CN112461424A - Climbing frame top support monitoring assembly and monitoring method - Google Patents

Abstract

The invention relates to a climbing frame top bracing monitoring assembly in the building protection field, which comprises a climbing frame body and mounting holes, wherein the climbing frame body comprises a guide rail, a transverse plate and a transverse plate, the right side wall of the guide rail is uniformly and fixedly connected with the transverse plate, the front side wall and the rear side wall of the guide rail are uniformly and fixedly connected with fixed straight triangular plates, the mounting positions of the fixed straight triangular plates and the transverse plate are in one-to-one correspondence, the mounting plates are uniformly provided with mounting holes matched with mounting bolts, the mounting plates are symmetrically and fixedly connected with C-shaped sleeve plates through bolts, first C-shaped steel is inserted in the C-shaped sleeve plates, the straight threaded holes formed in the first C-shaped steel and the C-shaped sleeve plates are internally screwed with mounting bolts for fixedly mounting the first C-shaped steel, and the inner wall of the first C-shaped steel is connected with a main top bracing structure, so that the main support monitoring is, the occurrence of error and leakage is avoided, the top support is ensured to be in a correct state, and the practical use is facilitated.

Description

Climbing frame top support monitoring assembly and monitoring method

Technical Field

The invention relates to the field of building protection, in particular to a climbing frame top support monitoring assembly and a monitoring method.

Background

At present, with more and more high-rise residential buildings, all large enterprises begin to use the climbing frame as the outer protection of building structure construction, and are safer, more environment-friendly and more beautiful than the traditional steel pipe scaffold. The climbing frame is also called a lifting frame, and can be classified into hydraulic, electric, manual and hand-pulling types according to its power source.

The top support (also called floor stopping device, top supporting device) is a force bearing device which is arranged on the attachment support and transmits the whole load of the climbing frame to the attachment support when the climbing frame stops on a certain floor. The top support can rotate in a certain range around the pin shaft at the bottom end. When the climbing frame is lifted or lowered, workers push the upper end of the top support to the side far away from the frame body, and the top support is in a non-supporting state; when climbing the frame and stopping at a certain floor, on rotating the support body to the shore, there is a semicircular jack catch structure the upper end of shore, through the sleeve in rotatory shore middle part, the shore can stretch out and draw back, can be gone into the little round bar of support body and compress tightly the semicircular jack catch structure card of upper end, at this moment the shore is in the supported state.

Since the climbing frame is an operation of ascending (descending) and stopping at intervals, a worker needs to repeatedly check the state. However, the top support operated manually is easy to miss and leak, so that the top support is in an incorrect state.

Based on the above, the invention designs a climbing frame top support monitoring assembly and a monitoring method to solve the above problems.

Disclosure of Invention

Solves the technical problem

Aiming at the defects in the prior art, the invention provides a climbing frame top support monitoring assembly and a monitoring method.

Technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme:

the utility model provides a climb a shore monitoring subassembly, includes and climbs a support body and mounting hole, it includes guide rail, diaphragm and diaphragm to climb a support body, the even fixedly connected with diaphragm of the right side wall of guide rail, the even fixedly connected with straight set-square of lateral wall around the guide rail, and fixed straight set-square and diaphragm mounted position one-to-one, the mounting panel evenly seted up with construction bolt complex mounting hole, the mounting panel passes through bolt symmetry fixedly connected with C shape lagging, it has first C shape steel to peg graft in the C shape lagging, the straight screw hole female connection that first C shape steel and C shape lagging seted up has the construction bolt that is used for first C shape steel fixed mounting, the inner wall connection of first C shape steel has main shore structure, main shore structure includes connecting plate, crooked bracing piece, round bar, lagging, slide, torsional spring, installation cover, bearing, The outer ends of the round rod and the bent supporting rod are in fit sliding connection with the inner wall of the first C-shaped steel, the middle end of the round rod is fixedly connected with a mounting sleeve, the mounting sleeve is fixedly connected with a torsional spring, a connecting plate is fixedly connected between the torsional springs, the inner end of the round rod is fixedly connected with a bearing, the bearing is fixedly connected with a sleeve plate, the right side wall of the sleeve plate is in fit sliding connection with the left side wall of the connecting plate, the top of the bent supporting rod is in fit sliding connection with the left side wall of the sleeve plate, the sleeve plate is connected with a sliding plate, the top of the sliding plate is in a horizontal state, a first straight groove is formed in the top of the sliding plate, and a first pressure sensor is fixedly mounted at the inner bottom of the first straight groove;

