CN118138861A - Building engineering construction progress monitoring devices - Google Patents

Abstract

The invention discloses a construction progress monitoring device for building engineering, which belongs to the technical field of construction of building engineering, and comprises a mounting plate, an infrared camera arranged on one side of the mounting plate, a storage box, a fixed frame, a travelling mechanism, a heat dissipation window, a ventilation lamination plate and a cleaning mechanism; according to the invention, through the arrangement of the advancing mechanism, the infrared camera can advance and displace in the storage box, namely, the infrared camera is subjected to real-time monitoring and advancing and storage, dust-proof treatment is carried out on the heat dissipation shell of the infrared camera through the storage box and the ventilation lamination plate, the dust-proof effect and the heat dissipation performance of the infrared camera on a construction site are effectively ensured, and through the cooperation of the cleaning mechanism and the advancing mechanism, the infrared camera can be buffered and protected when the advancing speed is too high, and the ventilation lamination plate can be subjected to external surface rotation scraping, internal surface pressurization wetting, internal surface movement scraping, internal surface wetting liquid diffusion and air drying treatment.

Description

Building engineering construction progress monitoring devices

Technical Field

The invention belongs to the technical field of building engineering construction, and particularly relates to a building engineering construction progress monitoring device.

Background

The infrared camera is an imaging device integrating a camera, a protective cover, an infrared lamp, a power supply and heat dissipation unit and the like into a whole, and is commonly used for building construction sites, namely, the infrared camera is installed at a specific position and monitored in real time, so that the construction progress condition of the construction sites can be monitored conveniently in real time.

The existing heat dissipation mode of the infrared camera comprises the step of arranging the heat dissipation fan inside the infrared camera, and the shell of the infrared camera is required to assist the heat dissipation fan to conduct heat dissipation treatment on the infrared camera, the attractiveness of the infrared camera is required to be guaranteed, the infrared camera required by a construction site is always monitored in real time due to the fact that the infrared camera is always located on the construction site, more dust is prone to occurring on the construction site, so that dust is distributed on the shell of the infrared camera, the heat dissipation effect of the infrared camera is reduced, and accordingly a certain adverse effect is caused on construction progress monitoring of the construction site.

Therefore, there is a need for a construction progress monitoring device for building engineering, which solves the problem that the heat dissipation performance of an infrared camera is reduced by using the outer surface Yi Buchen of the infrared camera for monitoring the construction progress of a construction site in the prior art, so that the construction progress is monitored in real time to generate adverse effects.

Disclosure of Invention

The invention aims to provide a construction progress monitoring device for building engineering, which aims to solve the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a building engineering construction progress monitoring devices, includes the mounting panel and locates the infrared camera of mounting panel one side, still includes:

The storage box is obliquely arranged on one side of the mounting plate, two fixing frames which are distributed in parallel are fixed on the outer surface of the infrared camera, and a travelling mechanism for sliding and storing the two fixing frames is arranged in the storage box;

the heat dissipation window is provided with two and is the symmetry and offer in the both ends lateral wall of containing box, every the inner wall of heat dissipation window all inlays and is equipped with the ventilation lamination board that the thermovent is dislocation intercommunication, two be provided with between the ventilation lamination board with advancing mechanism matched with clean mechanism.

In this aspect, the travelling mechanism includes:

the rack bars are fixed, the two rack bars are symmetrically fixed on the inner wall of the bottom of the storage box, two push-pull rods which are symmetrically distributed are fixedly penetrated through the inner wall of the fixing frame behind the storage box, the opposite surfaces of the two push-pull rods are respectively and rotatably connected with a travelling gear, and the travelling gears are meshed with the adjacent fixed rack bars;

The mounting block is fixed with a side wall at the bottom of the fixed frame positioned at the rear of the storage box, the top surface of the mounting block is provided with a traveling motor coaxially connected with one of traveling gears, and a buffer protection piece matched with the infrared camera is arranged above the traveling motor.

It is further worth mentioning that the cushioning guard comprises:

The stop lever is attached to the outer surface of the fixed frame positioned at the rear, two symmetrically-distributed movable rack bars are penetrated through the inner wall of one side of the storage box in a sliding manner, the same ends of the two movable rack bars are fixed with the inner wall of the stop lever, and buffer springs fixed on the opposite surfaces of the stop lever and the storage box are arranged on the outer surface of the movable rack bars;

The connecting frame is arranged on the periphery of the storage box, one ends, far away from the stop lever, of the movable rack bars are fixed with the connecting frame, two reversing gears which are symmetrically distributed are rotatably arranged on the outer surface of the storage box, and the reversing gears are in meshed connection with the adjacent movable rack bars.

As a preferred implementation mode, the outer surfaces of the two ends of the stop lever are provided with butt joint holes, and each butt joint hole is internally provided with a butt joint convex column which is fixed with the outer surface of the fixed frame.

