CN216590839U - Integrated slide rail device convenient to from climbing - Google Patents

Abstract

The utility model provides an integrated sliding rail device convenient for self-climbing, and belongs to the technical field of intelligent construction sites. The integrated slide rail device convenient for self-climbing comprises an integrated bracket. Fix bottom sleeve mechanism through first strengthening mechanism and second strengthening mechanism, realize two first threaded rods and two synchronous rises of second threaded rod or descend through second driving motor, to two first movable bars through third strengthening mechanism, two second movable bars, two first threaded rods and two second threaded rods are fixed, work through spring fit second driving motor, realize the rising or the undercarriage of integrated support, and then realize that the automation of integrated support climbs or descends, drive the assembly pulley through the inside first driving motor of shell body among the monitoring mechanism and rotate, realize that the shell body slides from side to side on the linear rail, and carry out real-time supervision to the site conditions through the camera.

Description

Integrated slide rail device convenient to from climbing

Technical Field

The utility model relates to the technical field of intelligent construction sites, in particular to an integrated sliding rail device convenient for self-climbing.

Background

The building industry is one of the important material production departments and the prop industry of national economy in China, and meanwhile, the building industry is also a high-risk industry with multiple safety accidents. How to strengthen the safety management of the construction site, reduce the accident occurrence frequency, put an end to various illegal operations and illegal constructions and improve the quality of construction projects is an important research subject in front of all levels of government departments, people in the industry and broad students.

Under this background, with the continuous development of technology, the application of information-based means, mobile technology, intelligence wearing and instrument in the engineering construction stage constantly promotes, and the construction of wisdom building site is in due charge. And the frame function singleness that climbs that current wisdom building site on-the-spot monitoring was used can not realize climbing automatically and highly reducing, consequently, we improve this, has provided an integrated slide rail device convenient to climb certainly for wisdom building site on-the-spot monitoring.

SUMMERY OF THE UTILITY MODEL

In order to make up for the above deficiencies, the utility model provides an integrated slide rail device convenient for self-climbing.

The utility model is realized in the following way:

an integrated slide rail device convenient for self-climbing comprises an integrated bracket.

The integrated support comprises a bottom sleeve mechanism, a first movable rod, a second movable rod, a first threaded rod, a second threaded rod, a first reinforcing mechanism, a second reinforcing mechanism, a third reinforcing mechanism, a top cover mechanism and a monitoring mechanism, wherein the sleeve mechanism comprises a front sleeve and a back sleeve, the number of the front sleeve and the number of the back sleeve are four and are symmetrically arranged, the number of the first movable rod, the number of the second movable rod, the number of the first threaded rod and the number of the second threaded rod are two, the bottom ends of the two first movable rods penetrate through the top ends of two back sleeves positioned at two sides in the four back sleeves, the bottom ends of the two first threaded rods penetrate through the top ends of two back sleeves positioned in the middle of the four back sleeves, the bottom ends of the two second movable rods penetrate through the top ends of two front sleeves positioned at two sides in the four front sleeves, the bottom ends of the two second threaded rods penetrate through the top ends of two front sleeves located in the middle of the four front sleeves, driven bevel gears are mounted at the top ends of the two front sleeves located in the middle and the two back sleeves located in the middle in a bearing mode, and internal thread sleeves are arranged on the top surfaces of the four driven bevel gears;

the top cover mechanism is arranged at the top ends of the two first movable rods and the two first threaded rods, the top cover mechanism comprises inclined rods, first bent pipe sleeves, second bent pipe sleeves and transverse rods, the number of the inclined rods, the first bent pipe sleeves, the second bent pipe sleeves and the transverse rods is four, the four first bent pipe sleeves are respectively sleeved at the top ends of the two first movable rods and the two first threaded rods, the four inclined rods are respectively sleeved at the other ends of the four first bent pipe sleeves, one ends of the four transverse rods are respectively horizontally arranged at the positions where the two first movable rods are close to the top ends and the positions where the two first threaded rods are close to the top ends, the other ends of the four transverse rods are respectively fixed with one ends of the four inclined rods far away from the first bent pipe sleeves through the four second bent pipe sleeves, and the center positions of the four transverse rods are respectively and vertically provided with connecting rods, four the bottom of connecting rod is equipped with the line rail, the spout has all been seted up to the both sides of line rail, monitoring mechanism cover is located the surface of line rail.

