realized, the installation convenience of the visual recognition device is effectively improved, and the visual recognition device can select a proper installation mode according to requirements;

Simultaneously through supporting end box and support the liquid bag and assist flexible support to supporting the bent plate, adjust the levelness of mid-mounting strip through adjusting the capacity between two support liquid bags to when outside vibration upwards transmits along connecting pendulum rod and support side bar, can carry out effectual isolation to the vibration from bottom to top through sealed elastic webbing and support liquid bag, thereby effectually prevented that visual recognition device from receiving external vibration influence and taking place the phenomenon of rocking, and then effectually improved visual recognition device mounting process's stability.

3. The dynamic circulation auxiliary cooling mechanism is arranged, the cooling and radiating processes of the visual recognition device are optimized through the mutual matching between the components in the dynamic circulation auxiliary cooling mechanism, the circulation pump drives the heat conduction solution in the front liquid box and the rear liquid box to circulate with the cooling flat box, the heat dissipation is carried out in the visual recognition device in the heat conduction solution circulation process, meanwhile, the convenience of pipeline arrangement is effectively improved through the double-layer structure design of the middle-turn outer box and the flow guide inner box, and meanwhile, three multifunctional cameras usually do not move at the same time, so that the heat conduction solution with higher temperature flows into the cooling flat box outside the non-operating multifunctional cameras, and the heat dissipation is carried out through the low-temperature multifunctional camera auxiliary cooling circulation system, so that the heat dissipation efficiency of the visual recognition device is effectively improved.

In summary, through the mutual cooperation between inside each subassembly of multi-angle azimuth adjustment mechanism, dynamic adjustment support fixed establishment and dynamic circulation auxiliary cooling mechanism, visual recognition device's installation, regulation and cooling process have been optimized, through the design of folding mounting support structure, make visual recognition device can adjust the deformation as required in order to place and install the joint, and through the multi-angle adjustable design of multi-functional camera, the effectual regulation of having expanded visual recognition device's sampling range, and then the effectual use convenience that has improved visual recognition device, can carry out counter weight adjustment to support the side bar bottom through preceding liquid box and back liquid box simultaneously, make visual recognition device's focus move down, and then the effectual stability that improves visual recognition device installation.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention. In the drawings:

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a schematic view of the folded state of the present invention;

FIG. 3 is a schematic view of the structure of the attachment backing block of the present invention;

FIG. 4 is a schematic view of the structure of the spacing front plate installation of the present invention;

FIG. 5 is a schematic view of a multi-angle azimuth adjustment mechanism of the present invention;

FIG. 6 is a schematic view of the structure of the installation of the air guide slide plate of the present invention;

FIG. 7 is a schematic structural view of a thermal pad mounting of the present invention;

FIG. 8 is a schematic view of the construction of the pull button assembly of the present invention;

FIG. 9 is a schematic view of the dynamic adjustment support fixture of the present invention;

FIG. 10 is a schematic view of the construction of the installation of the present invention for installing arcuate blocks;

FIG. 11 is a schematic view of the dynamic circulation auxiliary cooling mechanism of the present invention;

FIG. 12 is a schematic view of the structure of the installation of the connection base box of the present invention;

reference numerals in the drawings: 1. a middle mounting bar; 2. turning over the mounting strip;

3. a multi-angle azimuth adjusting mechanism; 301. an embedded mounting block; 302. an end control box; 303. an isolation circular plate; 304. adjusting a motor; 305. a multifunctional camera; 306. a limiting front plate; 307. cleaning the arc-shaped strip; 308. sealing the top strip; 309. driving the square groove; 310. a transposition motor; 311. driving the arc-shaped sheet; 312. sealing the bottom box; 313. a limit air bag; 314. an air guide notch; 315. limiting the telescopic thin rod; 316. an air guide sliding plate; 317. sealing the telescopic cover; 318. a transposition telescopic slender rod; 319. isolating the end box; 320. a protective film; 321. cleaning a fan; 322. an air guide inclined box;

4. Dynamic adjustment supports the fixed mechanism; 401. connecting a back block; 402. a mounting base plate; 403. supporting the bending plate; 404. a support bottom box; 405. sealing the elastic band; 406. a support sac; 407. a liquid-exchanging tubule; 408. a liquid exchange valve; 409. connecting a swinging rod; 410. supporting side rods; 411. supporting the bottom box; 412. installing a round hole; 413. installing an arc-shaped block; 414. a tension spring; 415. a sliding bottom bar; 416. limiting rotating blocks; 417. pulling the pull button; 418. drawing the bottom plate; 419. traction of the elastic cord; 420. limiting sucking discs; 421. supporting a rubber ring; 422. limiting buckle;

5. a dynamic circulation auxiliary cooling mechanism; 501. a transfer outer box; 502. sealing the side cover; 503. a diversion inner box; 504. a liquid separation outer tube; 505. a liquid separation inner pipe; 506. cooling the flat box; 507. installing an inner plate; 508. a diversion inner tube; 509. a flow guiding inner plate; 510. a liquid supply tubule; 511. installing an outer tube; 512. the bottom box is connected; 513. collecting an outer tube; 514. a circulation pump; 515. a front liquid box; 516. a rear liquid box; 517. connecting the tubules; 518. a heat-conducting silica gel pad.