a positioning structure used for adjusting the position of the sliding plate is connected between the sleeve plate and the sliding plate, the positioning structure comprises an upper positioning hole, a lower positioning hole, a second lug, a second spring, a second sliding rod and a connecting block, the outer wall of the connecting block is fixedly connected with the second spring, the outer end of the second spring is fixedly connected with the upper positioning hole, the inner wall of the upper positioning hole is fixedly connected with the second sliding rod, the inner end of the second sliding rod penetrates through the second spring to be connected with a sliding hole of the connecting block in a sliding mode, the upper end and the lower end of the side wall of the sliding plate are respectively provided with the upper positioning hole and the lower positioning hole, and the upper positioning hole and the;

the outer wall fixedly connected with guide structure of first C shape steel, guide structure is connected with vice shore structure, vice shore structure includes first lug, first spring, first slide bar, second straight flute, second pressure sensors, straight board and the straight set-square of activity, the first spring of outer end fixedly connected with of straight board, the first lug of outer end fixedly connected with of first spring, the first slide bar of inner wall fixedly connected with of first lug, the inner end of first slide bar is connected with the straight set-square of activity, the straight set-square of activity is used with the cooperation of fixed straight set-square, the second pressure sensors has been seted up at the top of the straight set-square of activity, fixed mounting has the second straight flute in the second pressure sensors.

Furthermore, the outer wall of the bearing is fixedly connected with the sleeve plate, and the inner wall of the bearing is fixedly connected with the outer wall of the round rod.

Furthermore, the sleeve plate is fixedly connected with a connecting block through a bolt.

Furthermore, the second slide bar is spliced with lower locating hole when the top of slide and diaphragm laminating contact, the second slide bar is spliced with last locating hole when the mounting panel needs the adjusting position, and the top and the diaphragm separation of slide.

Further, it is adjacent guide structure includes second C shape steel and U-shaped slide, second C shape steel passes through bolt and first C shape steel fixed connection, second C shape steel fixed connection has the U-shaped slide, the outer wall of U-shaped slide and the lateral wall laminating sliding connection of climbing a frame support body.

Furthermore, the straight plate is fixedly arranged at the top of the U-shaped sliding plate.

Furthermore, the inner end of the first sliding rod penetrates through the straight plate and is fixedly connected with the movable straight triangular plate.

Furthermore, the bevel edge of the fixed straight triangular plate is arranged upwards, and the bevel edge of the movable straight triangular plate is arranged downwards.

Furthermore, when the right-angle edge of the fixed straight triangular plate and the right-angle edge of the movable straight triangular plate are in contact with each other in an attaching mode, the top of the second straight groove is in contact with the top of the fixed straight triangular plate in an attaching mode.

The monitoring method of the climbing frame top support monitoring assembly comprises the following steps:

s1: the frame body of the climbing frame is driven to move by external power, the guide rail drives the transverse plate and the fixed straight triangular plate to move, the transverse plate pushes the sliding plate to rotate rightwards, the sliding plate moves to the position below the transverse plate, the torsional spring drives the connecting plate to rotate, the connecting plate drives the sleeve plate to rotate leftwards, the top plane part of the sliding plate moves to the bottom of the transverse plate, the sleeve plate is supported by the bent supporting rod, then the transverse plate moves downwards to be in contact with the top plane of the sliding plate, the sliding plate plays a main supporting role, meanwhile, the first pressure sensor monitors the pressure of the transverse plate, and the main supporting structure monitors;