It should be further noted that the cleaning mechanism includes:

the U-shaped frames are symmetrically fixed on the outer surfaces of two ends of the storage box, a rotating gear is rotationally connected between each U-shaped frame and the adjacent ventilation lamination plate, a cleaning scraping rod coaxially fixed with the rotating gear is attached to the outer surface of the ventilation lamination plate, and a pressurizing wetting piece matched with the connecting frame is arranged on the inner surface of the ventilation lamination plate;

The guide sleeve is provided with four and is the fixed distribution in the both ends surface of containing box of rectangle, is located two of same one end the common sliding connection of inner wall of guide sleeve has the transmission rack pole, the both ends of transmission rack pole respectively with the rotation gear with switching-over gear engagement is connected, two ventilation lamination's internal surface all is provided with the compression exhaust spare with transmission rack pole matched with.

As a preferred embodiment, the press wetting member comprises:

The guide frames are provided with two guide frames and are respectively fixed with the end parts of the two push-pull rods, a through groove formed in the top surface of the storage box is formed above the guide frames, a filter screen is fixed on the top surface of the through groove, and a pressurizing box fixed with the top surface of the storage box is arranged above the two filter screens;

T template, T template slidable mounting is in the inner wall of pressurization case, the top of T template is provided with the liquid storage bucket that sets up with pressurization case top surface intercommunication, the lateral wall slip of pressurization case runs through there is the pulling rod, the both ends of pulling rod are fixed with the opposite face of T template and connecting frame respectively.

As a preferred implementation mode, the inner surface laminating of ventilation lamination is provided with the removal pole of scraping that is fixed mutually with the water conservancy diversion frame inner wall, the one end of water conservancy diversion frame with be located the place ahead fixed frame mutually, the other end internal surface of water conservancy diversion frame is the cambered surface setting, the inner wall of logical groove towards the internal surface of ventilation lamination is the slope setting.

As a preferred embodiment, the compression release member includes:

The triangular prism barrel is arranged below the through groove and is fixed with the inner wall of the top of the storage box, a plurality of uniformly distributed ventilation holes are formed in the outer surface of the triangular prism barrel, and the inner wall of the triangular prism barrel is connected with a movable block in a sliding manner;

The pressing rod, one end of the pressing rod slides in proper order and runs through the containing box and the triangular prism, one end of the pressing rod is fixed with the surface of the movable block, and the other end of the pressing rod is fixed with an L-shaped rod with the end of the transmission rack rod which is close to each other.

As a preferred embodiment, the inner wall of the fixed frame at the rear is provided with a limit groove matched with the triangular prism and the fixed rack bar, and the outer side of the fixed frame at the front is provided with a closing plate rotationally connected with the top surface of the storage box.

Compared with the prior art, the device for monitoring the construction progress of the building engineering provided by the invention at least comprises the following beneficial effects:

(1) Through the setting of mechanism of marcing to can make infrared camera advance the displacement in the containing box, infrared camera carries out real-time supervision promptly and advances and accomodates two kinds of states and switch, carries out the dust separation to infrared camera's heat dissipation shell department through containing box and ventilation lamination, effectively ensures infrared camera's dustproof effect and heat dispersion at the job site.

(2) Through the cooperation of clean mechanism and advancing mechanism, both can carry out the buffering protection when the infrared camera speed of advancing is too fast, can carry out surface rotation to the ventilation lamination again and strike off, interior surface pressurization is moist, interior surface removes and scrapes and interior surface wetting liquid diffusion and air-dry the processing to improved the self-cleaning performance of ventilation lamination greatly, further improved the air circulation performance of ventilation lamination department, effectively prevented dust jam ventilation lamination.

(3) The inner surface of the ventilation lamination plate is wetted through the pressurizing and wetting piece, the movable scraping rod is moved to scrape, the cleaning effect on the inner surface of the ventilation lamination plate is effectively improved, the compression exhaust piece is matched, the pressurizing and exhausting of the top outer surface of the ventilation lamination plate are carried out, the liquid storage air drying rate and the dispersion performance of the liquid storage of the ventilation lamination plate are improved to a certain extent, the movable scraping rod is matched to scrape, and the cleaning air drying rate of the inner surface of the ventilation lamination plate is further improved.

Drawings

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

FIG. 2 is a schematic view of a split state structure of a heat dissipation window and a ventilation stack plate according to the present invention;

FIG. 3 is a schematic view of the structure of the infrared camera and the heat dissipation window of the present invention;

FIG. 4 is a schematic view of a partial structure of a T-shaped plate according to the present invention;

FIG. 5 is an enlarged schematic view of the area A of FIG. 4 according to the present invention;

FIG. 6 is a schematic view of a partial structure of a triangular prism of the present invention;

FIG. 7 is an enlarged schematic view of the area B in FIG. 6 according to the present invention;

FIG. 8 is a schematic view of the internal part of the storage box according to the present invention;

FIG. 9 is an enlarged schematic view of the structure of the area C in FIG. 8 according to the present invention;

FIG. 10 is a schematic view of a partial structure of a pressurized wetted parts portion of the present invention;

FIG. 11 is an enlarged schematic view of the structure of the area D in FIG. 10 according to the present invention;

FIG. 12 is a schematic view of a partial structure of a movable scraper bar of a flow guiding frame machine according to the present invention;

fig. 13 is an enlarged view of the area E of fig. 12 according to the present invention.