Detailed Description

The preferred embodiments of the present invention will be described below with reference to the accompanying drawings, it being understood that the preferred embodiments described herein are for illustration and explanation of the present invention only, and are not intended to limit the present invention.

Examples: as shown in fig. 1-12, the invention provides a technical scheme, namely a visual identification device for processing based on a computer, which comprises a middle mounting strip 1, wherein both ends of the middle mounting strip 1 are provided with turnover mounting strips 2;

the middle mounting strip 1 is internally provided with a multi-angle azimuth adjusting mechanism 3 for dynamically adjusting the form and the inclination angle of the visual recognition device so as to adjust the sampling range of the visual recognition device, and meanwhile, the camera shooting assembly is cleaned in the use process of the visual recognition device;

the multi-angle azimuth adjusting mechanism 3 includes an embedded mounting block 301;

the middle parts of the middle mounting strip 1 and the turnover mounting strip 2 are respectively provided with an embedded mounting block 301, one end of each embedded mounting block 301 is fixedly connected with an end control box 302, an isolation circular plate 303 is fixedly connected to the position, corresponding to the inner position of each end control box 302, of one end of each embedded mounting block 301, an adjusting motor 304 is fixedly connected to the position, corresponding to the inner position of each end control box 302, of one side of each isolation circular plate 303, each adjusting motor 304 is powered by an external power supply, and a multifunctional camera 305 is fixedly connected to the position, corresponding to the inner position of each embedded mounting block 301, of the output shaft end of each adjusting motor 304;

the front bottom of the embedded mounting block 301 is clamped with a limiting front plate 306 through a screw, a cleaning arc-shaped strip 307 is adhered to the inner side of the limiting front plate 306 at a position corresponding to the outer side of the multifunctional camera 305, a sealing top strip 308 is adhered to the top of the front of the embedded mounting block 301, the outer shell of the multifunctional camera 305 is cylindrical, the outer shell of the multifunctional camera 305 is tightly and slidably attached to the inner wall of the embedded mounting block 301, and the cleaning arc-shaped strip 307 and the side surface of the sealing top strip 308 are tightly attached to the outer side of the shell of the multifunctional camera 305;

The front positions of the two ends of the middle mounting strip 1 are provided with driving square grooves 309, the middle part of the inner side of the driving square grooves 309 is embedded and mounted with a transposition motor 310, the position of the tail end of an output shaft of the transposition motor 310 corresponding to the end position of the driving square grooves 309 is fixedly sleeved with a driving arc piece 311, the end of the driving arc piece 311 is fixedly connected with the turnover mounting strip 2, the bottoms of the two ends of the middle mounting strip 1 are fixedly provided with sealing bottom boxes 312, one end of the top of each sealing bottom box 312 is adhered with a limiting air bag 313, the position of one end of the top of each sealing bottom box 312 corresponding to the inner position of each limiting air bag 313 is penetrated and is provided with an air guide notch 314, the middle part of one end of each sealing bottom box 312 is fixedly connected with a limiting telescopic thin rod 315, the position of the tail end of each limiting telescopic thin rod 315 corresponding to the outer side of each sealing bottom box 312 is fixedly connected with an air guide slide plate 316, the side surface of each driving arc piece 311 is tightly attached to the side surface of the end of the middle mounting strip 1, the side surface of each air guide slide plate 316 is tightly slidably attached to the inner wall of the sealing bottom box 312, and the limiting air bags 313 can transversely stretch;

a sealing telescopic cover 317 is adhered to the side position of one end of the embedded mounting block 301 positioned in the overturning mounting strip 2, and a transposition telescopic thin rod 318 is symmetrically and rotatably connected to the top position of one end of the corresponding embedded mounting block 301;

