CN220063672U - Single-cable curtain wall cable force simulation device - Google Patents

Abstract

The utility model discloses a cable force simulation device of a single cable curtain wall, which comprises: the equipment installation table is provided with a curtain wall cable force stretching simulation detection structure; the curtain wall cable force stretching simulation detection structure comprises: the utility model relates to the technical field of simulation equipment, and discloses a device outer frame, two pairs of curtain wall fixing assemblies, a glass curtain wall body, a pair of installation racks, a pair of infrared positioning distance measuring devices and a thrust simulation assembly, which has the following beneficial effects: the problem of current curtain check out test set only can bear pressure to glass curtain wall body and detect, can't carry out cable force to the connection cable wire in the structure and detect, the security when can't guarantee the cable wire connection is fixed is solved.

Description

Single-cable curtain wall cable force simulation device

Technical Field

The utility model relates to the technical field of simulation equipment, in particular to a cable force simulation device of a single cable curtain wall.

Background

The single-rope curtain wall is an extremely light transparent structure and only consists of steel ropes, glass clamps and glass, wherein the steel ropes are pre-tensioned and fixed in the main body structure through tensioning in order to resist wind load and dead weight, and the steel ropes are fixed on upright posts of the main body structure in the horizontal direction to support the wind load; the cable wire is fixed on the crossbeam of major structure in the vertical direction, for supporting vertical load, glass curtain wall can stretch the cable wire owing to blow in the hand after the installation, causes the cable internal stress of connecting the cable wire to change, in order to guarantee the security of glass curtain wall after the installation, need test cable internal stress value, the utility model of current publication number CN213714944U discloses a glass curtain wall location atress detection device, including base, support and movable rod, the safety cover is installed to the upper surface embedding of base, and the upper surface of base is fixed with backup pad and air pump to the air pump is located the right side of backup pad, backup pad and air pump all are located the inboard of safety cover, and the spout has been seted up to the inboard of backup pad, and the internal surface of spout is connected with the surface of slide rail. This glass curtain wall location atress detection device descends the clamp plate to glass curtain wall's surface through the cylinder, then stops the cylinder, the numerical value of record manometer, manometer numerical value is air pump to cylinder conveying gas pressure, then continue to start the cylinder, the clamp plate lasts to glass curtain wall surface atress, numerical value before the glass curtain wall surface takes place the cracked is recorded to the clamp plate, thereby follow the pressure that glass curtain wall who waits to this position can bear with subtracting two time numerical values from each other, only can bear the pressure to glass curtain wall body through mechanical structure and detect, but in glass curtain wall installs the in-process of using, the security of connecting the cable wire rope is also important especially, the cable stress of connecting the cable rope and bearing force are related to the stability of curtain wall overall structure.

Disclosure of Invention

In order to achieve the above purpose, the utility model is realized by the following technical scheme: a single cable curtain wall cable force simulation device, comprising: the equipment installation table is provided with a curtain wall cable force stretching simulation detection structure;

the curtain wall cable force stretching simulation detection structure comprises: the device comprises an equipment outer frame, two pairs of curtain wall fixing assemblies, a glass curtain wall body, a pair of mounting frames, a pair of infrared positioning distance measuring devices and a thrust simulation assembly;

the equipment frame is installed on the equipment mount table, and two pairs of curtain wall fixed subassembly are installed on equipment frame inside wall face, and the glass curtain wall body is installed on two pairs of curtain wall fixed subassembly, and a pair of mounting bracket is installed in equipment frame inside wall face both sides position, and a pair of infrared location range finder is installed on a pair of mounting bracket, and thrust simulation subassembly is installed on the equipment mount table.

Preferably, the reinforcing rib plate is arranged on the outer frame of the equipment.

Preferably, the pair of mounting frames are mounted on the outer frame of the apparatus by fixing bolts.

Preferably, one of the two pairs of curtain wall fixing assemblies comprises: the device comprises a fixed block, a connecting rod, a turnbuckle, a tension detector, a connecting steel cable and a connecting block;

the fixed block is installed on equipment frame internal face, and connecting rod one end movable mounting is on the fixed block, and the turnbuckle is installed on the connecting rod, and the pulling force detector is installed on the turnbuckle, and connection cable wire one end is installed at the pulling force detector detection end, and the connecting block is fixed on the glass curtain wall body, and the connection cable wire other end is installed on the connecting block.

