CN218928155U - Autoclaved aerated concrete blank cutting and wire hanging carrier structure and automatic wire hanging installation device thereof - Google Patents

Abstract

The utility model discloses an autoclaved aerated concrete blank cutting and wire hanging carrier structure and an automatic wire hanging and installing device thereof, and belongs to the technical field of autoclaved aerated concrete production. The wire hanging carrier structure comprises an automatic wire hanging installation device and is used for completing the replacement operation of the wire hanging used by the body of the green body cutting machine; the movable conveying device is used for conveying the automatic wire hanging installation device to a wire hanging position to be replaced on the body of the green body cutting machine; the automatic wire hanging installation device comprises a wire hanging guide table, a wire hanging clamping jaw assembly and a wire hanging pushing mechanism; the hanging wire guide table is used for accommodating hanging wires to be replaced; the hanging wire clamping jaw assembly is used for receiving hanging wires pushed out by the hanging wire pushing mechanism, installing the hanging wires on the body of the green body cutting machine and/or taking down the hanging wires on the body of the green body cutting machine; the hanging wire pushing mechanism pushes hanging wires accommodated in the hanging wire guide table into the hanging wire clamping jaw assembly. The automatic wire hanging device can realize automatic replacement of the wire hanging, is simple and quick to operate, and is beneficial to improving the production efficiency.

Description

Autoclaved aerated concrete blank cutting and wire hanging carrier structure and automatic wire hanging installation device thereof

Technical Field

The utility model belongs to the technical field of autoclaved aerated concrete production, relates to a portable technology for cutting upper and lower wire hanging of a blank in the autoclaved aerated concrete production process, and particularly relates to autoclaved aerated concrete blank cutting equipment and a wire hanging method.

Background

At present, in the production process of autoclaved aerated concrete blocks/plates, wet green bodies which are subjected to static gas generation are cut according to the required specification and size, and steel wires are generally adopted for cutting. Since the specification and the size of the block/plate can be changed according to the requirements of customers at any time when the block/plate is actually manufactured, the positions of the steel wires need to be frequently adjusted to meet different requirements. The existing cutting machine generally adopts manual installation and steel wire adjustment, and needs to take a long time, and has long operation period, so that the production efficiency is low.

Technical improvements for replacing cutting steel wires for blank cutting in aerated concrete block production exist in the prior art, such as the following Chinese patent application number: 202020978773.8, a steel wire replacing device of a blank cutter is disclosed. The second electric push rod in the device pushes the sliding block box to move left, and then pushes the support rod to move left until the sliding block slides to the upper end face of the right end of the support plate, at the moment, the support rod moves to the left of the box body, then the broken steel wire is hung on the hook plate, then the broken position of the steel wire cutting blank body is found, the rotating hand wheel drives the first rotating shaft to rotate when rotating, and then the gear is driven to rotate, as the gear is connected with the annular chain, when rotating the gear, the gear drives the annular chain to rotate, the supporting table moves forwards or backwards when rotating, so as to adjust the position of the blank penetrating plate, the triangular tip aims at the broken position of the steel wire cutting blank body, and as part of the broken steel wire is still left in the blank body, at the moment, the control box controls the second electric push rod to move rightwards slowly, so that the hook plate pulls the steel wire rightwards, at first, at the moment, the first electric push rod pushes the blank penetrating plate to move leftwards along the broken steel wire, two ends of the new steel wire are arranged on the blank cutting machine, and finally the steel wire is replaced, thereby facilitating adjustment of the position of the triangular tip aiming at the broken position of the blank body, the broken steel wire is enabled to pass the new steel wire position of the blank body, and the new steel wire is replaced when the broken steel wire is pulled back along the position of the blank body.

The technical scheme solves the problems that in the blank cutting process, the steel wire is broken, the steel wire is pulled out of the blank, the quality of the blank is effectively protected, and the problem that the blank cutting steel wire is convenient and quick to replace according to different production requirements is not solved.