The end part of the turnover mounting strip 2 is fixedly connected with an isolation end box 319, the outside of the isolation end box 319 is coated with a protective film 320, the middle part of the inside of the protective film 320 is embedded and provided with a cleaning fan 321, the cleaning fan 321 is powered by an external power supply, one side of the isolation end box 319 is fixedly connected with an air guide inclined box 322 corresponding to the position of the air outlet of the end part of the cleaning fan 321, an embedded mounting block 301 positioned inside the turnover mounting strip 2 is in sliding connection with the inner wall of the turnover mounting strip 2, the middle part of the back of the turnover mounting strip 2 and the back of the turnover mounting strip 2 are clamped and limited by a guide block and a guide groove, the other end of a transposition telescopic thin rod 318 is tightly attached to the inner wall of the turnover mounting strip 2, the opening of the air guide inclined box 322 faces the direction of the multifunctional camera 305, and through the mutual matching of all components inside the multi-angle azimuth adjusting mechanism 3, the adjusting process in the using process of the visual recognition device is optimized, the inclination angle of the overturning installation strip 2 can be adjusted through the adjusting motor 304, the distance between the multifunctional cameras 305 can be effectively pulled in after the overturning installation strip 2 overturns and swings, the multifunctional cameras 305 are distributed in a circular triangle in space, the distribution mode among the multifunctional cameras 305 is effectively improved, the multifunctional cameras 305 are driven to rotate through the adjusting motor 304, the shooting ranges of the three multifunctional cameras 305 are gradually overlapped in the rotating process of the multifunctional cameras 305, the shooting range of the visual recognition device is not changed when the multifunctional cameras 305 are switched, the sampling process of the visual recognition device is effectively improved, the sampling precision and the adjusting convenience of the visual recognition device are improved, thereby effectively improving the use convenience of the visual recognition device;

Meanwhile, the cleanliness of the lens of the multifunctional camera 305 needs to be kept in the use process of the visual recognition device, the continuous flowing air flow barrier generated by the cleaning fan 321 and the air guide inclined box 322 on the front surface of the overturning installation strip 2 effectively prevents the lens of the multifunctional camera 305 from adsorbing dust in the use process, and the lens of the multifunctional camera 305 is cleaned by the cleaning arc-shaped strip 307 in the rotating and storing process after the use of the multifunctional camera 305 is completed, so that the cleanliness of the visual recognition device in the use process is effectively improved;

the back of the middle mounting strip 1 is provided with a dynamic adjusting support fixing mechanism 4 which is used for carrying out auxiliary mounting support on the top element of the visual recognition device and adjusting the position of the top assembly of the visual recognition device after the visual recognition device is mounted at a proper position so as to improve the mounting stability and diversity of the visual recognition device;

the dynamic adjustment support fixing mechanism 4 includes a connection back block 401;

the middle part of the back of the middle mounting strip 1 is fixedly provided with a connecting back block 401, the bottom end of the connecting back block 401 is fixedly connected with a mounting bottom plate 402 corresponding to the bottom position of the middle mounting strip 1, the mounting bottom plate 402 is fixedly connected with the middle mounting strip 1 through screws, the two ends of the bottom surface of the mounting bottom plate 402 are fixedly connected with supporting bent plates 403, the bottoms of the outer sides of the supporting bent plates 403 are sleeved with supporting bottom boxes 404, sealing elastic belts 405 are adhered between the tops of the two ends of the supporting bent plates 403 and the tops of the inner sides of the supporting bottom boxes 404, supporting liquid bags 406 are filled in the positions of the inner sides of the supporting bottom boxes 404 corresponding to the bottoms of the supporting bent plates 403, two adjacent supporting liquid bags 406 are communicated through liquid exchanging tubules 407, and liquid exchanging valves 408 are arranged on the outer sides of the liquid exchanging tubules 407;

The middle part of the side surface of the supporting bottom box 404 is connected with a connecting swing rod 409 through an adjusting bolt, the bottom of the connecting swing rod 409 is connected with supporting side rods 410 through an adjusting bolt, a supporting bottom box 411 is connected between the bottoms of the two supporting side rods 410 through an adjusting bolt, mounting round holes 412 are uniformly formed in the top of the supporting bottom box 411 at equal intervals, a mounting arc block 413 is fixedly connected to the middle part of one side of the inside of the supporting bottom box 411, a tension spring 414 is fixedly connected to the middle part of one side of the mounting arc block 413, the end part of the tension spring 414 is fixedly connected with a sliding bottom rod 415 at the position corresponding to one side of the mounting arc block 413, a limiting rotating block 416 is arranged at one section of bottom of the sliding bottom rod 415 in an embedded and rotating mode through a rotating shaft, a traction pull button 417 is fixedly arranged at one end middle part of the sliding bottom rod 415, the sealing elastic band 405 can stretch elastically in the moving process of the supporting bent plate 403, viscous solution is filled in the supporting bottom box 411, and the inner side of the supporting side rod 410 is tightly and slidingly attached;

the bottom surface of the sliding bottom rod 415 is fixedly connected with a traction bottom plate 418 at equal intervals at the position corresponding to the inner position of the supporting bottom box 411, a traction elastic rope 419 is adhered at the position corresponding to the middle of the bottom end of the installation round hole 412 at the top end of the traction bottom plate 418, a limiting sucker 420 is fixedly connected at the position corresponding to the top end of the installation round hole 412 at the top end of the traction elastic rope 419, the end surface size of the installation round hole 412 is smaller than that of the limiting sucker 420, the end part of the extension spring 414 is embedded into the inner cavity of the sliding bottom rod 415, and the outer side of the sliding bottom rod 415 is tightly in sliding fit with the side surface of the supporting bottom box 411;