In an embodiment of the present invention, the first reinforcing mechanism, the second reinforcing mechanism, and the third reinforcing mechanism have the same structure, and each of the first reinforcing mechanism, the second reinforcing mechanism, and the third reinforcing mechanism includes a fixed disk and reinforcing ribs, a plurality of mounting holes are formed in a surface of the fixed disk, and the number of the fixed disks is eight.

In an embodiment of the utility model, eight fixed disks in the first reinforcing mechanism are respectively sleeved at positions close to bottom ends of four back sleeves and four front sleeves, eight fixed disks in the second reinforcing mechanism are respectively sleeved at positions close to top ends of four back sleeves and four front sleeves, and the fixed disks in the first reinforcing mechanism and the fixed disks in the second reinforcing mechanism are respectively connected through reinforcing ribs.

In an embodiment of the present invention, four fixed disks in the third reinforcing mechanism are respectively sleeved on the two second movable rods and the two second threaded rods near the top ends, and the other four fixed disks in the third reinforcing mechanism are correspondingly sleeved on the surfaces of the two first movable rods and the two first threaded rods.

In an embodiment of the utility model, the monitoring mechanism includes an outer shell, a groove adapted to the line rail is formed in a top surface of the outer shell, a pulley block is arranged inside the outer shell, the top surface of the pulley block is in contact with the line rail, the pulley blocks are driven by a belt, a first driving motor is arranged inside the outer shell, and the first driving motor and the pulley block are driven by the belt.

In an embodiment of the present invention, a camera is disposed on a bottom surface of the outer casing.

In an embodiment of the present invention, four internal thread sleeves are respectively sleeved on the surfaces of two first threaded rods and the surfaces of two second threaded rods, bottom surfaces of the four internal thread sleeves are fixedly connected to the driven bevel gear, two first movable rods and two second movable rods are respectively in clearance fit with inner walls of two corresponding back sleeves and two corresponding front sleeves, and springs are disposed between bottom ends of the two first movable rods and the two second movable rods and inner bottom surfaces of the two corresponding back sleeves and the two corresponding front sleeves.

In an embodiment of the present invention, a motor mounting plate is disposed on top surfaces of four fixed disks located in the middle of the second reinforcing mechanism, second driving motors are disposed on top surfaces of the motor mounting plates near four corners, output ends of the second driving motors are provided with driving bevel gears, and the four driving bevel gears are engaged with four driven bevel gears respectively.

In an embodiment of the present invention, the top cover mechanism further includes a rain-proof shed, and the rain-proof shed is disposed between the four diagonal rods.

In an embodiment of the present invention, both ends of the wire track are provided with a position-limiting sleeve.

The utility model has the beneficial effects that: the utility model obtains the integrated slide rail device convenient for self-climbing through the design, the four front sleeves and the four back sleeves are fixed through the first reinforcing mechanism and the second reinforcing mechanism, the four driving bevel gears are driven to rotate through the four second driving motors on the motor mounting plate, the four driven bevel gears are respectively fixedly sleeved at the positions close to the top ends of the two front sleeves positioned in the middle and the two back sleeves positioned in the middle through bearings, the four driving bevel gears are mutually meshed with the four driven bevel gears, so that the four driving bevel gears drive the four driven bevel gears to rotate, the top surfaces of the four driven bevel gears are fixedly provided with the four inner thread sleeves, the four inner thread sleeves are respectively matched with the two first threaded rods and the two second threaded rods, therefore, the two first threaded rods and the two second threaded rods synchronously ascend or descend through the synchronous rotation of the second driving motors, through the third strengthening mechanism to two first movable rods, two second movable rods, two first threaded rods and two second threaded rods are fixed, and through the work of the spring cooperation second driving motor that is equipped with between two first movable rods that are located both sides and two second movable rods that are located both sides and two corresponding front sleeves and two back sleeves, realize rising or the undercarriage of integrated support, and then realize that the automation of integrated support climbs or descends, drive the assembly pulley through the inside first driving motor of shell body among the monitoring mechanism and rotate, realize that the shell body slides from side to side on the rail, and carry out real-time supervision to the site conditions through the camera.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is a schematic perspective view of an integrated slide rail device for facilitating self-climbing according to an embodiment of the present invention;

fig. 2 is a schematic diagram of an explosive structure of an integrated slide rail device for facilitating self-climbing according to an embodiment of the present invention.