s2: fixed straight set-square promotes the straight set-square of activity and removes the outside to fixed straight set-square, then first spring promotes first lug and removes, first lug drives first slide bar and removes, first slide bar drives the straight set-square of activity and removes the bottom to fixed straight set-square, then fixed straight set-square downstream to with the straight set-square laminating contact of activity, the straight set-square of activity plays the auxiliary stay effect, and simultaneously, the top of the straight flute of second and the bottom contact of fixed straight set-square carry out pressure monitoring to fixed straight set-square, vice shore structure carries out the auxiliary stay monitoring.

Advantageous effects

Compared with the known public technology, the technical scheme provided by the invention has the following beneficial effects:

according to the invention, the guide rail drives the transverse plate and the fixed straight triangular plate to move, the transverse plate pushes the sliding plate of the main jacking structure to rotate rightwards, the sliding plate moves to the position below the transverse plate, the torsional spring drives the connecting plate to rotate, the connecting plate drives the top plane part of the sliding plate to move to the bottom of the transverse plate, the support bar is bent to support the sleeve plate, then the transverse plate moves downwards to contact with the top plane of the sliding plate, the sliding plate plays a main supporting role, meanwhile, the first pressure sensor carries out pressure monitoring on the transverse plate, the main jacking structure carries out main supporting monitoring, a jacking which is not required to be frequently operated manually is avoided from being missed, the jacking is ensured to be in a correct state, and.

According to the invention, the fixed straight triangular plate pushes the movable straight triangular plate of the auxiliary jacking structure to move to the outer side of the fixed straight triangular plate, then the first spring pushes the first lug to move, the first lug drives the first slide rod to move, the first slide rod drives the movable straight triangular plate to move to the bottom of the fixed straight triangular plate, then the fixed straight triangular plate moves downwards to be in contact with the movable straight triangular plate in a fitting manner, the movable straight triangular plate plays a role in auxiliary supporting, meanwhile, the top of the second straight groove is in contact with the bottom of the fixed straight triangular plate to monitor the pressure of the fixed straight triangular plate, the auxiliary jacking structure carries out auxiliary supporting monitoring, further monitoring is carried out, the monitoring result is ensured, and double insurance is safer.

According to the invention, when the top of the sliding plate is in contact with the transverse plate in an attaching manner, the second sliding rod of the positioning structure is inserted into the lower positioning hole, the lengths of the sliding plate and the sleeve plate are normal supporting structures, when the mounting plate needs to adjust the positions of other floors, the second lug is worked outwards, the second lug drives the second sliding rod to be separated from the lower positioning hole, the sliding plate is slid downwards, the lower positioning hole is inserted into the upper positioning hole, the second sliding rod is inserted into the upper positioning hole, the top of the sliding plate is separated from the transverse plate, the sliding plate is favorably recycled into the sleeve plate, and the transverse plate does not block the sleeve plate from moving when the mounting plate moves.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It is obvious that the drawings in the following description are only some embodiments of the invention, and that for a person skilled in the art, other drawings can be derived from them without inventive effort.

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

FIG. 2 is a rear view of the structure of the present invention;

FIG. 3 is a top view of the structure of the present invention;

FIG. 4 is a rear view of the structure of the present invention;

FIG. 5 is a left side cross-sectional view of the structure of the present invention;

FIG. 6 is a front cross-sectional view of a structure of the present invention;

FIG. 7 is a schematic view of a positioning structure and a connecting structure thereof according to the present invention;

FIG. 8 is a schematic view of the attachment structure of the nest plate of the present invention;

FIG. 9 is a cross-sectional view of the secondary shore structure and its attachment structure of the present invention;

FIG. 10 is an enlarged view of the structure at A of FIG. 6 according to the present invention; (ii) a