The middle parts of the bottom surfaces of the middle mounting strip 1 and the overturning mounting strip 2 are adhered with the supporting rubber rings 421, the positions of the bottom surfaces of the middle mounting strip 1 corresponding to the two ends of the supporting rubber rings 421 are adhered with the limiting buckles 422, the assembly and placement process of the visual recognition device is optimized by dynamically adjusting the mutual coordination among the components in the supporting and fixing mechanism 4, when the visual recognition device is required to be directly placed on a desktop, the gravity center angle of the visual recognition device can be adjusted by adjusting the inclination angles of the connecting swing rod 409, the supporting side rod 410 and the supporting bottom box 411, and then the visual recognition device can be stably placed on the desktop, and when the visual recognition device is required to be clamped to the outside of the display, the supporting bottom box 411 can be tightly adsorbed to the back of the display through the limiting sucker 420, so that the quick installation of the visual recognition device is realized, the installation convenience of the visual recognition device is effectively improved, and the visual recognition device can be selected to be properly installed according to the requirement;

meanwhile, the supporting bending plate 403 is supported in an auxiliary flexible manner through the supporting bottom box 404 and the supporting liquid bags 406, the levelness of the middle mounting strip 1 is adjusted by adjusting the capacity between the two supporting liquid bags 406, and when external vibration is transmitted upwards along the connecting swing rod 409 and the supporting side rods 410, the vibration from bottom to top can be effectively isolated through the sealing elastic belt 405 and the supporting liquid bags 406, so that the phenomenon that the visual identification device is affected by the external vibration to shake is effectively prevented, and the stability of the installation process of the visual identification device is effectively improved;

The dynamic circulation auxiliary cooling mechanism 5 is arranged on the back of the connecting back block 401, and the interior of the visual recognition device is cooled by the continuously circulated cooling solution, so that the phenomenon that the visual recognition device is overheated after being used for a long time is prevented, and the movement stability of the visual recognition device is improved;

the dynamic circulation auxiliary cooling mechanism 5 comprises a transit outer box 501;

the middle part of the back of the connecting back block 401 is embedded and provided with a transfer outer box 501, the middle part of the back of the transfer outer box 501 is sleeved with a sealing side cover 502 through threads, the middle part of the inner side of the transfer outer box 501 is fixedly connected with a diversion inner box 503, both sides and the front of the transfer outer box 501 are fixedly connected with liquid separation outer pipes 504, and both sides and the front of the diversion inner box 503 are fixedly connected with liquid separation inner pipes 505 at positions corresponding to the inner parts of the liquid separation outer pipes 504;

the tail ends of the liquid separation outer pipe 504 and the liquid separation inner pipe 505 correspond to the middle mounting strip 1, the bottom position of the inner side of the overturning mounting strip 2 is fixedly connected with a cooling flat box 506, the middle of the inner side of the cooling flat box 506 is fixedly connected with a mounting inner plate 507, the tail end of the liquid separation inner pipe 505 corresponds to the middle position of the inner side of the mounting inner plate 507 and is fixedly connected with a flow guide inner pipe 508, and the positions of the two sides of the inner side of the cooling flat box 506, corresponding to the mounting inner plate 507, are fixedly connected with flow guide inner plates 509 in a staggered manner;

The middle part of the bottom end of the diversion inner box 503 is fixedly connected with a liquid supply thin tube 510, the middle part of the bottom end of the transfer outer box 501 is fixedly connected with an installation outer tube 511 corresponding to the outer side of the liquid supply thin tube 510, the bottom of the tail end of the installation outer tube 511 is fixedly connected with a connection bottom box 512, the middle part of one side of the connection bottom box 512 is fixedly connected with a collection outer tube 513, a gap is reserved between the outer side of the liquid separation inner tube 505 and the inner wall of the liquid separation outer tube 504, the tail ends of the liquid separation outer tube 504 and the liquid separation inner tube 505 are communicated with each other through the inner cavity of the cooling flat box 506, and the liquid supply thin tube 510 passes through the inside of the connection bottom box 512;