Disclosure of Invention

1. Problems to be solved

The utility model provides an autoclaved aerated concrete blank cutting and wire hanging carrier structure and an automatic wire hanging and installing device thereof, and aims to solve the problems that the operation period is longer and the production efficiency is lower when the blank cutting and wire hanging is manually replaced in the existing autoclaved aerated concrete production.

2. Technical proposal

In order to solve the problems, the technical scheme adopted by the utility model is as follows:

an automatic wire hanging installation device for autoclaved aerated concrete blank cutting comprises a wire hanging guide table, a wire hanging clamping jaw assembly and a wire hanging pushing mechanism; the hanging wire guide table is used for accommodating hanging wires to be replaced; the hanging wire clamping jaw assembly is used for receiving hanging wires pushed out by the hanging wire pushing mechanism, installing the hanging wires on the body of the green body cutting machine and/or taking down the hanging wires on the body of the green body cutting machine; the hanging wire pushing mechanism pushes hanging wires accommodated in the hanging wire guide table into the hanging wire clamping jaw assembly.

Further, the hanging wire guide table is provided with at least one group of hanging wire guide grooves capable of accommodating the end heads of the two ends of the hanging wire, and the end heads of the hanging wire can slide in the hanging wire guide grooves and can slide out from the two ends of the hanging wire guide grooves; two ends of the wire hanging guide groove are respectively corresponding to the wire hanging clamping jaw assembly and the wire hanging pushing mechanism.

Further, the pressed ball plungers are arranged in the wire hanging guide grooves, and the ends of two adjacent wires can be separated.

Further, the hanging wire clamping jaw assembly comprises a clamping claw part which is used for clamping the end head of the hanging wire; the clamping jaw lifting driving piece is used for driving the hanging wire clamping jaw assembly to move up and down.

Further, the jaw portion includes a pneumatic finger and a pair of jaws connected to the pneumatic finger.

Further, the wire hanging pushing mechanism comprises a pushing driving piece, and the pushing driving piece is used for driving the pushing component to move so as to realize wire hanging pushing action; and the pushing component is used for pushing the end head of the hanging wire out of the wire hanging guide groove.

Further, the device also comprises a hanging wire box for placing the removed hanging wires.

The autoclaved aerated concrete blank cutting and wire mounting table structure comprises an automatic wire mounting device, a wire cutting device and a wire feeding device, wherein the automatic wire mounting device is used for completing the replacement operation of wires used by a blank cutting machine body; the movable conveying device is used for conveying the automatic wire hanging installation device to a wire hanging position to be replaced on the body of the green body cutting machine; the automatic wire hanging installation device adopts the automatic wire hanging installation device for cutting autoclaved aerated concrete billets.

Further, the automatic wire hanging installation device also comprises a movable conveying frame and a carrying platform driving piece arranged on the movable conveying frame, and is installed on the movable conveying device through the movable conveying frame; the wire hanging guide table, the wire hanging clamping jaw assembly and the wire hanging pushing mechanism are arranged on a carrier base, and the carrier base is movably arranged on the movable conveying frame; the carrier driving piece can drive the carrier base to move back and forth between the wire hanging positions on the two sides of the body of the green body cutting machine.

Further, the mobile conveying device comprises a mobile track, a mobile motor and a transmission mechanism; the movable motor is arranged on the automatic wire hanging installation device, and the automatic wire hanging installation device can be driven to move on the movable track through the transmission mechanism.

3. Advantageous effects

Compared with the prior art, the utility model has the beneficial effects that:

(1) According to the automatic wire hanging and installing device, the automatic wire hanging and installing device and the movable conveying device are matched with each other, so that automatic wire hanging and installing operation on the body of the green body cutting machine can be completed, the operation is simple, convenient and quick, and the production efficiency is improved. The automatic wire hanging installation device is characterized in that the wire hanging guide table, the wire hanging clamping jaw assembly and the wire hanging pushing mechanism are matched with each other, and a wire hanging installation action is completed through a series of actions of accommodating, pushing and grabbing wires, so that the operation is simple and convenient, and the efficiency is high.