In the figure: 1. the climbing frame comprises a climbing frame body 101, a guide rail 102, a transverse plate 103, a fixed straight triangular plate 2, a mounting hole 3, a reinforced plate 4, a mounting plate 5, a mounting bolt 6, a C-shaped sleeve plate 7, a first C-shaped steel 8, a guide structure 801, a second C-shaped steel 802, a U-shaped sliding plate 9, a main top support structure 901, a connecting plate 902, a bent supporting rod 903, a round rod 904, a sleeve plate 905, a sliding plate 906, a torsion spring 907, a mounting sleeve 908, a bearing 909, a first straight groove 910, a first pressure sensor 10, an auxiliary top support structure 1001, a first bump 1002, a first spring 1003, a first sliding rod 1004, a second straight groove 1005, a second pressure sensor 1006, a straight plate 1007, a movable straight triangular plate 11, a positioning structure 1101, an upper positioning hole 1102, a lower positioning hole 1103, a second bump 1105, a second spring 1106 and a connecting block.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention. It is to be understood that the embodiments described are only a few embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The present invention will be further described with reference to the following examples.

Example 1

The climbing frame jacking monitoring assembly comprises a climbing frame body 1 and mounting holes 2, the climbing frame body 1 comprises a guide rail 101, a transverse plate 102 and the transverse plate 102, the transverse plate 102 is uniformly and fixedly connected to the right side wall of the guide rail 101, fixed straight triangular plates 103 are uniformly and fixedly connected to the front side wall and the rear side wall of the guide rail 101, the fixed straight triangular plates 103 correspond to the mounting positions of the transverse plate 102 one to one, the mounting plates 4 are uniformly provided with the mounting holes 2 matched with mounting bolts, the mounting plates 4 are fixedly connected with C-shaped sleeve plates 6 through bolt symmetry, first C-shaped steel 7 is inserted in the C-shaped sleeve plates 6, the straight threaded holes formed in the first C-shaped steel 7 and the C-shaped sleeve plates 6 are internally threaded with the mounting bolts 5 for fixedly mounting the first C-shaped steel 7, the inner walls of the first C-shaped steel 7 are connected with a main jacking structure 9, and the main jacking structure 9 comprises a connecting plate 901, The bending support rod 902, the round rod 903, the sleeve plate 904, the sliding plate 905, the torsion spring 906, the mounting sleeve 907, the bearing 908, the first straight groove 909 and the first pressure sensor 910, the outer ends of the round rod 903 and the bending support rod 902 are in fit sliding connection with the inner wall of the first C-shaped steel 7, the mounting sleeve 907 is fixedly connected at the middle end of the round rod 903, the torsion spring 906 is fixedly connected with the mounting sleeve 907, the connecting plate 901 is fixedly connected between the torsion springs 906, the bearing 908 is fixedly connected at the inner end of the round rod 903, the sleeve plate 904 is fixedly connected with the bearing 908, the right side wall of the sleeve plate 904 is in fit sliding connection with the left side wall of the connecting plate 901, the top of the bending support rod 902 is in fit sliding connection with the left side wall of the sleeve plate 904, the sleeve plate 904 is connected with the sliding plate 905, the top of the sliding plate 905 is in a horizontal state, the first straight groove 909 is arranged at the top of the sliding plate 905, the first pressure, the inner wall of the bearing 908 is fixedly connected with the outer wall of the round rod 903; a positioning structure 11 for adjusting the position of the sliding plate 905 is connected between the sleeve plate 904 and the sliding plate 905; the outer wall of the first C-shaped steel 7 is fixedly connected with a guide structure 8, the adjacent guide structure 8 comprises a second C-shaped steel 801 and a U-shaped sliding plate 802, the second C-shaped steel 801 is fixedly connected with the first C-shaped steel 7 through bolts, the second C-shaped steel 801 is fixedly connected with the U-shaped sliding plate 802, the outer wall of the U-shaped sliding plate 802 is attached and slidably connected with the side wall of the climbing frame body 1, the guide structure 8 is connected with an auxiliary jacking structure 10, a transverse plate 102 and a fixed straight triangular plate 103 are driven to move through a guide rail 101, the transverse plate 102 pushes a sliding plate 905 of a main jacking structure 9 to rotate rightwards, the sliding plate 905 moves to the position below the transverse plate 102, a torsional spring 906 drives a connecting plate 901 to rotate, the connecting plate 901 drives the top plane position of the sliding plate 905 to move to the bottom of the transverse plate 102, a curved supporting rod 902 supports a sleeve plate 904, then the transverse plate 102, meanwhile, the first pressure sensor 910 monitors the pressure of the transverse plate 102, the main supporting structure 9 mainly supports and monitors, and a top support which is frequently operated manually is not needed, so that the occurrence of mistakes and omissions is avoided, the top support is ensured to be in a correct state, and the actual use is facilitated.