the end of the liquid supply tubule 510 is fixedly connected with the circulating pump 514, the front liquid box 515 is fixedly connected to the side position of the supporting side rod 410 corresponding to one end of the circulating pump 514, the rear liquid box 516 is fixedly connected to the side position of the supporting side rod 410 corresponding to the other side of the end of the collecting outer tube 513, the connecting tubule 517 is fixedly connected between the tops of the front liquid box 515 and the rear liquid box 516, the middle parts of one sides of the front liquid box 515 and the rear liquid box 516 are adhered with the heat-conducting silica gel pad 518, the cooling and radiating process of the visual recognition device is optimized through the mutual matching among the components in the dynamic circulating auxiliary cooling mechanism 5, the circulating pump 514 drives the heat conducting solution in the front liquid box 515 and the rear liquid box 516 to circulate with the cooling flat box 506, the visual recognition device is radiated in the circulating process of the heat conducting solution, meanwhile, the double-layer structural design of the transfer outer box 501 and the flow guiding inner box 503 is adopted, convenience of the pipeline arrangement is effectively improved, and meanwhile, as three multifunctional cameras 305 generally do not move at the same time, the heat conducting solution outside the multifunctional cameras flows into the cooling flat box 506 which does not operate, the multifunctional cameras 305, the visual recognition device is effectively cooled through the low-temperature multifunctional circulating system, and the visual recognition device is further improved.

The working principle and the using flow of the invention are as follows: in the practical application process, after the visual recognition device is installed at a proper position, the shooting range of the visual recognition device is required to be adjusted, firstly, a limiting telescopic thin rod 315 in a sealing bottom box 312 is started to be contracted, an air guide slide plate 316 is driven to slide along the inner wall of the sealing bottom box 312 in the contraction process of the limiting telescopic thin rod 315, air in a limiting air bag 313 is pumped into the sealing bottom box 312 through an air guide notch 314 in the contraction process of the air guide slide plate 316, the limiting air bag 313 is further contracted towards the end part of a middle mounting strip 1, the limiting air bag 313 and the overturning mounting strip 2 are further separated, so that the overturning limit of the overturning mounting strip 2 is eliminated, then a transposition motor 310 in a driving square groove 309 is started to drive a driving arc piece 311 to rotate, the overturning mounting strip 2 is driven to synchronously rotate in the rotation process of the driving arc piece 311, and all components on the overturning mounting strip 2 are driven to rotate through the rotation of the overturning mounting strip 2;

when the overturning installing strip 2 rotates to a proper position, the orientation of the multifunctional camera 305 needs to be adjusted, an adjusting motor 304 in the end control box 302 is started to rotate, the multifunctional camera 305 on the other side of the isolation circular plate 303 is driven to rotate by the adjusting motor 304, the sampling range of the multifunctional camera 305 is adjusted in the rotating process of the multifunctional camera 305, and when the axial positions of the embedded installing block 301 in the overturning installing strip 2 and the multifunctional camera 305 need to be adjusted, the embedded installing block 301 in the overturning installing strip 2 is driven to slide along the axial direction by controlling the extension and contraction of a transposition telescopic thin rod 318 in the sealing telescopic cover 317, so that the position of the multifunctional camera 305 is adjusted;

In the use process of the visual recognition device, continuous air flow is generated in the air guide inclined box 322 through the cleaning fan 321 in the isolation end box 319, and the continuous flowing air flow is blown to the multifunctional camera 305 through the air guide inclined box 322, so that the front of the multifunctional camera 305 is protected through the continuous flowing air flow, external dust is prevented from being adsorbed to the outer side of a lens in the use process of the multifunctional camera 305, the multifunctional camera 305 is required to be stored after the use of the visual recognition device is completed, the multifunctional camera 305 is driven by the adjusting motor 304 to rotate the lens into the embedded mounting block 301, and when the lens of the multifunctional camera 305 rotates to the side surface of the cleaning arc-shaped strip 307, the outer side of the multifunctional camera 305 is wiped through the cleaning arc-shaped strip 307, so that the cleanliness of the multifunctional camera 305 in the use process is effectively improved;

when the visual recognition device is installed, the form of the visual recognition device can be adjusted according to the installation position, the installation bottom plate 402 and components at the bottom of the installation bottom plate are fixed to the bottom of the middle installation strip 1 through the connection back block 401, when the visual recognition device is required to be directly placed on a tabletop, the support bottom box 411 is rotated to the horizontal position and the bottom surface of the support bottom box is horizontally placed on the tabletop, the inclination angle of the connection swing rod 409 and the support side rod 410 is adjusted through the adjusting bolt, so that the gravity center position of the visual recognition device is adjusted, the visual recognition device can be stably placed on the tabletop, when the levelness of the middle installation strip 1 is required to be adjusted, the inner cavities of the two support liquid bags 406 are mutually communicated through the liquid exchange thin tube 407 after the liquid exchange valve 408 is slightly opened, the support bent plate 403 is driven to lift and swing along the inner part of the support bottom box 404 through the swing installation bottom plate 402, liquid in the two support liquid bags 406 is enabled to circulate through the liquid exchange thin tube 407, and the liquid exchange valve is screwed again after the middle installation strip 1 is adjusted to the horizontal position, and the adjustment of the horizontal direction of the middle installation strip 1 is further realized;