In the figure: 100. an integrated bracket; 101. a bottom sleeve mechanism; 10101. a back sleeve; 10102. a front sleeve; 102. a first reinforcement mechanism; 10201. fixing the disc; 10202. mounting holes; 10203. reinforcing ribs; 103. A second reinforcement mechanism; 104. a third reinforcement mechanism; 105. a top cover mechanism; 10501. a diagonal bar; 10502. a first elbow pipe sleeve; 10503. a second elbow pipe sleeve; 10504. a cross bar; 10505. a connecting rod; 10506. a wire track; 10507. a limiting sleeve; 10508. a rain-proof shed; 10509. a chute; 106. a monitoring mechanism; 10601. an outer housing; 10602. a camera; 10603. a pulley block; 1001. a first movable bar; 1002. a first threaded rod; 1003. A second movable bar; 1004. a second threaded rod; 1005. a spring; 1006. a driven bevel gear; 1007. an internal thread sleeve; 1008. motor mounting panel.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings of the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention.

Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the utility model, as claimed, but is merely representative of selected embodiments of the utility model. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like, indicate orientations and positional relationships based on those shown in the drawings, and are used only for convenience of description and simplicity of description, and do not indicate or imply that the equipment or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be considered as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

Examples

Referring to fig. 1-2, the present invention provides a technical solution: an integrated rail apparatus for facilitating self-climbing includes an integrated bracket 100.

Referring to fig. 1-2, in operation, the four front sleeves 10102 and the four back sleeves 10101 are fixed by the first reinforcing mechanism 102 and the second reinforcing mechanism 103, the four second driving motors on the motor mounting plate 1008 drive the four driving bevel gears to rotate, the four driven bevel gears 1006 are fixedly sleeved on the top ends of the two front sleeves 10102 and the two back sleeves 10101 respectively through bearings, the four driving bevel gears are engaged with the four driven bevel gears 1006, so that the four driving bevel gears drive the four driven bevel gears 1006 to rotate, the four internal thread sleeves are fixedly installed on the top surfaces of the four driven bevel gears 1006, the four internal thread sleeves 1007 are respectively matched with the two first threaded rods 1002 and the two second threaded rods 1004, and therefore, through the synchronous rotation of the second driving motors, the synchronous ascending or descending of the two first threaded rods 1002 and the two second threaded rods 1004 is realized, the two first movable rods 1001, the two second movable rods 1003, the two first threaded rods 1002 and the two second threaded rods 1004 are fixed through the third reinforcing mechanism 104, the two first movable rods 1001 on two sides and the two second movable rods 1003 on two sides and the springs 1005 arranged between the two corresponding front sleeves 10102 and the two corresponding back sleeves 10101 are matched with the second driving motors to work, the ascending or descending of the integrated bracket 100 is realized, the automatic ascending or descending of the integrated bracket 100 is further realized, the pulley block 10603 is driven to rotate by the first driving motor inside the outer shell 10601 in the monitoring mechanism 106, the left-right sliding of the outer shell 10601 on the line 10506 is realized, and the field condition is monitored in real time through the camera 10602.

Specifically, referring to fig. 1-2, the integrated bracket 100 includes a bottom sleeve mechanism 101, a first movable bar 1001, a second movable bar 1003, a first threaded bar 1002, a second threaded bar 1004, a first reinforcing mechanism 102, a second reinforcing mechanism 103, a third reinforcing mechanism 104, a top cover mechanism 105 and a monitoring mechanism 106, the sleeve mechanism includes a front sleeve 10102 and a back sleeve 10101, the number of the front sleeve 10102 and the number of the back sleeve 10101 are four and are symmetrically arranged, the number of the first movable bar 1001, the number of the second movable bar 1003, the number of the first threaded bar 1002 and the number of the second threaded bar 1004 are two, the bottom ends of the two first movable bars 1001 penetrate the top ends of the two back sleeves 10101 at two sides of the four back sleeves 10101, the bottom ends of the two first threaded bars 1002 penetrate the top ends of the two back sleeves 10101 at the middle of the four back sleeves 10101, the bottom ends of the two second movable bars 1003 penetrate the top ends of the two front sleeves 10102 at two sides of the four front sleeves 10102, the bottom ends of the two second threaded rods 1004 penetrate through the top ends of two front sleeves 10102 in the middle of the four front sleeves 10102, driven bevel gears 1006 are mounted at the top ends of the two front sleeves 10102 in the middle and the two back sleeves 10101 in the middle in a bearing mode, and internal thread sleeves 1007 are arranged on the top surfaces of the four driven bevel gears 1006;