Preferably, a locking rod is mounted on the connecting block.

Preferably, the thrust simulation assembly comprises: a pair of support frames, a hydraulic push rod, a moving plate and two pairs of push rods;

the hydraulic push rods are arranged on the pair of support frames, the movable plate is arranged at the output end of the hydraulic push rods, and the two pairs of push rods are arranged on the other side wall surface of the movable plate.

Advantageous effects

The utility model provides a single cable curtain wall cable force simulation device which has the beneficial effects that a curtain wall cable force stretching simulation detection structure is used, a glass curtain wall is fixed through a cable rope stretching structure, glass wind blowing is simulated to enable the glass curtain wall to be stressed, the simulation detection is carried out by matching with the detection structure, and the stress detection of the glass curtain wall and a connecting cable rope is carried out through simulation equipment, so that the problem that the existing curtain wall detection equipment only can detect the bearing pressure of a glass curtain wall body, can not detect the cable force of the connecting cable rope in the structure, and can not guarantee the safety of the connecting and fixing of the cable rope is solved.

Drawings

Fig. 1 is a schematic side view of a cable force simulator of a single cable curtain wall according to the present utility model.

Fig. 2 is a schematic diagram of a front view structure of a cable force simulator for a single cable curtain wall according to the present utility model.

Fig. 3 is an enlarged schematic view of a fixing bolt of the cable force simulation device of the single cable curtain wall.

Fig. 4 is an enlarged schematic view of a fixing block of the cable force simulation device of the single cable curtain wall.

In the figure: 1-an equipment installation table; 2-an equipment outer frame; 3-glass curtain wall body; 4-mounting frames; 5-infrared positioning distance measuring device; 6-reinforcing rib plates; 7-fixing bolts; 8-fixing blocks; 9-connecting rods; 10-turn round screws; 11-a tension detector; 12-connecting a steel rope; 13-connecting blocks; 14-a locking lever; 15-supporting frames; 16-a hydraulic push rod; 17-a moving plate; 18-push rod.

Detailed Description

All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Examples: referring to fig. 1-4, the main components of the present case are: the equipment installation table 1 is provided with a curtain wall cable force stretching simulation detection structure;

the curtain wall cable force stretching simulation detection structure comprises: the device comprises an equipment outer frame 2, two pairs of curtain wall fixing components, a glass curtain wall body 3, a pair of mounting frames 4, a pair of infrared positioning distance measuring devices 5 and a thrust simulation component;

the equipment frame 2 is installed on equipment mount table 1, and two pairs of curtain wall fixed subassembly are installed on equipment frame 2 inside wall face, and glass curtain wall body 3 is installed on two pairs of curtain wall fixed subassembly, and a pair of mounting bracket 4 is installed in equipment frame 2 inside wall face both sides position, and a pair of infrared location range finder 5 is installed on a pair of mounting bracket 4, and thrust simulation subassembly is installed on equipment mount table 1.

It should be noted that, when using the tensile simulation detection structure of curtain wall cable force, install the equipment frame 2 of installing on equipment mount table 1 with glass curtain wall body 3 through two pairs of curtain wall fixed subassembly, thereby install the thrust simulation subassembly simulation wind on equipment mount table 1 simultaneously and blow and make glass curtain wall body 3 hand in and detect cable force, simultaneously carry out the accurate measurement to glass curtain wall body 3's removal distance through the infrared location range finder 5 of mounting bracket 4 on equipment frame 2 to realize glass curtain wall's simulation experiment.

In the specific implementation process, further, the reinforcing rib plate 6 is installed on the outer frame 2 of the equipment.

In the specific implementation, further, a pair of mounting frames 4 are mounted on the outer frame 2 of the device through fixing bolts 7.

In an implementation process, further, one of the two pairs of curtain wall fixing components includes: the device comprises a fixed block 8, a connecting rod 9, a turnbuckle 10, a tension detector 11, a connecting steel rope 12 and a connecting block 13;

the fixed block 8 is installed on the inner wall surface of the equipment outer frame 2, one end of the connecting rod 9 is movably installed on the fixed block 8, the turnbuckle 10 is installed on the connecting rod 9, the tension detector 11 is installed on the turnbuckle 10, one end of the connecting steel cable 12 is installed at the detection end of the tension detector 11, the connecting block 13 is fixed on the glass curtain wall body 3, and the other end of the connecting steel cable 12 is installed on the connecting block 13.