When the visual recognition device is required to be directly clamped to the top of the display, the supporting side rods 410 and the side surfaces of the supporting bottom box 411 are all flush with each other through the adjusting bolts, the supporting bottom box 404 and the connecting swing rod 409 as well as the connecting swing rod 409 and the supporting side rods 410 can be kept to freely rotate, after the bottom surface of the supporting rubber ring 421 and the top surface of the display are mutually contacted, the limiting buckle 422 is clamped to the top of the display, then the limiting sucker 420 on the side surface of the supporting bottom box 411 is tightly attached to the back surface of the display, when the side surface of the supporting bottom box 411 is required to be fixedly connected with the back surface of the display, the sliding bottom rod 415 is pulled by the traction pull button 417 to overcome the elasticity of the tension spring 414 to slide along the inner wall of the supporting bottom box 411, and the traction bottom rod 415 is synchronously driven to move in the process of the sliding bottom rod 415, and the traction elastic rope 419 is pulled in the process of the movement of the traction bottom rod 418, and the limiting sucker 420 is pulled into the mounting round hole 412, so that the limiting sucker 420 can be tightly attached to the back surface of the display, the limiting sucker 420 is tightly attached to the back surface of the display, and the limit rotation block 416 is completely pulled out of the supporting bottom box 416, the side surface of the supporting bottom box 416 is tightly attached to the side surface of the display, and the limiting device is tightly attached to the side surface of the supporting bottom box 416 through the rotation, and the limiting device is tightly attached to the side surface of the supporting bottom rod 416, and the limiting device is tightly attached to the side surface by the rotation through the rotation, and the limiting device;

The visual recognition device is continuously heated in the operation process, so that the visual recognition device is required to be cooled, when the visual recognition device is required to be cooled and radiated, the low-temperature radiating solution in the front liquid box 515 is led into the liquid supply thin pipe 510 through the circulating pump 514, the radiating solution is led into the diversion inner box 503 through the liquid supply thin pipe 510, then the radiating solution in the diversion inner box 503 is evenly led into the cooling flat box 506 through the liquid separation inner pipe 505, the leading-in solution in the liquid separation inner pipe 505 is led into the inner side of the cooling flat box 506 through the liquid separation inner pipe 508, the heat conducting solution in the cooling flat box 506 is led through the liquid separation inner pipe 508, and then the heat conducting solution flows to the outer side of the cooling flat box 506 from the inner side of the cooling flat box 506, and the heat in the middle installation strip 1 and the turnover installation strip 2 can be absorbed in the process that the heat conducting solution flows through the inner side of the cooling flat box 506;

after the heat is absorbed by the heat conducting solution, the heat conducting solution is discharged out of the cooling flat box 506 through the liquid separating outer tube 504, the heat conducting solution after heat absorption is guided into the mounting outer tube 511 through the transferring outer box 501, the heat conducting solution in the mounting outer tube 511 is guided into the collecting outer tube 513 through the connecting bottom box 512, the heat conducting solution is guided into the rear liquid box 516 through the collecting outer tube 513, the heat conducting solution is gradually cooled in the process of flowing in the rear liquid box 516, the heat conducting solution after cooling through the connecting thin tube 517 is reintroduced into the front liquid box 515 for continuous circulation of the heat conducting solution, and meanwhile, when the visual recognition device is clamped to the back of the display, the front liquid box 515 and the rear liquid box 516 can be contacted with the back of the display more tightly through the heat conducting silica gel pad 518, and auxiliary heat dissipation is carried out on the display in the process of flowing the heat conducting solution.

Finally, it should be noted that: the foregoing is merely a preferred example of the present invention, and the present invention is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present invention has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A visual recognition device for computer-based processing, comprising a mid-mounting bar (1), characterized in that: both ends of the middle mounting strip (1) are provided with overturning mounting strips (2);

the middle mounting strip (1) is internally provided with a multi-angle azimuth adjusting mechanism (3) which is used for dynamically adjusting the form and the inclination angle of the visual identification device so as to adjust the sampling range of the visual identification device, and meanwhile, the camera shooting assembly is cleaned in the use process of the visual identification device;

the multi-angle azimuth adjusting mechanism (3) comprises an embedded mounting block (301);

the intelligent anti-theft device is characterized in that embedded mounting blocks (301) are arranged in the middle of the middle mounting strip (1) and the middle of the overturning mounting strip (2), an end control box (302) is arranged at the end of each embedded mounting block (301), an isolation circular plate (303) is arranged in each end control box (302), an adjusting motor (304) is arranged on the side face of each isolation circular plate (303), and a multifunctional camera (305) is arranged at the end of each adjusting motor (304);

The inside of the driving square grooves (309) at the two ends of the middle mounting strip (1) is provided with a transposition motor (310), the output shaft of the transposition motor (310) is provided with a driving arc-shaped sheet (311), the end part of the middle mounting strip (1) is provided with a sealing bottom box (312), the top of the sealed bottom box (312) is provided with a limit air bag (313), the top of the sealed bottom box (312) is provided with an air guide notch (314), a limit telescopic thin rod (315) is arranged in the sealed bottom box (312), and the tail end of the limit telescopic thin rod (315) is provided with an air guide sliding plate (316);

a sealing telescopic cover (317) is adhered to the side position of one end of the embedded mounting block (301) in the overturning mounting strip (2), and a transposition telescopic thin rod (318) is symmetrically and rotationally connected to the top position of one end of the embedded mounting block (301).