In the figure: 1. a mounting plate; 2. an infrared camera; 3. a storage box; 4. a fixed frame; 5. a travel mechanism; 51. fixing a rack bar; 52. a push-pull rod; 53. a traveling gear; 54. a mounting block; 55. a travel motor; 56. a buffer guard; 561. a stop lever; 562. moving the rack bar; 563. a buffer spring; 564. a connection frame; 565. a reversing gear; 6. a heat dissipation window; 7. a ventilation lamination; 8. a cleaning mechanism; 81. a U-shaped frame; 82. rotating the gear; 83. cleaning a scraping rod; 84. a pressurized wetting member; 841. a flow guiding frame; 842. a through groove; 843. a filter screen; 844. a pressurizing tank; 845. t-shaped plates; 846. a liquid storage hopper; 847. pulling the rod; 85. a guide sleeve; 86. a drive rack bar; 87. compressing the exhaust member; 871. triangular prism barrel; 872. a movable block; 873. a pressurizing rod; 874. an L-shaped rod; 9. a butt joint hole; 10. butting the convex columns; 11. moving the scraping rod; 12. and a closing plate.

Detailed Description

The invention is further described below with reference to examples.

In order to make the objects, technical solutions and advantages of the embodiments of the present disclosure more apparent, the technical solutions of the embodiments of the present disclosure will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present disclosure, and it is apparent that the described embodiments are some, but not all, embodiments of the present disclosure, and all other embodiments obtained by persons of ordinary skill in the art without inventive labor based on the described embodiments of the present disclosure are within the scope of protection of the present disclosure.

Unless otherwise defined, technical or scientific terms used herein should be given the ordinary meaning as understood by one of ordinary skill in the art to which this disclosure belongs, the use of the terms "comprising" or "comprises" and the like in this disclosure is intended to mean that the element or article preceding the term encompasses the element or article listed after the term and equivalents thereof, without excluding other elements or articles, and that the terms "connected" or "connected" and the like are not limited to physical or mechanical connections, but may also include electrical connections, whether direct or indirect, "upper", "lower", "left", "right", etc. are merely intended to indicate relative positional relationships that may also be correspondingly altered when the absolute position of the object being described is altered.

Embodiment one:

Referring to fig. 1-13, the invention provides a construction progress monitoring device for constructional engineering, which comprises a mounting plate 1, an infrared camera 2 arranged on one side of the mounting plate 1, and a storage box 3, wherein the storage box 3 is obliquely arranged on one side of the mounting plate 1, two fixing frames 4 which are distributed in parallel are fixed on the outer surface of the infrared camera 2, and a travelling mechanism 5 for sliding storage of the two fixing frames 4 is arranged in the storage box 3;

it should be noted that, the fixing frame 4 is used for fixing the shell of the infrared camera 2, the heat dissipation area of the shell is located between the two fixing frames 4, and through the arrangement of the travelling mechanism 5, the infrared camera 2 can perform displacement adjustment processing in the accommodating box 3, so that the infrared camera 2 extends out of the accommodating box 3 in a working state, the construction progress of a construction site is monitored in real time, namely, the front fixing frame 4 is in a critical state in the accommodating box 3, at the moment, the heat dissipation shell part of the infrared camera 2 is still located in the accommodating box 3, thereby effectively isolating dust from the heat dissipation shell of the infrared camera 2, effectively reducing dust on the construction site and being distributed on the surface of the heat dissipation shell of the infrared camera 2, and effectively guaranteeing the heat dissipation performance of the infrared camera;

It should be noted that the installation plate 1 is arranged in an inclined manner as a whole, and is installed in a designated area of a construction site, the top of the installation plate is provided with a placement seat for fixing the storage box 3, and the bottom of the installation plate is used for obliquely supporting the bottom surface of the storage box 3 through two symmetrical supporting rods;

The heat dissipation windows 6 are arranged in two and symmetrically arranged on the side walls of the two ends of the storage box 3, the inner wall of each heat dissipation window 6 is embedded with a ventilation lamination plate 7 with heat dissipation ports communicated in a staggered manner, and a cleaning mechanism 8 matched with the travelling mechanism 5 is arranged between the two ventilation lamination plates 7;

It should be noted that, the inner and outer ends of the heat dissipation window 6 are all arranged in a convex shape, the ventilation lamination 7 is formed by overlapping and bonding two plates, the height of the outer surface hole of the ventilation lamination 7 is lower than the height of the hole communicated with the inside, the overlapping area of the two plates is provided with a heat dissipation channel from bottom to top, the ventilation lamination 7 is arranged at the heat dissipation window 6, thus not only ensuring the air convection communication performance of the infrared camera 2 when monitoring the progress of the construction site in real time, but also reducing the possibility that dust enters the storage box 3 to a certain extent due to the increase of the heat dissipation channel and dislocation communication, effectively ensuring the heat dissipation performance of the infrared camera 2 in the storage box 3, in addition, the communication heat dissipation channel of the ventilation lamination 7 can be arranged into other shapes, and detailed description is omitted;

The cleaning mechanism 8 is arranged, when the progress of the construction site is not monitored in real time by the infrared camera 2, the infrared camera 2 synchronously drives the cleaning mechanism 8 to move when entering the storage box 3 for storage processing through the travelling mechanism 5, so that the ventilation lamination 7 at the two-end heat dissipation window 6 is subjected to inner and outer dual cleaning processing, namely, the ventilation lamination 7 is subjected to self-cleaning processing when the infrared camera 2 is used for storage protection, and guarantee is provided for the next real-time monitoring processing of the construction progress of the construction site by the infrared camera 2, so that the heat dissipation performance of the infrared camera 2 in the storage box 3 is effectively enhanced.