the top cover mechanism 105 is arranged at the top ends of the two first movable rods 1001 and the two first threaded rods 1002, the top cover mechanism 105 comprises four inclined rods 10501, first bent pipe sleeves 10502, second bent pipe sleeves 10503 and cross rods 10504, the number of the inclined rods 10501, the first bent pipe sleeves 10502, the second bent pipe sleeves 10503 and the cross rods 10504 is four, the four first bent pipe sleeves 10502 are respectively sleeved at the top ends of the two first movable rods 1001 and the two first threaded rods 1002, the four inclined rods 10501 are respectively sleeved at the other ends of the four first bent pipe sleeves 10502, one ends of the four cross rods 10504 are respectively and horizontally arranged at the positions, close to the top ends, of the two first movable rods 1001 and the two first threaded rods 1002, the other ends of the four cross rods 10504 are respectively fixed with the ends, far away from the first bent pipe sleeves 10502, of the four inclined rods 10501 through the four second bent pipe sleeves 10503 and the center of the four cross rods 10504, connecting rods 10505 are vertically arranged at the bottom ends of the four connecting rods 10505, the two sides of the wire track 10506 are both provided with slide grooves 10509, and the monitoring mechanism 106 is sleeved on the surface of the wire track 10506.

As an embodiment of the present invention, further, the first fastening mechanism 102, the second fastening mechanism 103, and the third fastening mechanism 104 have the same structure, and each of the first fastening mechanism, the second fastening mechanism, and the third fastening mechanism includes a fixed disk 10201 and reinforcing ribs 10203, a plurality of mounting holes 10202 are formed on the surface of the fixed disk 10201, and the number of the fixed disks 10201 is eight.

As an embodiment of the present invention, further, eight fixed disks 10201 in the first reinforcing mechanism 102 are respectively sleeved at positions near bottom ends of the four back sleeves 10101 and the four front sleeves 10102, eight fixed disks 10201 in the second reinforcing mechanism 103 are respectively sleeved at positions near top ends of the four back sleeves 10101 and the four front sleeves 10102, and the fixed disks 10201 in the first reinforcing mechanism 102 and the fixed disks 10201 in the second reinforcing mechanism 103 are respectively connected by reinforcing ribs 10203.

As an embodiment of the present invention, further, four fixed disks 10201 of the third reinforcing mechanism 104 are respectively sleeved near the top ends of the two second movable rods 1003 and the two second threaded rods 1004, and another four fixed disks 10201 of the third reinforcing mechanism 104 are correspondingly sleeved on the surfaces of the two first movable rods 1001 and the two first threaded rods 1002.

As an embodiment of the present invention, further, the monitoring mechanism 106 includes an outer housing 10601, a groove adapted to the line rail 10506 is formed on a top surface of the outer housing 10601, a pulley block 10603 is disposed inside the outer housing 10601, a top surface of the pulley block 10603 contacts the line rail 10506, the pulley blocks 10603 are driven by a belt, a first driving motor is disposed inside the outer housing 10601, and the first driving motor and the pulley block 10603 are driven by a belt.

As an embodiment of the present invention, further, a camera 10602 is disposed on a bottom surface of the outer housing 10601, and the field condition is monitored in real time through the camera 10602.

As an embodiment of the present invention, further, four internal thread sleeves 1007 are respectively sleeved on the surfaces of the two first threaded rods 1002 and the surfaces of the two second threaded rods 1004, bottom surfaces of the four internal thread sleeves 1007 are fixedly connected with the driven bevel gear 1006, the two first movable rods 1001 and the two second movable rods 1003 are respectively in clearance fit with inner walls of the two corresponding back sleeves 10101 and the two corresponding front sleeves 10102, and springs 1005 are arranged between bottom ends of the two first movable rods 1001 and the two second movable rods 1003 and inner bottom surfaces of the two corresponding back sleeves 10101 and the two corresponding front sleeves 10102.

As an embodiment of the present invention, further, a motor mounting plate 1008 is disposed on top surfaces of four fixed disks 10201 located in the middle of the second fastening mechanism 103, second driving motors are disposed on top surfaces of the motor mounting plates 1008 near four corners, output ends of the second driving motors are provided with driving bevel gears, and the four driving bevel gears are engaged with four driven bevel gears 1006, respectively.

As an embodiment of the present invention, further, the top cover mechanism 105 further includes a rain-proof shed 10508, the rain-proof shed 10508 is disposed between the four diagonal rods 10501, and the monitoring mechanism 106 is protected by the rain-proof shed 10508, so as to prevent rainwater from entering the device.