(2) The hanging wire guide table adopts a structure that the hanging wire guide groove is used for accommodating hanging wires, so that a plurality of hanging wires can be stored at one time, and the hanging wires can slide in the hanging wire guide groove, so that the hanging wires are convenient to take out; meanwhile, two adjacent hanging wires are separated by adopting the pressed ball plunger, so that the hanging wires in the hanging wire guide groove can be taken out one by one in sequence, and the structural design is ingenious.

(3) According to the utility model, the carrier base can be driven to move through the carrier driving piece, so that the carrier base moves back and forth between the wire hanging positions on two sides of the body of the green body cutting machine, and the wire hanging is installed on two sides in a crossing manner.

(4) According to the utility model, the hanging wire taken down from the body of the green body cutting machine can be placed into the hanging wire box to be collected, so that the hanging wire can be conveniently and subsequently placed into the hanging wire guide groove of the hanging wire guide table again.

Drawings

FIG. 1 is a schematic view of an autoclaved aerated concrete block cutting apparatus of the present utility model as viewed from one side;

FIG. 2 is a schematic perspective view of an automatic wire hanging installation device according to the present utility model;

FIG. 3 is a perspective view of a portion of a mount table in an automatic wire mounting device;

FIG. 4 is a partial structural view of a portion of a mount portion of the automatic wire mounting device from another perspective;

FIG. 5 is an enlarged view of a portion of FIG. 4A;

FIG. 6 is a perspective view of a wire clamping jaw assembly in a wire mounting stage section;

FIG. 7 is an end view of the threading jaw assembly in the threading carrier section from the side;

FIG. 8 is a perspective view of the wire pushing mechanism in the wire mount section;

fig. 9 is a structural view of the hanging wire.

In the figure: 100. a green body cutter body; 200. a mobile conveying device; 300. an automatic wire hanging installation device; 310. moving the conveying frame; 311. a connecting frame; 312. a carrier; 313. a carrier guide rail; 320. a wire mount portion; 330. a stage driving member; 340. a stage base; 341. a longitudinal beam; 342. a cross beam; 343. a vertical beam; 344. a carrier slider; 350. a wire hanging guide table; 351. an upper cover plate; 352. a lower cover plate; 353. a wire hanging guide groove; 354. a press-in ball plunger; 360. a wire hanging clamping jaw assembly; 361. a clamping jaw seat; 362. a jaw lifting drive; 363. a clamping claw part; 3631. pneumatic fingers; 3632. a clamping jaw; 370. a wire hanging pushing mechanism; 371. pushing the driving piece; 372. a pushing component; 373. a pushing end; 380. a silk hanging box; 400. hanging wires; 410. a steel wire; 420. a tip.

Detailed Description

The utility model is further described below in connection with specific embodiments.

Examples

The existing autoclaved aerated concrete blank cutting equipment is provided with a plurality of hanging wires 400 along the blank cutting direction for cutting the blank, two ends of each hanging wire 400 are hung in tooth-shaped grooves on a hanging wire plate for installation and fixation, the hanging wires 400 are tensioned through a tensioning mechanism, and the tensioning mechanisms are arranged on two sides of the hanging wire plate alternately in general so as to ensure the overall cutting uniformity of the hanging wires 400. The structure of the hanger 400 is shown in fig. 9, and includes a wire 410 and ends 420 at both ends of the wire 410, the ends 420 being generally cylindrical in shape and having a diameter greater than the diameter of the wire 410. The conventional hanging wire 400 is generally installed on a hanging wire plate by adopting manual installation, the operation period is longer, the production efficiency is lower, the utility model performs optimal design on the basis of the conventional equipment structure, and the structure of the automatic installation hanging wire 400 is increased so as to overcome the defect.