As further shown in fig. 5, 9, 10, 12 and 13, it is worth specifically explaining that the travelling mechanism 5 comprises a fixed rack rod 51, the fixed rack rod 51 is provided with two push-pull rods 52 symmetrically distributed and penetrated and fixed on the inner wall of the bottom of the storage box 3 and the inner wall of the fixed frame 4 positioned behind the storage box 3, the opposite surfaces of the two push-pull rods 52 are respectively connected with a travelling gear 53 in a rotary manner, and the travelling gears 53 are in meshed connection with the adjacent fixed rack rods 51;

The mounting block 54, the mounting block 54 is fixed with a side wall of the bottom of the fixed frame 4 positioned at the rear of the storage box 3, the top surface of the mounting block 54 is provided with a travelling motor 55 coaxially connected with one travelling gear 53, and a buffer protection piece 56 matched with the infrared camera 2 is arranged above the travelling motor 55;

It should be noted that, by driving the travelling motor 55, the travelling gear 53 rotates on the push-pull rod 52, and the fixed rack rod 51 performs meshing transmission on the travelling gear 53, so that the fixed frame 4 performs travelling meshing transmission on the fixed rack rod 51 through the travelling gears 53 at two ends, that is, performs travelling displacement processing in the storage box 3 through the two fixed frames 4, so as to realize conversion between two states of real-time monitoring of progress of the construction site when the infrared camera 2 extends out of the storage box 3 and storage protection processing when the infrared camera is slidingly stored in the storage box 3;

It should be noted that, the infrared camera 2 and the fixed frame 4 are driven to move in the storage box 3 through the meshing of the moving gear 53 and the fixed rack bar 51, and move in a bidirectional meshing manner, so that the accuracy and stability of the travel of the infrared camera 2 can be improved to a certain extent, and in addition, the buffer protection piece 56 is used for buffering and protecting the infrared camera 2 when the infrared camera 2 is slidingly stored in the storage box 3, so that the damage to the surface of the shell of the infrared camera 2 caused by too high moving speed of the infrared camera 2 in the storage box 3 is effectively avoided.

As further shown in fig. 1,2, 5, 6, 12 and 13, it should be specifically explained that the buffer guard 56 includes a stop lever 561, the stop lever 561 is attached to the outer surface of the fixed frame 4 located at the rear, two symmetrically distributed movable rack bars 562 are slidably penetrated through the inner wall of one side of the storage box 3, the same ends of the two movable rack bars 562 are fixed to the inner wall of the stop lever 561, and buffer springs 563 fixed to the opposite surfaces of the stop lever 561 and the storage box 3 are arranged on the outer surface of the movable rack bars 562;

The connecting frame 564, the connecting frame 564 is arranged on the periphery of the containing box 3, one ends of the two movable rack bars 562 far away from the stop lever 561 are fixed with the connecting frame 564, two symmetrically distributed reversing gears 565 are rotatably arranged on the outer surface of the containing box 3, and the reversing gears 565 are in meshed connection with the adjacent movable rack bars 562;

It should be noted that, through the drive of the travelling motor 55, when the infrared camera 2 and the two fixed frames 4 are accommodated and moved inwards in the accommodating box 3, the fixed frames 4 located behind the accommodating box 3 are firstly contacted with the stop lever 561, so that the stop lever 561 moves towards the outer side of the accommodating box 3 through the moving rack rod 562 and synchronously drives the buffer spring 563 to perform compression processing, and simultaneously, the two reversing gears 565 synchronously rotate through the meshing transmission of the moving rack rod 562 and the reversing gears 565, at this time, the acting force of the travelling motor 55 for sliding and accommodating the infrared camera 2 is used for overcoming the elasticity of the buffer spring 563 and the meshing transmission acting force between the reversing gears 565 and the moving rack rod 562, so as to prevent damage caused by too fast travelling speed of the infrared camera 2.

As further shown in fig. 5 and 13, it should be specifically explained that the outer surfaces of the two ends of the stop lever 561 are provided with docking holes 9, and docking posts 10 fixed with the outer surface of the fixed frame 4 are arranged in each docking hole 9;

it should be noted that, the arrangement of the docking post 10 and the docking hole 9 makes the infrared camera 2 contact the stop lever 561 through the fixing frame 4, and at this time, the docking post 10 and the docking hole 9 form a docking process, that is, the docking storage and installation of the infrared camera 2 in the storage box 3 is completed, thereby improving the stability of the infrared camera 2 during storage and processing.