As an embodiment of the present invention, further, both ends of the linear track 10506 are provided with a limiting sleeve 10507, and are fixed to both ends of the linear track 10506 through the limiting sleeve 10507, so that the first driving motor is prevented from driving the outer housing 10601 to move left and right and fall off from the linear track 10506 when working.

Specifically, the working principle of the integrated slide rail device convenient for self-climbing is as follows: when the four-screw-type synchronous lifting mechanism works, the four front sleeves 10102 and the four back sleeves 10101 are fixed through the first reinforcing mechanism 102 and the second reinforcing mechanism 103, the four driving bevel gears are driven to rotate through the four second driving motors on the motor mounting plate 1008, the four driven bevel gears 1006 are fixedly sleeved at the positions, close to the top ends, of the two front sleeves 10102 in the middle and the two back sleeves 10101 in the middle respectively through bearings, the four driving bevel gears are meshed with the four driven bevel gears 1006, so that the four driving bevel gears drive the four driven bevel gears 1006 to rotate, the four inner screw sleeves are fixedly installed on the top surfaces of the four driven bevel gears 1006, the four inner screw sleeves 1007 are respectively matched with the two first screw rods 1002 and the two second screw rods 1004, therefore, the two first screw rods 1002 and the two second screw rods 1004 synchronously ascend or descend through the synchronous rotation of the second driving motors, the two first movable rods 1001, the two second movable rods 1003, the two first threaded rods 1002 and the two second threaded rods 1004 are fixed through the third reinforcing mechanism 104, the two first movable rods 1001 on two sides and the two second movable rods 1003 on two sides are matched with the springs 1005 arranged between the two corresponding front sleeves 10102 and the two corresponding back sleeves 10101 to work through the second driving motors, ascending or descending of the integrated support 100 is achieved, automatic ascending or descending of the integrated support 100 is further achieved, the pulley block 10603 is driven to rotate through the first driving motors inside the outer shell 10601 in the monitoring mechanism 106, left-right sliding of the outer shell 10601 on the line rail 10506 is achieved, and real-time monitoring is conducted on the field condition through the camera 10602.

It should be noted that the specific model specifications of the camera 10602, the first driving motor, and the second driving motor need to be determined by type selection according to the actual specification of the device, and the specific type selection calculation method adopts the prior art, so detailed descriptions are omitted.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. An integrated slide rail device convenient for self-climbing is characterized by comprising

The integrated support (100) comprises a bottom sleeve mechanism (101), a first movable rod (1001), a second movable rod (1003), a first threaded rod (1002), a second threaded rod (1004), a first reinforcing mechanism (102), a second reinforcing mechanism (103), a third reinforcing mechanism (104), a top cover mechanism (105) and a monitoring mechanism (106), wherein the sleeve mechanism comprises a front sleeve (10102) and a back sleeve (10101), the number of the front sleeve (10102) and the number of the back sleeve (10101) are four and are symmetrically arranged, the number of the first movable rod (1001), the number of the second movable rod (1003), the number of the first threaded rod (1002) and the number of the second threaded rod (1004) are two, the bottom ends of the two first movable rods (1001) penetrate through the top ends of two back sleeves (10101) positioned on two sides in the four back sleeves (10101), the bottom ends of the two first threaded rods (1002) penetrate through the top ends of two back sleeves (10101) positioned in the middle of the four back sleeves (10101), the bottom ends of the two second movable rods (1003) penetrate through the top ends of two front sleeves (10102) positioned on two sides of the four front sleeves (10102), the bottom ends of the two second threaded rods (1004) penetrate through the top ends of two front sleeves (10102) positioned in the middle of the four front sleeves (10102), driven bevel gears (1006) are mounted at the top ends of the two front sleeves (10102) positioned in the middle and the two back sleeves (10101) positioned in the middle of the four front sleeves (10102) in a bearing mode, and internal thread sleeves (1007) are arranged on the top surfaces of the four driven bevel gears (1006);