Example 2

Example 2 is a further modification to example 1.

As shown in fig. 1, 2, and 7, the positioning structure 11 includes an upper positioning hole 1101, a lower positioning hole 1102, a second protrusion 1103, a second spring 1104, a second slide bar 1105 and a connecting block 1106, the outer wall of the connecting block 1106 is fixedly connected with the second spring 1104, the outer end of the second spring 1104 is fixedly connected with the upper positioning hole 1101, the inner wall of the upper positioning hole 1101 is fixedly connected with the second slide bar 1105, the inner end of the second slide bar 1105 penetrates through the second spring 1104 to be slidably connected with the slide hole of the connecting block 1106, the upper and lower ends of the sidewall of the sliding plate 905 are respectively provided with the upper positioning hole 1101 and the lower positioning hole 1102, the upper positioning hole 1101 and the lower positioning hole 1102 are respectively inserted into the second slide bar 1105, the sleeve plate 904 is fixedly connected with the connecting block 1106 through bolts, the second slide bar 1105 is inserted into the lower positioning hole 1102 when the top of the sliding plate 905 is in contact with the transverse plate 102, the second slide bar 1105, when the top of sliding plate 905 is in contact with transverse plate 102 in an attaching manner, second sliding rod 1105 of positioning structure 11 is inserted into lower positioning hole 1102, the lengths of sliding plate 905 and sleeve plate 904 are normal supporting structures, when mounting plate 4 needs to adjust other floor positions, second lug 1103 is worked outwards, second sliding rod 1105 is driven by second lug 1103 to separate from lower positioning hole 1102, sliding plate 905 downwards, lower positioning hole 1102 is inserted into upper positioning hole 1101, second sliding rod 1105 is inserted into upper positioning hole 1101, and the top of sliding plate 905 is separated from transverse plate 102, and sliding plate 905 is recovered into sleeve plate 904, and when mounting plate 4 moves, transverse plate 102 does not block sleeve plate 904 from moving, so that mounting plate 4 can be adjusted to other floor positions.

Example 3

Example 3 is a further modification to example 2.