As further shown in fig. 1,2, 4, 7 and 10, it should be noted that the cleaning mechanism 8 includes a U-shaped frame 81, two U-shaped frames 81 are symmetrically fixed on the outer surfaces of two ends of the storage box 3, a rotation gear 82 is rotatably connected between the U-shaped frame 81 and the adjacent ventilation stack 7, a cleaning scraping rod 83 coaxially fixed with the rotation gear 82 is attached to the outer surface of the ventilation stack 7, and a pressing wetting piece 84 matched with the connection frame 564 is arranged on the inner surface of the ventilation stack 7;

The guide sleeves 85, the guide sleeves 85 are provided with four guide sleeve rods which are rectangular and fixedly distributed on the outer surfaces of two ends of the storage box 3, the inner walls of the two guide sleeves 85 positioned at the same end are connected with a transmission rack rod 86 in a sliding manner, two ends of the transmission rack rod 86 are respectively meshed with the rotating gear 82 and the reversing gear 565, and the inner surfaces of the two ventilation stacked plates 7 are respectively provided with a compressed exhaust piece 87 matched with the transmission rack rod 86;

After the infrared camera 2 is in butt joint with the butt joint hole 9 through the butt joint convex column 10, the travel motor 55 drives the infrared camera 2 to travel a distance towards the inside of the storage box 3 again, so that the stop lever 561 and the movable rack bar 562 are driven to synchronously move towards the outside of the storage box 3, the movable rack bar 562 and the transmission rack bar 86 are meshed and driven through the reversing gear 565, so that the transmission rack bar 86 and the movable rack bar 562 synchronously and reversely move in the guide sleeve 85, and the rotary gear 82 and the cleaning scraping bar 83 synchronously rotate under the meshing and driving action of the transmission rack bar 86 and the rotary gear 82, so that the outer surface of the ventilation laminated plate 7 is subjected to rotary scraping self-cleaning treatment through the cleaning scraping bar 83;

The arrangement of the pressurizing and wetting piece 84, which moves synchronously with the connecting frame 564 and the moving rack bar 562, forms the wetting treatment on the inner surface of the ventilation stack plate 7 in the storage box 3, and the arrangement of the compressing and exhausting piece 87, which moves synchronously with the driving rack bar 86, compresses the air on the inner surface of the storage box 3, accelerates the air flow at the inner surface pore of the ventilation stack plate 7, so that the inner surface of the ventilation stack plate 7 is more moist, thereby improving the wettability of the ventilation stack plate 7, and also performs certain air blowing on the inner surface pore of the ventilation stack plate 7, so that the residual impurities in the ventilation stack plate 7 are blown out, and the rotating scraping bar on the outer surface of the ventilation stack plate 7 is matched with the cleaning scraping bar 83, thereby further improving the connectivity and the cleanliness of the ventilation stack plate 7.

As further shown in fig. 1,2,3, 4, 7, 8, 10 and 11, it is worth specifically explaining that the pressing wetting piece 84 includes a guiding frame 841, the guiding frame 841 is provided with two guiding frames and is fixed with the ends of the two push-pull rods 52 respectively, one end of the guiding frame 841 is fixed with the front fixed frame 4, the inner surface of the other end of the guiding frame 841 is provided with a cambered surface, the inner surface of the ventilation stack 7 is provided with a movable scraping rod 11 fixed with the inner wall of the guiding frame 841 in an attached manner, a through groove 842 opened on the top surface of the storage box 3 is arranged above the guiding frame 841, the inner wall of the through groove 842 is inclined towards the inner surface of the ventilation stack 7, a filter screen 843 is fixed on the top surface of the through groove 842, and a pressing box 844 fixed with the top surface of the storage box 3 is arranged above the two filter screens 843;

The T-shaped plate 845 is slidably arranged on the inner wall of the pressurizing box 844, a liquid storage hopper 846 communicated with the top surface of the pressurizing box 844 is arranged above the T-shaped plate 845, a pulling rod 847 is slidably penetrated through the outer side wall of the pressurizing box 844, and two ends of the pulling rod 847 are respectively fixed with the opposite surfaces of the T-shaped plate 845 and the connecting frame 564;

It should be noted that a certain liquid storage space is formed between the guiding frame 841 and the fixed frame 4, so that the liquid storage flowing from the through groove 842 to the inner surface of the ventilation lamination plate 7 is collected, when the advancing motor 55 drives the front end of the fixed frame 4 and the infrared camera 2 to extend out of the storage box 3, the end part of the guiding frame 841 is in an open state, so that the liquid storage which is wetted and washed can be drained, and when the movable scraping rod 11 moves synchronously with the guiding frame 841 and the fixed frame 4, the inner surface of the ventilation lamination plate 7 which is wetted and washed can be moved and scraped, so that the wetting uniformity of the ventilation lamination plate is improved, and the cleaning effect on the inner surface of the ventilation lamination plate is further improved;