As shown in fig. 1, the autoclaved aerated concrete slab cutting apparatus has a conventional slab cutter body 100 therein for performing a cutting operation of a slab to be cut. In addition, an automatic wire hanging installation device 300 is added for completing the replacement operation of the wire hanging 400 used by the body 100 of the green body cutting machine, and a moving and conveying device 200 is used for conveying the automatic wire hanging installation device 300 to the position of the wire hanging 400 to be replaced on the body 100 of the green body cutting machine.

In this embodiment, as shown in fig. 2, the mobile conveying device 200 includes a mobile track, a mobile motor and a rack-and-pinion structure, where the mobile track includes two oppositely arranged racks, which are respectively disposed on the racks at positions corresponding to the filament hanging plates on two sides of the body 100 of the green body cutting machine, and are disposed along the cutting direction of the green body; the mobile motor is arranged on the automatic wire hanging installation device 300, and the automatic wire hanging installation device 300 is slidably arranged on the mobile track through the mobile sliding block; the rack in the gear-rack structure is arranged on the moving track along the sliding direction of the moving track, the gear is connected with the output shaft of the moving motor, and the gear and the rack are meshed for transmission. Through this structure, the moving conveyor 200 can drive the automatic wire-hanging installation device 300 to move along the cutting direction of the blank, and drive the automatic wire-hanging installation device 300 to the position where the wire 400 needs to be installed, so that the automatic wire-hanging installation device 300 completes the wire 400 installation operation at the corresponding position. Of course, the transmission mode of the mobile conveying device 200 is not limited to the gear-rack transmission, and a conventional mode capable of realizing linear motion, such as screw-nut transmission, worm-gear transmission, driving cylinder pushing, and the like, may be adopted.

As shown in fig. 2, the automatic wire mounting device 300 includes a mobile carriage 310, a wire guide table 350, a wire clamping jaw assembly 360, and a wire pushing mechanism 370. Wherein the moving carriage 310 mounts the automatic wire-hanging mounting device 300 to the moving conveyor 200; the hanging wire guide table 350 is used for accommodating hanging wires 400 to be replaced; the wire clamping jaw assembly 360 is used for receiving the wire 400 pushed out by the wire pushing mechanism 370, mounting the wire 400 on the body 100 of the green body cutter, and removing the wire 400 on the body 100 of the green body cutter; the wire pushing mechanism 370 pushes the wire 400 received in the wire guide table 350 into the wire clamping jaw assembly 360.

In this embodiment, the wire guiding platform 350, the wire clamping jaw assembly 360 and the wire pushing mechanism 370 are all disposed on the platform base 340 to form a wire mounting platform part, so as to form a modularized structure. The wire mount part is movably installed on the moving carriage 310, and the moving direction is perpendicular to the moving direction of the moving conveyor 200, that is, along the installation direction of both ends of the wire 400, so that both ends of the wire 400 can be installed, and especially, the alternate wire tensioning operation is satisfied. Specifically, the moving carriage 310 is provided with a stage guide 313, and the stage base 340 is provided with a stage slider 344 matching with the stage guide 313; meanwhile, the stage driving part 330 disposed on the moving carriage 310 can drive the stage base 340 to move back and forth between the wire hanging positions at both sides of the body cutter body 100.

Preferably, the mobile carriage 310 includes a link 311 and a carrier 312. The bearing frame 312 is a rectangular frame structure formed by a steel structure, the connecting frames 311 are two groups, each group comprises two side-by-side vertical upright rods, the lower ends of the upright rods are connected at the corners of the rectangular frame structure of the connecting frames 311, and the upper ends of each group of upright rods are provided with a motor frame, and can be provided with a mobile motor and a mobile sliding block so as to be in sliding connection with the mobile conveying device 200. The stage driving member 330 is an oil cylinder, one end of which is mounted on the carrier 312 in a connecting manner, and the other end of which is connected to the stage base 340.