As shown in fig. 1, 2, 3, 4 and 9, the secondary top bracing structure 10 includes a first bump 1001, a first spring 1002, a first slide bar 1003, a second straight groove 1004, a second pressure sensor 1005, a straight plate 1006 and a movable straight triangle plate 1007, the outer end of the straight plate 1006 is fixedly connected with the first spring 1002, the outer end of the first spring 1002 is fixedly connected with the first bump 1001, the inner wall of the first bump 1001 is fixedly connected with the first slide bar 1003, the inner end of the first slide bar 1003 is connected with the movable straight triangle plate 1007, the movable straight triangle plate 1007 is used in cooperation with the fixed straight triangle plate 103, the top of the movable straight triangle plate 1007 is provided with the second pressure sensor 1005, the second straight groove 1004 is fixedly installed in the second pressure sensor 1005, the straight plate 1006 is fixedly installed on the top of the U-shaped sliding plate 802, the inner end of the first slide bar 1003 penetrates through the straight plate 1006 and is fixedly connected with the movable straight triangle plate 1007, the bevel edge of the fixed straight triangle plate 103 is arranged upward, the bevel edge of the movable straight triangular plate 1007 is arranged downwards, when the right-angle edge of the fixed straight triangular plate 103 is in contact with the right-angle edge of the movable straight triangular plate 1007 in a fit manner, the top of the second straight groove 1004 is in contact with the top of the fixed straight triangular plate 103 in a fit manner, the fixed straight triangular plate 103 pushes the movable straight triangular plate 1007 of the auxiliary top bracing structure 10 to move to the outer side of the fixed straight triangular plate 103, then the first spring 1002 pushes the first bump 1001 to move, the first bump 1001 drives the first slide bar 1003 to move, the first slide bar 1003 drives the movable straight triangular plate 1007 to move to the bottom of the fixed straight triangular plate 103, then the fixed straight triangular plate 103 moves downwards to be in contact with the movable straight triangular plate 1007 in a fit manner, the movable straight triangular plate 1007 plays an auxiliary supporting role, meanwhile, the top of the second straight groove 1004 is in contact with the bottom of the fixed straight triangular plate 103 to monitor the pressure of the fixed straight triangular plate 103, the auxiliary top bracing structure, further monitoring is carried out, the monitoring result is guaranteed, and double insurance is safer.

When the monitoring method is used, the monitoring method of the climbing frame top support monitoring assembly comprises the following steps:

s1: the external power drives the climbing frame body 1 to move, the guide rail 101 drives the transverse plate 102 and the fixed straight triangular plate 103 to move, the transverse plate 102 pushes the sliding plate 905 to rotate rightwards, the sliding plate 905 moves to the position below the transverse plate 102, the torsion spring 906 drives the connecting plate 901 to rotate, the connecting plate 901 drives the sleeve plate 904 to rotate leftwards, the top plane part of the sliding plate 905 moves to the bottom of the transverse plate 102, the sleeve plate 904 is supported by the bent supporting rod 902, then the transverse plate 102 moves downwards to be in contact with the top plane of the sliding plate 905, the sliding plate 905 plays a main supporting role, meanwhile, the first pressure sensor 910 monitors the pressure of the transverse plate 102, the main jacking structure 9 carries out supporting monitoring, jacking which is not required to be frequently operated manually is avoided, mistakes and leakage are avoided, the jacking is ensured to be in a;

s2: fixed straight set-square 103 promotes the straight set-square 1007 of activity and removes the outside to fixed straight set-square 103, then first spring 1002 promotes first lug 1001 and removes, first lug 1001 drives first slide bar 1003 and removes, first slide bar 1003 drives the straight set-square 1007 of activity and removes the bottom to fixed straight set-square 103, then fixed straight set-square 103 moves down to with the straight set-square 1007 laminating contact of activity, the straight set-square 1007 of activity plays the auxiliary stay effect, and simultaneously, the top of second straight flute 1004 and the bottom contact of fixed straight set-square 103 carry out pressure monitoring to fixed straight set-square 103, vice shore structure 10 carries out the auxiliary stay and monitors, further monitor, the monitoring result has been guaranteed, dual fail-safe is safer.

Wherein, when the top of slide bar 905 contacts with the laminating of diaphragm 102, second slide bar 1105 of location structure 11 is inserted with lower locating hole 1102, the length of slide bar 905 and lagging 904 is normal bearing structure, when mounting panel 4 needs to adjust other floor positions, work second lug 1103 outwards, second lug 1103 drives second slide bar 1105 and separates with lower locating hole 1102, slide bar 905 slides downwards, insert lower locating hole 1102 and upper locating hole 1101, second slide bar 1105 inserts with upper locating hole 1101, and the top of slide bar 905 separates with diaphragm 102, do benefit to slide bar 905 and retrieve to lagging 904 in, diaphragm 102 does not block lagging 904 and moves when mounting panel 4 moves, do benefit to mounting panel 4 and adjust to other floor positions.

The above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the corresponding technical solutions.