2. A computer-based visual recognition apparatus for processing according to claim 1, wherein the adjustment motor (304) is powered by an external power source;

the front bottom of the embedded mounting block (301) is clamped with a limiting front plate (306) through a screw, a cleaning arc-shaped strip (307) is adhered to a position between the inner side of the limiting front plate (306) and the outer side of the multifunctional camera (305), a sealing top strip (308) is adhered to the front top of the embedded mounting block (301), and the end part of the driving arc-shaped piece (311) is fixedly connected with the overturning mounting strip (2);

The utility model discloses a protection film, including upset installing strip (2) tip fixedly connected with keeps apart end box (319), the cladding of keeps apart end box (319) outside has protection film (320), protection film (320) inboard middle part embedding is installed clearance fan (321), clearance fan (321) are supplied power through external power source, keep apart end box (319) one side and correspond clearance fan (321) tip air outlet position department fixedly connected with air guide inclined box (322).

3. The visual recognition device for processing based on the computer according to claim 1, wherein the outer shell of the multifunctional camera (305) is cylindrical, the outer shell of the multifunctional camera (305) is tightly attached to the inner wall of the embedded mounting block (301) in a sliding manner, and the side surfaces of the cleaning arc-shaped strip (307) and the sealing top strip (308) are tightly attached to the outer side of the shell of the multifunctional camera (305).

4. The visual recognition device for computer-based processing according to claim 1, wherein the side surface of the driving arc piece (311) is tightly attached to the side surface of the end part of the middle mounting strip (1), the side surface of the air guide slide plate (316) is tightly attached to the inner wall of the sealing bottom box (312) in a sliding manner, and the limiting air bag (313) can transversely stretch and retract.

5. The visual identification device for processing based on the computer according to claim 1, wherein the embedded installation block (301) inside the turnover installation strip (2) is in sliding connection with the inner wall of the turnover installation strip (2), the middle part of the back of the turnover installation strip (2) is clamped and limited with the back of the turnover installation strip (2) through the guide block and the guide groove, the other end of the transposition telescopic thin rod (318) is tightly attached to the inner wall of the turnover installation strip (2), and the opening of the air guide inclined box (322) faces the direction of the multifunctional camera (305).

6. The visual recognition device for processing based on the computer according to claim 1, wherein the back of the middle mounting strip (1) is provided with a dynamic adjustment supporting and fixing mechanism (4) for carrying out auxiliary installation and supporting on the top element of the visual recognition device and adjusting the position of the top assembly of the visual recognition device after the visual recognition device is installed at a proper position so as to improve the installation stability and diversity of the visual recognition device;

the dynamic adjustment support fixing mechanism (4) comprises a connecting back block (401);

the back middle part of the middle mounting strip (1) is fixedly provided with a connecting back block (401), the bottom end of the connecting back block (401) is fixedly connected with a mounting bottom plate (402) corresponding to the bottom position of the middle mounting strip (1), the mounting bottom plate (402) is fixedly connected with the middle mounting strip (1) through screws, the two end positions of the bottom surface of the mounting bottom plate (402) are fixedly connected with supporting bent plates (403), the bottom outside the supporting bent plates (403) is sleeved with a supporting bottom box (404), sealing elastic bands (405) are adhered between the top at the two ends of the supporting bent plates (403) and the top inside the supporting bottom box (404), supporting liquid bags (406) are filled in the positions corresponding to the bottom positions of the supporting bent plates (403), two adjacent supporting liquid bags (406) are communicated through liquid exchanging tubules (407), and liquid exchanging valves (408) are arranged outside the liquid exchanging tubules (407).