When the curtain wall fixing assembly is used, the connecting blocks 13 are fixed at four corners of the glass curtain wall body 3 through the locking rods 14, the turnbuckle screws 10 installed on the fixing blocks 8 through the connecting rods 9 are adjusted to enable the connecting steel ropes 12 to be tensioned and fixed on the glass curtain wall body 3, installation of the curtain wall is simulated, and real-time tension of the connecting steel ropes 12 is detected through the tension detectors 11 while the curtain wall is tensioned and fixed.

In the specific implementation process, further, a locking rod 14 is installed on the connecting block 13.

In an implementation process, the thrust simulation assembly further includes: a pair of support frames 15, a hydraulic push rod 16, a moving plate 17, and two pairs of push rods 18;

a pair of support frames 15 are mounted on the upper wall surface of the equipment mounting table 1, a hydraulic push rod 16 is mounted on the pair of support frames 15, a moving plate 17 is mounted on the output end of the hydraulic push rod 16, and two pairs of push rods 18 are mounted on the other side wall surface of the moving plate 17.

When the thrust simulation assembly is used, the hydraulic push rod 16 installed on the equipment installation table 1 through the supporting frame 15 starts the output end to extend, the hydraulic push rod 16 drives the moving plate 17 installed on the hydraulic push rod 16 to move, and the moving plate 17 drives the push rod 18 installed on the hydraulic push rod to move and prop against the glass curtain wall body 3 and push the glass curtain wall body, so that the condition of simulating the wind blowing stress of the glass curtain wall body 3 is realized.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. A single cable curtain wall cable force simulation device, comprising: the equipment mounting table (1) is characterized in that a curtain wall cable force stretching simulation detection structure is mounted on the equipment mounting table (1);

the curtain wall cable force stretching simulation detection structure comprises: the device comprises an equipment outer frame (2), two pairs of curtain wall fixing assemblies, a glass curtain wall body (3), a pair of mounting frames (4), a pair of infrared positioning distance measuring devices (5) and a thrust simulation assembly;

the equipment frame (2) is installed on equipment mount table (1), and two pairs of curtain wall fixed subassembly are installed on equipment frame (2) inside wall face, and glass curtain wall body (3) are installed on two pairs of curtain wall fixed subassembly, and a pair of mounting bracket (4) are installed in equipment frame (2) inside wall face both sides position, and a pair of infrared location range finder (5) are installed on a pair of mounting bracket (4), and thrust simulation subassembly is installed on equipment mount table (1).

2. A single-cable curtain wall cable force simulation device according to claim 1, characterized in that the equipment outer frame (2) is provided with reinforcing rib plates (6).

3. A single cable curtain wall cable force simulation device according to claim 1, characterized in that a pair of mounting brackets (4) are mounted on the equipment outer frame (2) by means of fixing bolts (7).

4. The cable force simulator of claim 1, wherein one of the two pairs of curtain wall securing assemblies comprises: the device comprises a fixed block (8), a connecting rod (9), a turnbuckle (10), a tension detector (11), a connecting steel cable (12) and a connecting block (13);

fixed block (8) are installed on equipment frame (2) internal face, and connecting rod (9) one end movable mounting is on fixed block (8), and turnbuckle (10) are installed on connecting rod (9), and tensile force detector (11) are installed on turnbuckle (10), and connection cable (12) one end is installed at tensile force detector (11) detection end, and connecting block (13) are fixed on glass curtain wall body (3), and connection cable (12) other end is installed on connecting block (13).

5. A single-cable curtain wall cable force simulation device according to claim 4, characterized in that the connecting block (13) is provided with a locking rod (14).

6. The cable force simulator of claim 1, wherein the thrust simulation assembly comprises: a pair of support frames (15), a hydraulic push rod (16), a moving plate (17) and two pairs of push rods (18);

a pair of support frames (15) are arranged on the upper wall surface of the equipment installation table (1), a hydraulic push rod (16) is arranged on the pair of support frames (15), a moving plate (17) is arranged on the output end of the hydraulic push rod (16), and two pairs of push rods (18) are arranged on the other side wall surface of the moving plate (17).