The inner wall of the pressurizing box 844 is provided with a partition board which is distributed in a staggered way, the liquid stored in the liquid storage hopper 846 can be formed by rainwater, cooling liquid and other liquids, the top of the pulling rod 847 is provided with a liquid inlet hole, the rack rod 562, the connecting frame 564, the pulling rod 847 and the T-shaped plate 845 are in a stable state in the pressurizing box 844 at the moment when the buffer spring 563 is in an unstressed state, the through holes on the T-shaped plate 845 are positioned at one side of the bottom of the liquid storage hopper 846, and the T-shaped plate 845 forms a sealing treatment on the bottom of the liquid storage hopper 846 at the moment;

It should be noted that, when the travel motor 55 drives the infrared camera 2 to move toward the inside of the storage box 3, the rack bar 562, the connecting frame 564, the pull rod 847 and the T-shaped plate 845 move synchronously toward the outside of the storage box 3, at this time, the liquid inlet on the T-shaped plate 845 and the liquid storage hopper 846 form a communication arrangement, the liquid storage in the T-shaped plate 845 rapidly enters the pressurizing box 844, and the T-shaped plate 845 slides at the partition plate in the pressurizing box 844, so that the volume of the liquid storage gradually decreases, and the liquid storage in the T-shaped plate 845 is filtered by the filter screen 843 and flows from the through groove 842 to the inner surface of the ventilation stack 7 for wetting and flushing treatment.

The embodiment has the following working procedures: when the infrared camera 2 monitors the construction progress of a building construction site, the fixed frame 4 in front of the infrared camera 2 moves to the edge of the storage box 3 through the meshing transmission action of the travelling gear 53 and the fixed rack rod 51 by virtue of the driving of the travelling motor 55, so that a heat dissipation area forming the shell of the infrared camera 2 is positioned in the storage box 3, the infrared camera 2 dissipates heat through an internal heat dissipation fan and is communicated with the nature through the shell and the ventilation lamination 7, the outside air circulation and the self heat dissipation performance of the infrared camera 2 in the normal working state can be effectively ensured, dust on the construction site can be effectively reduced to be fully distributed on the shell of the infrared camera 2, the heat dissipation performance of the infrared camera 2 is ensured, and the service life of the infrared camera is effectively prolonged;

When the infrared camera 2 monitors in real time, the buffer spring 563 is in an unstressed state, at the moment, the cleaning scraping rod 83 at the periphery of the ventilation lamination 7 is in a static state, and a sealing state is formed between the liquid storage hopper 846 and the pressurizing box 844, in addition, when the infrared camera 2 moves along with the outside, the moving scraping rod 11 moves the scraping rod 11 to a certain extent on the inner surface of the ventilation lamination 7, so that the cleaning performance of the inner surface of the ventilation lamination 7 is improved to a certain extent;

When the infrared camera 2 does not monitor the construction progress of the construction site in real time, the travel motor 55 drives the fixed frame 4 and the infrared camera 2 to move into the storage box 3, so that the rear fixed frame 4 contacts with the stop lever 561 and the docking post 10 and the docking hole 9 are subjected to docking treatment, thereby forming the travel type docking storage treatment for the infrared camera 2, the buffer spring 563 is still in a normal state at the moment, and the cleaning scraper 83 is communicated with the liquid storage hopper 846 and the pressurizing box 844;

When the infrared camera 2 moves at too high speed or cleans the ventilation laminated board 7, the travel motor 55 drives the fixed frame 4 to enable the stop lever 561 to move towards the inside of the storage box 3, so that the movable rack bar 562 and the transmission rack bar 86 synchronously move reversely, at the moment, the cleaning scraping bar 83 rotates and scrapes the outer surface of the ventilation laminated board 7, the liquid storage hopper 846 is communicated with the pressurizing box 844, the liquid storage pressurization in the pressurizing box 844 wets and washes the inner surface of the ventilation laminated board 7, and the movable scraping bar 11 moves and scrapes the inner surface of the ventilation laminated board 7, namely, triple cleaning treatments of rotating and scraping the outer surface of the ventilation laminated board 7, pressurizing and wetting the inner surface and moving and scraping the inner surface are completed, so that the self-cleaning performance of the ventilation laminated board 7 is improved, and the air circulation performance of the infrared camera 2 in the storage box 3 is greatly ensured.

Embodiment two:

On the basis of the first embodiment, as shown in fig. 1, 2, 6, 9, 10 and 11, it should be specifically explained that the compressed air exhaust member 87 includes a triangular prism 871, the triangular prism 871 is disposed below the through slot 842 and is fixed with the top inner wall of the storage box 3, the outer surface of the triangular prism 871 is provided with a plurality of uniformly distributed air holes, and the inner wall of the triangular prism 871 is slidably connected with a movable block 872;

A pressing rod 873, wherein one end of the pressing rod 873 sequentially slides through the storage box 3 and the triangular prism 871, one end of the pressing rod 873 is fixed with the outer surface of the movable block 872, and the other end of the pressing rod 873 is fixed with an L-shaped rod 874 with the end of the transmission rack rod 86 which is close to each other;

When the infrared camera 2 performs cleaning treatment on the ventilation stack plate 7 at too high a running speed, the transmission rack rod 86 moves in the same direction with the transmission rack rod 86 through the connection function of the L-shaped rod 874, so that the pressurization rod 873 and the movable block 872 perform air compression treatment in the triangular prism 871, the ventilation stack plate 7 is wetted by liquid storage and the movable block 872 moves and scrapes by the movable scraping rod 11, and meanwhile, air at the movable block 872 in the triangular prism 871 is compressed to form pressurized exhaust on the top outer surface of the ventilation stack plate 7, so that the liquid storage air drying rate and the dispersion property of the liquid storage of the ventilation stack plate 7 are improved to a certain extent, and the cleaning air drying rate on the inner surface of the ventilation stack plate 7 is further improved by matching with the movement scraping of the movable scraping rod 11.