As shown in fig. 4, the function implementation of the hanging wire guide table 350, the hanging wire clamping jaw assembly 360 and the hanging wire pushing mechanism 370 is well satisfied by considering the carrying platform base 340, and the hanging wire clamping jaw assembly is in a three-dimensional rectangular frame structure. The carrier base 340 includes a longitudinal beam 341, a transverse beam 342, and vertical beams 343, where two longitudinal beams 341 and two transverse beams 342 form a rectangular frame structure, four vertical beams 343 are respectively erected at four corners of the rectangular frame structure, and carrier sliders 344 are installed below the four corners of the rectangular frame structure. The wire guide tables 350 are disposed in groups on two pairs of the beams 343, and each group of wire guide tables 350 supports the two end heads 420 of the wire 400, respectively.

As shown in fig. 4 and 5, the wire guide table 350 has at least one set of wire guide grooves 353 for accommodating the ends 420 of the wires 400, and it can be seen from the figure that the longitudinal section of the wire guide groove 353 is a U-shaped groove that is open toward the inner side of the table base 340. And the upper and lower sides of the opening of the wire hanging guide groove 353 are provided with limit stop bars, so that the opening width is larger than the diameter of the steel wire 410 and smaller than the diameter of the end head 420, and the end head 420 can be prevented from being pulled out of the opening of the wire hanging guide groove 353. The end 420 of the wire 400 is slidable in the wire guide 353 and is slidable out of the wire guide 353 at both longitudinal ends thereof, and the two ends of the wire guide 353 correspond to the wire clamping jaw assembly 360 and the wire pushing mechanism 370, respectively, to complete the pushing and grasping of the wire 400 from the wire guide 353.

A push-in ball plunger 354 is mounted in the wire guide channel 353, separating the ends 420 of adjacent wires 400. Under the action of the pushing force, the end 420 of the hanging wire 400 has downward pressure on the pressed-in ball plunger 354, and overcomes the blocking action to move in the hanging wire guide groove 353, so that the hanging wires 400 in the hanging wire guide groove 353 can be ensured to be taken out one by one in sequence, and the structural design is ingenious. In this embodiment, the hanging wire guiding platform 350 is formed by combining an upper cover plate 351 and a lower cover plate 352 and is fixedly connected by bolts; the upper cover plate 351 and the lower cover plate 352 are respectively provided with corresponding half grooves, and are combined to form a wire hanging guide groove 353, so that the wire hanging guide table 350 is convenient to process and the press-in ball plunger 354 is convenient to assemble and disassemble. The filament guiding station 350 may be a single layer or may be stacked in multiple layers, so that multiple layers of filament 400 may be stored, increasing the amount of storage. A wire box 380 is provided above the wire guide table 350 on the stage base 340 for placing the wire 400 removed from the apparatus. The hanging wire 400 removed from the body cutter body 100 may be placed into the wire box 380 for collection, facilitating subsequent reloading into the wire guide channel 353 of the wire guide table 350.

As shown in connection with fig. 3, 6 and 7, the hanging wire jaw assembly 360 includes a jaw seat 361, a jaw portion 363, and a jaw lift drive 362. Wherein the jaw seat 361 serves as a support member for connecting the jaw portion 363 and the jaw elevation driving member 362, which may be a cross member; a clamping claw 363 for clamping the end 420 of the hanging wire 400; the jaw lift drive 362 is used to drive the wire-hanging jaw assembly 360 in a lifting motion. In this embodiment, two clamping claw portions 363 are respectively installed at two ends of the clamping jaw seat 361, and correspond to one end of the wire guiding groove 353 on each group of wire guiding tables 350. Each jaw portion 363 includes a pneumatic finger 3631 and a pair of jaws 3632 connected to the pneumatic finger 3631. Pneumatic finger 3631 action may drive jaws 3632 open and close to grip or release hanging wire 400. The clamping jaw 3632 clamps the wire 410 near the edge of the tip 420 to facilitate mounting of the wire 400 to the hanger plate when the wire 400 is clamped.

As shown in connection with fig. 3 and 8, the wire pushing mechanism 370 includes a pushing drive 371 and a pushing member 372.