Claims (10)

1. The utility model provides a climb a roof bracing monitoring components, includes and climbs a support body (1) and mounting hole (2), climb a support body (1) and include guide rail (101), diaphragm (102) and diaphragm (102).

2. The climbing frame top bracing monitoring assembly according to claim 2, wherein a transverse plate (102) is uniformly and fixedly connected to the right side wall of the guide rail (101), a fixed straight triangular plate (103) is uniformly and fixedly connected to the front side wall and the rear side wall of the guide rail (101), and the installation positions of the fixed straight triangular plate (103) and the transverse plate (102) are in one-to-one correspondence, wherein: the mounting plate (4) is uniformly provided with mounting holes (2) matched with mounting bolts, the mounting plate (4) is symmetrically and fixedly connected with a C-shaped sleeve plate (6) through bolts, a first C-shaped steel (7) is inserted in the C-shaped sleeve plate (6), straight threaded holes formed in the first C-shaped steel (7) and the C-shaped sleeve plate (6) are in threaded connection with mounting bolts (5) used for fixedly mounting the first C-shaped steel (7), the inner wall of the first C-shaped steel (7) is connected with a main jacking structure (9), the main jacking structure (9) comprises a connecting plate (901), a bent supporting rod (902), a round rod (903), a sleeve plate (904), a sliding plate (905), a torsion spring (906), a mounting sleeve (907), a bearing (908), a first straight groove (909) and a first pressure sensor (910), the outer ends of the round rod (903) and the bent supporting rod (902) are in sliding connection with the inner wall of the first C-shaped steel (7), the middle end of the round rod (903) is fixedly connected with an installation sleeve (907), the installation sleeve (907) is fixedly connected with a torsion spring (906), a connecting plate (901) is fixedly connected between the torsion springs (906), the inner end of the round rod (903) is fixedly connected with a bearing (908), the bearing (908) is fixedly connected with a sleeve plate (904), the right side wall of the sleeve plate (904) is in fit sliding connection with the left side wall of the connecting plate (901), the top of the bent supporting rod (902) is in fit sliding connection with the left side wall of the sleeve plate (904), the sleeve plate (904) is connected with a sliding plate (905), the top of the sliding plate (905) is in a horizontal state, a first straight groove (909) is formed in the top of the sliding plate (905), and a first pressure sensor (910) is fixedly installed at the inner bottom of the first straight groove (909);

a positioning structure (11) for adjusting the position of the sliding plate (905) is connected between the sleeve plate (904) and the sliding plate (905), the positioning structure (11) comprises an upper positioning hole (1101), a lower positioning hole (1102), a second bump (1103), a second spring (1104), a second sliding bar (1105) and a connecting block (1106), the outer wall of the connecting block (1106) is fixedly connected with a second spring (1104), the outer end of the second spring (1104) is fixedly connected with an upper positioning hole (1101), the inner wall of the upper positioning hole (1101) is fixedly connected with a second sliding bar (1105), the inner end of the second sliding rod (1105) penetrates through the second spring (1104) and is connected with the sliding hole of the connecting block (1106) in a sliding way, the upper end and the lower end of the side wall of the sliding plate (905) are respectively provided with an upper positioning hole (1101) and a lower positioning hole (1102), the upper positioning hole (1101) and the lower positioning hole (1102) are respectively inserted into the second sliding bar (1105);

the outer wall of the first C-shaped steel (7) is fixedly connected with a guide structure (8), the guide structure (8) is connected with an auxiliary top bracing structure (10), the auxiliary top bracing structure (10) comprises a first convex block (1001), a first spring (1002), a first sliding rod (1003), a second straight groove (1004), a second pressure sensor (1005), a straight plate (1006) and a movable straight triangular plate (1007), the outer end of the straight plate (1006) is fixedly connected with the first spring (1002), the outer end of the first spring (1002) is fixedly connected with the first convex block (1001), the inner wall of the first convex block (1001) is fixedly connected with the first sliding rod (1003), the inner end of the first sliding rod (1003) is connected with the movable straight triangular plate (1007), the movable straight triangular plate (1007) is matched with the fixed straight triangular plate (103) for use, the top of the movable straight triangular plate (1007) is provided with a second pressure sensor (1005), a second straight groove (1004) is fixedly arranged in the second pressure sensor (1005); the outer wall of the bearing (908) is fixedly connected with the sleeve plate (904), and the inner wall of the bearing (908) is fixedly connected with the outer wall of the round rod (903).