Further, as shown in fig. 1,3, 8, 10 and 12, it is worth specifically explaining that the inner wall of the fixed frame 4 located at the rear is provided with a limit groove adapted to the triangular prism 871 and the fixed rack bar 51, the outer side of the fixed frame 4 located at the front is provided with a closing plate 12 rotationally connected with the top surface of the storage box 3, the closing plate 12 is arranged, when the infrared camera 2 is located in the storage box 3 for storage, the closing plate 12 seals the storage box 3 which is obliquely arranged under the action of gravity, and when the infrared camera is monitored in real time, the top of the closing plate 12 is located on the top surface of the protective cover of the infrared camera 2.

On the basis of the first embodiment, the present embodiment further includes the following working procedures: when the infrared camera 2 performs cleaning treatment on the ventilation stack plate 7at too high a running speed, the pressurizing rod 873 and the movable block 872 perform air compression treatment in the triangular prism 871, pressurizing and exhausting air on the top outer surface of the ventilation stack plate 7, the liquid storage air drying rate and the dispersion performance of the liquid storage of the ventilation stack plate 7 are improved to a certain extent, and the cleaning air drying rate on the inner surface of the ventilation stack plate 7 is further improved by matching with the movable scraping of the movable scraping rod 11.

In summary, it can be seen in combination with two embodiments: through the setting of mechanism 5 that advances to can make infrared camera 2 advance the displacement in containing box 3, infrared camera 2 carries out real-time supervision and advances and accomodates two kinds of states and switch, carry out the dust separation to the heat dissipation shell department of infrared camera 2 through containing box 3 and ventilation lamination 7, effectively ensure dustproof effect and the heat dispersion of infrared camera 2 at the job site, through the cooperation effect of clean mechanism 8 and mechanism 5 that advances, both can advance the speed of infrared camera 2 and cushion the protection when too fast, can carry out surface rotation to ventilation lamination 7 again and strike off, interior surface pressurization is moist, interior surface removes and scrapes and interior surface wetting liquid diffusion and air-dry the processing, thereby self-cleaning performance of ventilation lamination 7 has been greatly improved, further improve the air circulation performance of ventilation lamination 7 department, effectively prevent dust jam ventilation lamination 7.

The inner surface of the ventilation lamination plate 7 is wetted through the pressurizing and wetting piece 84 and the movable scraping rod 11 is moved and scraped, so that the cleaning effect on the inner surface of the ventilation lamination plate 7 is effectively improved, the pressurizing and exhausting piece 87 is matched, the pressurizing and exhausting of the top outer surface of the ventilation lamination plate 7 are performed, the liquid storage air drying rate and the dispersion performance of the liquid storage of the ventilation lamination plate 7 are improved to a certain extent, and the cleaning and air drying rate on the inner surface of the ventilation lamination plate 7 is further improved through the movable scraping of the movable scraping rod 11.

Both the infrared camera 2 and the travel motor 55 can be purchased in the market and are separately provided with a power supply, which is well known in the art, and therefore, the description thereof will not be repeated.

The previous description of the disclosed embodiments, to enable any person skilled in the art to make or use the present invention, is provided that it will be apparent to those skilled in the art that various modifications may be made to these embodiments and that the general principles defined herein may be implemented in other embodiments without departing from the spirit or scope of the invention, and therefore, the invention is not to be limited to the embodiments shown herein, but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (8)

1. The utility model provides a building engineering construction progress monitoring devices, includes mounting panel (1) and locates infrared camera (2) of mounting panel (1) one side, its characterized in that still includes:

The infrared camera comprises a storage box (3), wherein the storage box (3) is obliquely arranged on one side of a mounting plate (1), two fixing frames (4) which are distributed in parallel are fixed on the outer surface of the infrared camera (2), and a travelling mechanism (5) for sliding storage of the two fixing frames (4) is arranged in the storage box (3);

the heat dissipation device comprises heat dissipation windows (6), wherein the heat dissipation windows (6) are provided with two ventilation laminated plates (7) with heat dissipation openings communicated in a staggered manner, the two side walls of the two ends of the storage box (3) are symmetrically arranged on the heat dissipation windows (6), and a cleaning mechanism (8) matched with the travelling mechanism (5) is arranged between the two ventilation laminated plates (7);

The travel mechanism (5) comprises:

The rack comprises fixed rack rods (51), wherein the fixed rack rods (51) are symmetrically fixed on the inner wall of the bottom of the storage box (3), two push-pull rods (52) which are symmetrically distributed are fixedly penetrated through the inner wall of the fixed frame (4) behind the storage box (3), the opposite surfaces of the two push-pull rods (52) are respectively and rotatably connected with a travelling gear (53), and the travelling gears (53) are in meshed connection with the adjacent fixed rack rods (51);

The mounting block (54), the mounting block (54) is fixed with a fixed frame (4) bottom lateral wall that is located containing box (3) rear, the top surface of mounting block (54) is provided with and advances motor (55) of one of them gear (53) coaxial coupling that advances, the top of advancing motor (55) is provided with and infrared camera (2) matched with buffering guard piece (56).