Wherein, the pushing driving piece 371 is used for driving the pushing component 372 to move so as to realize the pushing action of the hanging wire 400; the pushing component 372 is used for pushing the end 420 of the hanging wire 400 out of the hanging wire guide groove 353, and two ends of the pushing component are provided with pushing ends 373 which can be inserted into the hanging wire guide groove 353 of the hanging wire guide table 350 to push the end 420 of the hanging wire 400. The pushing driving piece 371 can adopt an air cylinder, an oil cylinder or an electric push rod. If the hanging wire guiding platform 350 has multiple layers, the hanging wire 400 is stored in multiple layers, and the hanging wire pushing mechanism 370 further comprises a layer adjusting driving member for driving the pushing member 372 to move up and down to adjust the height, so as to meet the requirements of the hanging wire guiding platforms 350 with different layer heights for pushing the hanging wire 400.

Therefore, the autoclaved aerated concrete blank cutting device of the embodiment can complete the automatic installation of the hanging wire 400 on the blank cutting machine body 100 through the mutual matching of the automatic hanging wire installation device 300 and the movable conveying device 200, is simple and convenient to operate, and is beneficial to improving the production efficiency. The wire hanging guide table 350, the wire hanging clamping jaw assembly 360 and the wire hanging pushing mechanism 370 in the automatic wire hanging installation device 300 are mutually matched, and a series of actions of accommodating, pushing and grabbing the wire hanging 400 are completed to install the wire hanging 400, so that the operation is simple and convenient, and the efficiency is high.

When the autoclaved aerated concrete blank cutting equipment is used for installing and hanging wires, the specific operation method comprises the following steps of:

1. preparation for hanging silk

The moving and conveying device 200 acts to drive the automatic wire hanging and installing device 300 to move to the position where the wire hanging and installing device 400 needs to be installed on the body 100 of the green body cutting machine.

In the wire hanging operation, the stage driving part 330 drives the stage base 340 to move to one side of the green body cutter body 100 where the wire is required to be hung, so as to realize cross wire hanging.

2. Hanging wire installation

The automatic wire hanging installation device 300 performs a wire hanging operation as follows: first, the wire pushing mechanism 370 pushes one wire 400 stored in the wire guide groove 353 of the wire guide table 350 outward; the hanging wire 400 is then pushed into the hanging wire jaw assembly 360 and clamped; then, the hanging wire clamping jaw assembly 360 drives the hanging wire 400 to move, and the hanging wire 400 is sent to and clamped into the mounting position of the hanging wire 400 on the body 100 of the green body cutting machine; finally, the hanging wire clamping jaw assembly 360 loosens the hanging wire 400, completing the hanging wire operation.

The wire pushing mechanism 370 pushes the wire 400 to operate as: the pushing driving piece 371 drives the pushing component 372 to move, and pushing ends 373 at two ends of the pushing component 372 respectively push the ends 420 at two ends of the wire 400 in the wire hanging guide grooves 353; the end 420 of the wire 400 presses against the press-in ball plunger 354 to move the entire wire 400 within the wire guide slot 353 toward the wire clamping jaw assembly 360 to a wire-hanging position, and a wire 400 closest to the wire clamping jaw assembly 360 is pushed out of the wire guide slot 353.

The wire 400 pushed out of the wire guide slot 353 falls into the jaw portion 363 of the wire jaw assembly 360; the jaw elevation drive 362 drives the jaw portions 363 up and down, feeding the wire 400 into the mounted position on the cutter body 100.

The method for installing and hanging the wires by the autoclaved aerated concrete blank cutting equipment can realize automatic replacement of the wires, is simple and quick to operate, and is beneficial to improving production efficiency.

The utility model and its embodiments have been described above by way of illustration and not limitation, and the utility model is illustrated in the accompanying drawings and described in the drawings in which the actual structure is not limited thereto. Therefore, if one of ordinary skill in the art is informed by this disclosure, the structural mode and the embodiments similar to the technical scheme are not creatively designed without departing from the gist of the present utility model.