The middle part of the side face of the supporting bottom box (404) is connected with a connecting swing rod (409) through an adjusting bolt, the bottoms of the connecting swing rods (409) are connected with supporting side rods (410) through adjusting bolts, two supporting bottom boxes (411) are connected between the bottoms of the supporting side rods (410) through adjusting bolts, mounting round holes (412) are uniformly formed in the tops of the supporting bottom boxes (411) at equal intervals, an arc-shaped mounting block (413) is fixedly connected to the middle part of one side of the inner part of the supporting bottom box (411), an extension spring (414) is fixedly connected to the middle part of one side of the arc-shaped mounting block (413), a sliding bottom rod (415) is fixedly connected to the position of one end of the extension spring (414) corresponding to one side of the arc-shaped mounting block (413), a limiting rotating block (416) is rotatably arranged at one section of bottom of the sliding bottom rod (415) through a rotating shaft in an embedded mode, and a traction pull button (417) is fixedly arranged at the middle part of one end of the sliding bottom rod (415);

a traction bottom plate (418) is fixedly connected to the bottom surface of the sliding bottom rod (415) at equal intervals at the position corresponding to the inner position of the supporting bottom box (411), a traction elastic rope (419) is adhered to the middle position of the top end of the traction bottom plate (418) corresponding to the bottom end of the mounting round hole (412), and a limiting sucker (420) is fixedly connected to the top end of the traction elastic rope (419) corresponding to the top position of the mounting round hole (412);

The middle mounting strip (1) and the middle part of the bottom surface of the overturning mounting strip (2) are respectively adhered with a supporting rubber ring (421), and the positions of the bottom surface of the middle mounting strip (1) corresponding to the two ends of the supporting rubber rings (421) are respectively adhered with a limiting buckle (422).

7. The visual recognition device for computer-based processing according to claim 6, wherein the sealing elastic belt (405) can elastically stretch and retract in the process of supporting the bending plate (403), the inside of the supporting liquid bag (406) is filled with viscous solution, and two ends of the supporting bottom box (411) are tightly and slidably attached to the inner sides of the supporting side rods (410).

8. The visual recognition device for computer-based processing according to claim 6, wherein the size of the end face of the installation round hole (412) is smaller than the size of the limiting sucker (420), the end portion of the extension spring (414) is embedded into the inner cavity of the sliding bottom rod (415), and the outer side of the sliding bottom rod (415) is tightly and slidably attached to the side face of the supporting bottom box (411).

9. The visual recognition device for processing based on the computer according to claim 6, wherein the back of the connecting back block (401) is provided with a dynamic circulation auxiliary cooling mechanism (5), and the interior of the visual recognition device is cooled down through a continuously circulating cooling solution, so that the phenomenon that the visual recognition device is overheated after being used for a long time is prevented, and the movement stability of the visual recognition device is improved;

The dynamic circulation auxiliary cooling mechanism (5) comprises a middle-rotating outer box (501);

the middle of the back of the connecting back block (401) is embedded and provided with a transfer outer box (501), the middle of the back of the transfer outer box (501) is sleeved with a sealing side cover (502) through threads, the middle of the inner side of the transfer outer box (501) is fixedly connected with a diversion inner box (503), both sides and the front of the transfer outer box (501) are fixedly connected with liquid separation outer pipes (504), and both sides and the front of the diversion inner box (503) are fixedly connected with liquid separation inner pipes (505) corresponding to the inner positions of the liquid separation outer pipes (504);

the liquid separation outer pipe (504) and the liquid separation inner pipe (505) are respectively fixedly connected with a cooling flat box (506) at the inner side bottom position of the overturning installation strip (2) corresponding to the middle installation strip (1), an installation inner plate (507) is fixedly connected to the inner side middle part of the cooling flat box (506), a diversion inner pipe (508) is fixedly connected to the inner side middle position of the liquid separation inner pipe (505) corresponding to the installation inner plate (507), and diversion inner plates (509) are fixedly connected to the inner side positions of the cooling flat box (506) corresponding to the two sides of the installation inner plate (507) in a staggered mode;

the middle part of the bottom end of the diversion inner box (503) is fixedly connected with a liquid supply thin pipe (510), the middle part of the bottom end of the transfer outer box (501) is fixedly connected with an installation outer pipe (511) corresponding to the position outside the liquid supply thin pipe (510), the bottom of the tail end of the installation outer pipe (511) is fixedly connected with a connection bottom box (512), and the middle part of one side of the connection bottom box (512) is fixedly connected with a collection outer pipe (513);

The utility model discloses a liquid feed tubule, including support side bar (410) and liquid feed tubule, support liquid tubule (510) end fixedly connected with circulating pump (514), preceding liquid box (515) of circulating pump (514) one end corresponding support side bar (410) side position department fixedly connected with, support side bar (410) side position department fixedly connected with back liquid box (516) of opposite side of collecting outer tube (513) tip, fixedly connected with connects tubule (517) between preceding liquid box (515) and back liquid box (516) top, preceding liquid box (515) and back liquid box (516) one side middle part all bond have heat conduction silica gel pad (518).

10. The visual recognition device for computer-based processing according to claim 9, wherein a gap is left between the outer side of the liquid separation inner tube (505) and the inner wall of the liquid separation outer tube (504), the liquid separation outer tube (504) and the tail end of the liquid separation inner tube (505) are communicated with each other through the inner cavity of the cooling flat box (506), and the liquid supply thin tube (510) penetrates through the inside of the connecting bottom box (512).

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