3. The creeper top brace monitoring assembly of claim 2, wherein the collar plate (904) has a connection block (1106) fixedly connected thereto by bolts.

4. The climbing frame top bracing monitoring assembly according to claim 3, wherein the second sliding bar (1105) is inserted into the lower positioning hole (1102) when the top of the sliding plate (905) is in contact with the transverse plate (102), the second sliding bar (1105) is inserted into the upper positioning hole (1101) when the mounting plate (4) needs to adjust the position, and the top of the sliding plate (905) is separated from the transverse plate (102).

5. The climbing frame jacking monitoring assembly according to claim 2, wherein the adjacent guide structure (8) comprises a second C-shaped steel (801) and a U-shaped sliding plate (802), the second C-shaped steel (801) is fixedly connected with the first C-shaped steel (7) through a bolt, the second C-shaped steel (801) is fixedly connected with the U-shaped sliding plate (802), and the outer wall of the U-shaped sliding plate (802) is in fit sliding connection with the side wall of the climbing frame body (1).

6. The creeper top brace monitoring assembly of claim 5, wherein the straight plate (1006) is fixedly mounted on top of the U-shaped skid plate (802).

7. The climbing tower top bracing monitoring assembly according to claim 6, wherein the inner end of the first sliding rod (1003) penetrates through the straight plate (1006) to be fixedly connected with the movable straight triangular plate (1007).

8. The climbing tower top stay monitoring assembly according to claim 7, wherein the hypotenuse of the fixed straight triangle (103) is disposed upward and the hypotenuse of the movable straight triangle (1007) is disposed downward.

9. The climbing tower top brace monitoring assembly and monitoring method according to claim 8, wherein when the right-angle side of the fixed straight triangular plate (103) and the right-angle side of the movable straight triangular plate (1007) are in abutting contact, the top of the second straight groove (1004) is in abutting contact with the top of the fixed straight triangular plate (103).

10. The monitoring method for the climbing frame top stay monitoring assembly according to any one of claims 2 to 9, characterized by the following steps:

s1: the climbing frame is characterized in that an external power drives a climbing frame body (1) to move, a guide rail (101) drives a transverse plate (102) and a fixed straight triangular plate (103) to move, the transverse plate (102) pushes a sliding plate (905) to rotate rightwards, the sliding plate (905) moves to the position below the transverse plate (102), a torsion spring (906) drives a connecting plate (901) to rotate, the connecting plate (901) drives a sleeve plate (904) to rotate leftwards, the top plane part of the sliding plate (905) moves to the position of the bottom of the transverse plate (102), a bent supporting rod (902) supports the sleeve plate (904), then the transverse plate (102) moves downwards to be in contact with the top plane of the sliding plate (905), the sliding plate (905) plays a main supporting role, meanwhile, a first pressure sensor (910) monitors the pressure of the transverse plate (102), and a main top supporting structure (9;

s2: fixed straight set-square (103) promote activity straight set-square (1007) to move to the outside of fixed straight set-square (103), then first spring (1002) promote first lug (1001) and move, first lug (1001) drive first slide bar (1003) and move, first slide bar (1003) drive activity straight set-square (1007) move to the bottom of fixed straight set-square (103), then fixed straight set-square (103) move down to with the contact of laminating of activity straight set-square (1007), activity straight set-square (1007) play the auxiliary stay effect, and simultaneously, the top of second straight flute (1004) and the bottom contact of fixed straight set-square (103) carry out pressure monitoring to fixed straight set-square (103), auxiliary stay structure (10) carry out the auxiliary stay monitoring.

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