the top cover mechanism (105) is arranged at the top ends of the two first movable rods (1001) and the two first threaded rods (1002), the top cover mechanism (105) comprises four inclined rods (10501), four first bent pipe sleeves (10502), four second bent pipe sleeves (10503) and four cross rods (10504), the four inclined rods (10501), the four first bent pipe sleeves (10502), the two second bent pipe sleeves (10503) and the cross rods (10504) are respectively sleeved at the top ends of the two first movable rods (1001) and the two first threaded rods (1002), the four inclined rods (10501) are respectively sleeved at the other ends of the four first bent pipe sleeves (10502), one ends of the four cross rods (10504) are respectively and horizontally arranged at the positions where the two first movable rods (1001) are close to the top end and the two first threaded rods (1002) are close to the top end, four the other end of horizontal pole (10504) is respectively through four second curved pipe box (10503) and four the down tube (10501) is kept away from the one end of first curved pipe box (10502) is fixed, four the equal vertical connecting rod (10505) that is equipped with in center department of horizontal pole (10504), four the bottom of connecting rod (10505) is equipped with linear rail (10506), spout (10509) have all been seted up to the both sides of linear rail (10506), monitoring mechanism (106) cover is located the surface of linear rail (10506).

2. The self-climbing integrated sliding rail device according to claim 1, wherein the first reinforcing mechanism (102), the second reinforcing mechanism (103) and the third reinforcing mechanism (104) have the same structure, and each of the first reinforcing mechanism, the second reinforcing mechanism and the third reinforcing mechanism comprises a fixed disk (10201) and reinforcing ribs (10203), a plurality of mounting holes (10202) are formed in the surface of the fixed disk (10201), and the number of the fixed disks (10201) is eight.

3. The integrated sliding rail device convenient for self-climbing according to claim 2, wherein eight fixed disks (10201) in the first reinforcing mechanism (102) are respectively sleeved at positions close to bottom ends of four back sleeves (10101) and four front sleeves (10102), eight fixed disks (10201) in the second reinforcing mechanism (103) are respectively sleeved at positions close to top ends of four back sleeves (10101) and four front sleeves (10102), and the fixed disks (10201) in the first reinforcing mechanism (102) and the fixed disks (10201) in the second reinforcing mechanism (103) are respectively connected through reinforcing ribs (10203).

4. The integrated sliding rail device convenient for self-climbing according to claim 3, wherein four fixed disks (10201) in the third reinforcing mechanism (104) are respectively sleeved on the two second movable rods (1003) and the two second threaded rods (1004) near the top ends, and the other four fixed disks (10201) in the third reinforcing mechanism (104) are correspondingly sleeved on the surfaces of the two first movable rods (1001) and the two first threaded rods (1002).

5. The integrated sliding rail device convenient for self-climbing according to claim 1, wherein the monitoring mechanism (106) comprises an outer shell (10601), a groove matched with the line rail (10506) is formed in the top surface of the outer shell (10601), a pulley block (10603) is arranged inside the outer shell (10601), the top surface of the pulley block (10603) is in contact with the line rail (10506), the pulley block (10603) is in belt transmission, a first driving motor is arranged inside the outer shell (10601), and the first driving motor and the pulley block (10603) are in belt transmission.

6. The self-climbing integrated sliding rail device according to claim 5, wherein a camera (10602) is arranged on the bottom surface of the outer shell (10601).

7. The integrated sliding rail device convenient for self-climbing according to claim 1, wherein four internal thread sleeves (1007) are respectively sleeved on the surfaces of two first threaded rods (1002) and the surfaces of two second threaded rods (1004), the bottom surfaces of the four internal thread sleeves (1007) are fixedly connected with the driven bevel gear (1006), two first movable rods (1001) and two second movable rods (1003) are respectively in clearance fit with the inner walls of two corresponding back sleeves (10101) and two corresponding front sleeves (10102), and springs (1005) are arranged between the bottom ends of the two first movable rods (1001) and the two second movable rods (1003) and the inner bottom surfaces of the two corresponding back sleeves (10101) and the two corresponding front sleeves (10102).

8. The self-climbing integrated sliding rail device according to claim 2, wherein a motor mounting plate (1008) is arranged on the top surfaces of the four fixed disks (10201) positioned in the middle of the second reinforcing mechanism (103), a second driving motor is arranged on the top surface of the motor mounting plate (1008) near the four corners, a driving bevel gear is arranged at the output end of each second driving motor, and the four driving bevel gears are meshed with four driven bevel gears (1006).

9. The integrated rail apparatus facilitating self-climbing according to claim 1, wherein the roof mechanism (105) further comprises a rain shelter (10508), and the rain shelter (10508) is disposed between the four diagonal rods (10501).

10. The self-climbing integrated sliding rail device according to claim 5, wherein both ends of the wire track (10506) are provided with a limiting sleeve (10507).

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