2. The construction progress monitoring device of claim 1, wherein the buffer guard (56) comprises:

The stop lever (561), the laminating of stop lever (561) is set up in the fixed frame (4) surface located at the rear, one side inner wall of the containing box (3) slides and runs through and has two and is the removal rack pole (562) of symmetric distribution, two the same end of removal rack pole (562) is fixed with the inner wall of stop lever (561), the surface of removal rack pole (562) is provided with and stops lever (561) and containing box (3) opposite face looks fixed buffer spring (563);

the connecting frame (564), connecting frame (564) set up in the periphery of containing box (3), two the one end that pin (561) was kept away from to removal rack bar (562) is all fixed mutually with connecting frame (564), the surface rotation of containing box (3) is installed two reversing gear (565) that are symmetrical distribution, reversing gear (565) are connected with the meshing between adjacent removal rack bar (562).

3. The construction progress monitoring device according to claim 2, wherein the outer surfaces of the two ends of the stop lever (561) are provided with a butt joint hole (9), and a butt joint convex column (10) fixed with the outer surface of the fixed frame (4) is arranged in each butt joint hole (9).

4. The construction progress monitoring device according to claim 2, characterized in that the cleaning mechanism (8) comprises:

The U-shaped frame (81), the U-shaped frame (81) is provided with two outer surfaces which are symmetrically fixed on two ends of the storage box (3), a rotating gear (82) is rotationally connected between the U-shaped frame (81) and the adjacent ventilation laminated plate (7), a cleaning scraping rod (83) which is coaxially fixed with the rotating gear (82) is attached to the outer surface of the ventilation laminated plate (7), and a pressurizing wetting piece (84) matched with the connecting frame (564) is arranged on the inner surface of the ventilation laminated plate (7);

The guide sleeve (85), guide sleeve (85) are provided with four and are the fixed both ends surface that distributes in containing box (3) of rectangle, are located two of same one end the inner wall of guide sleeve (85) is sliding connection jointly has transmission rack pole (86), the both ends of transmission rack pole (86) respectively with rotation gear (82) with switching-over gear (565) meshing is connected, two ventilation lamination (7) the internal surface all be provided with transmission rack pole (86) matched with compression exhaust (87).

5. The construction progress monitoring device of claim 4, wherein the pressurized wetting element (84) comprises:

The device comprises a guide frame (841), wherein the guide frame (841) is provided with two guide frames and is respectively fixed with the end parts of two push-pull rods (52), a through groove (842) formed in the top surface of a storage box (3) is formed above the guide frame (841), a filter screen (843) is fixed on the top surface of the through groove (842), and a pressurizing box (844) fixed with the top surface of the storage box (3) is arranged above the two filter screens (843);

T template (845), T template (845) slidable mounting is in the inner wall of pressurization case (844), the top of T template (845) is provided with liquid storage bucket (846) that set up with pressurization case (844) top surface intercommunication, the lateral wall slip of pressurization case (844) runs through has pulling rod (847), the both ends of pulling rod (847) are fixed with the opposite face of T template (845) and linking frame (564) respectively.

6. The construction progress monitoring device of claim 5, wherein the inner surface of the ventilation lamination plate (7) is provided with a movable scraping rod (11) fixed with the inner wall of a flow guiding frame (841), one end of the flow guiding frame (841) is fixed with the fixed frame (4) positioned in front, the inner surface of the other end of the flow guiding frame (841) is in an arc surface, and the inner wall of the through groove (842) is in an inclined arrangement towards the inner surface of the ventilation lamination plate (7).

7. The construction progress monitoring device according to claim 5, wherein the compressed air discharge member (87) includes:

The triangular prism (871) is arranged below the through groove (842) and is fixed with the inner wall of the top of the storage box (3), a plurality of uniformly distributed ventilation holes are formed in the outer surface of the triangular prism (871), and the inner wall of the triangular prism (871) is connected with a movable block (872) in a sliding manner;

The pressurizing rod (873), one end of the pressurizing rod (873) sequentially slides and penetrates through the storage box (3) and the triangular prism (871), one end of the pressurizing rod (873) is fixed with the outer surface of the movable block (872), and the other end of the pressurizing rod (873) and the end part of the transmission rack rod (86) which are close to each other are fixed with an L-shaped rod (874).

8. The construction progress monitoring device of claim 7, wherein a limit groove matched with the triangular prism (871) and the fixed rack bar (51) is formed in the inner wall of the fixed frame (4) at the rear, and a closing plate (12) rotationally connected with the top surface of the storage box (3) is arranged on the outer side of the fixed frame (4) at the front.