Claims (10)

1. An automatic wire hanging installation device is characterized by comprising a wire hanging guide table (350), a wire hanging clamping jaw assembly (360) and a wire hanging pushing mechanism (370); the hanging wire guide table (350) is used for accommodating hanging wires (400) to be replaced; the hanging wire clamping jaw assembly (360) is used for receiving hanging wires (400) pushed out by the hanging wire pushing mechanism (370) and installing the hanging wires (400) on the body (100) of the green body cutting machine and/or removing the hanging wires (400) on the body (100) of the green body cutting machine; the wire pushing mechanism (370) pushes the wire (400) accommodated in the wire guide table (350) into the wire clamping jaw assembly (360).

2. The automatic wire-hanging installation device according to claim 1, wherein: the wire hanging guide table (350) is provided with at least one group of wire hanging guide grooves (353) capable of accommodating the end heads (420) at the two ends of the wire hanging (400), and the end heads (420) of the wire hanging (400) can slide in the wire hanging guide grooves (353) and can slide out from the two ends of the wire hanging guide grooves (353); two ends of the wire hanging guide groove (353) respectively correspond to the wire hanging clamping jaw assembly (360) and the wire hanging pushing mechanism (370).

3. The automatic wire-hanging installation device according to claim 2, wherein: the thread guide groove (353) is internally provided with a pressed-in ball plunger (354) which can separate the ends (420) of two adjacent threads (400).

4. The automatic wire-hanging installation device according to claim 2, wherein: the wire clamping jaw assembly (360) comprises a clamping claw part (363) for clamping the end head (420) of the wire (400); the clamping jaw lifting driving piece (362) is used for driving the hanging wire clamping jaw assembly (360) to move up and down.

5. The automatic wire-hanging installation device of claim 4, wherein: the jaw portion (363) includes a pneumatic finger (3631) and a pair of jaws (3632) connected to the pneumatic finger (3631).

6. An automatic wire-hanging installation device as claimed in claim 3, wherein: the wire hanging pushing mechanism (370) comprises a pushing driving piece (371) for driving the pushing component (372) to move so as to realize the pushing action of the wire hanging (400); and the pushing component (372) is used for pushing the end head (420) of the hanging wire (400) out of the wire hanging guide groove (353).

7. The automatic wire hanging installation apparatus as claimed in any one of claims 1-6, wherein: a hanging wire box (380) for placing the removed hanging wire (400) is also included.

8. An autoclaved aerated concrete blank cutting and wire mounting table structure is characterized in that: comprises an automatic wire hanging installation device (300) for completing the replacement operation of a wire hanging (400) used by the body (100) of the green body cutting machine; the mobile conveying device (200) is used for conveying the automatic wire hanging installation device (300) to the position of a wire hanging (400) to be replaced on the body (100) of the green body cutting machine; the automatic wire hanging installation device (300) adopts the automatic wire hanging installation device as claimed in any one of claims 1 to 7.

9. The autoclaved aerated concrete block cutting wire mount structure of claim 8, wherein: the automatic wire hanging installation device (300) further comprises a movable conveying frame (310) and a carrier driving piece (330) arranged on the movable conveying frame (310), and the automatic wire hanging installation device (300) is installed on the movable conveying device (200) through the movable conveying frame (310); the wire hanging guide table (350), the wire hanging clamping jaw assembly (360) and the wire hanging pushing mechanism (370) are arranged on the carrier base (340), and the carrier base (340) is movably arranged on the movable conveying frame (310); the carrier driving piece (330) can drive the carrier base (340) to move back and forth between the wire hanging positions on two sides of the body (100) of the green body cutting machine.

10. The autoclaved aerated concrete block cutting wire mount structure of claim 8, wherein: the mobile conveying device (200) comprises a mobile track, a mobile motor and a transmission mechanism; the movable motor is arranged on the automatic wire hanging installation device (300), and the automatic wire hanging installation device (300) can be driven to move on the movable track through the transmission mechanism.

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