CN114941420A

CN114941420A - Operation auxiliary system of gypsum board suspended ceiling and use method thereof

Info

Publication number: CN114941420A
Application number: CN202210690187.7A
Authority: CN
Inventors: 余梦山; 王风臣; 罗思峰; 陈宇航; 刘侠飞; 路玉金; 李浩远
Original assignee: First Construction Co Ltd of China Construction Eighth Engineering Division Co Ltd
Current assignee: First Construction Co Ltd of China Construction Eighth Engineering Division Co Ltd
Priority date: 2022-06-17
Filing date: 2022-06-17
Publication date: 2022-08-26
Anticipated expiration: 2042-06-17
Also published as: CN114941420B

Abstract

The invention provides an operation auxiliary system of a gypsum board suspended ceiling and a using method thereof, and the operation auxiliary system comprises a gypsum board supporting mechanism and a supporting leg mechanism, wherein the gypsum board supporting mechanism comprises a plurality of cross beam fixing rods, the cross beam fixing rods are fixedly connected through longitudinal beam fixing rods, a plurality of vacuum gas collecting assemblies are arranged at the tops of the cross beam fixing rods, the vacuum gas collecting assemblies are connected with the cross beam fixing rods in a sliding mode through sliding rails of the cross beam fixing rods, each vacuum gas collecting assembly is provided with a vacuum sucker, the bottom end of the gypsum board supporting mechanism is connected with the supporting leg mechanism through a connecting rod, the supporting leg mechanism comprises a handheld supporting rod, a negative pressure vacuum machine is fixedly arranged on the rod body of the handheld supporting rod, and the top end of the handheld supporting rod is connected with the connecting rod. The invention has the beneficial effects that: reasonable in design, simple structure, safe and reliable from the area adsorption power, need not mechanical fastening, equipment occupation space is little, scalable dismantlement, convenient to carry.

Description

Operation auxiliary system of plasterboard suspended ceiling and using method thereof

Technical Field

The invention relates to the technical field of building construction equipment, in particular to an operation auxiliary system of a gypsum board suspended ceiling and a using method thereof.

Background

At present, in the operation is decorated to the gypsum board furred ceiling, the job site adopts two people to assist each other more, and wherein one person supports the stability that the gypsum board keeps the gypsum board, and another person nails self tapping screw fast on the gypsum board, plays the effect that simply fixed gypsum board does not drop, beats full self-tapping at last on the gypsum board, finishes the fixed work of gypsum board. However, the method needs to be operated by multiple persons, wastes time and labor, seriously influences the construction efficiency and has larger potential safety hazard.

How to solve the above technical problems is the subject of the present invention.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides the operation auxiliary system of the gypsum board suspended ceiling and the use method thereof, wherein the operation auxiliary system is reasonable in design, simple in structure, safe and reliable, and capable of improving the production efficiency, liberating the manpower and improving the personnel safety on a narrow construction platform.

The technical scheme adopted by the invention for solving the technical problem is as follows: the invention provides an operation auxiliary system of a gypsum board suspended ceiling, which comprises a gypsum board supporting mechanism (1) and a supporting leg mechanism (2), wherein the gypsum board supporting mechanism comprises a plurality of cross beam fixing rods, the cross beam fixing rods are all arranged in parallel and are fixedly connected through longitudinal beam fixing rods, and the longitudinal beam fixing rods are positioned in the middle of the cross beam fixing rods and are vertical to the cross beam fixing rods;

the top of the cross beam fixing rod is provided with a plurality of vacuum gas collecting assemblies, the vacuum gas collecting assemblies are connected with the cross beam fixing rod in a sliding mode through slide rails of the cross beam fixing rod, and each vacuum gas collecting assembly is provided with a vacuum sucker;

the gypsum board supporting mechanism is provided with an air pipe and a negative pressure vacuum connecting port;

the bottom end of the gypsum board supporting mechanism is connected with the supporting leg mechanism through a connecting rod, the supporting leg mechanism comprises a handheld supporting rod, a negative pressure vacuum machine is fixedly arranged on a rod body of the handheld supporting rod, the negative pressure vacuum machine is provided with a battery pack, and the top end of the handheld supporting rod is connected with the connecting rod;

the negative pressure vacuum machine is connected with a rubber pipe, and the rubber pipe is connected with the negative pressure vacuum connecting port;

the gypsum board supporting mechanism and the supporting leg mechanism are made of aluminum alloy materials.

The beam fixing rod is a hollow rod body, the insides of two ends of the beam fixing rod are connected with beam telescopic rods in a sliding mode, and damping pieces are arranged between the beam telescopic rods and the beam fixing rod;

the longitudinal beam fixing rod is also a hollow rod body, one end of the longitudinal beam fixing rod is provided with an opening, a longitudinal beam telescopic rod is connected to the inside of the longitudinal beam telescopic rod in a sliding mode, the longitudinal beam telescopic rod is provided with a plurality of damping pieces, each longitudinal beam telescopic rod is fixedly connected with one transverse beam fixing rod, the outer diameter of the longitudinal beam telescopic rod, which is closest to the longitudinal beam fixing rod, is matched with and connected with the inner diameter of the longitudinal beam fixing rod in a sliding mode, a damping piece is arranged between the longitudinal beam telescopic rod and the outer diameter of the longitudinal beam telescopic rod, which is closest to the longitudinal beam fixing rod, is matched with and connected with the inner diameter of the longitudinal beam telescopic rod in a sliding mode, and by analogy, each two damping pieces are connected between the longitudinal beam telescopic rods.

The top surface of the cross beam fixing rod is provided with a slide rail parallel to the rod body direction of the cross beam fixing rod, the slide rail is in sliding connection with the vacuum gas collection assembly, and the vacuum gas collection assembly is characterized by being a square gas collection box and closely attached to a slide rail groove.

The vacuum chuck is a soft hollow adsorption disk, has viscosity, can be replaced at any time, and has a horizontal height 5mm higher than the top surface of the beam fixing rod;

the negative pressure vacuum connecting port is a main air pipe connecting port and is fixedly connected to the bottom of the longitudinal beam fixing rod and fixed through straight threads.

An air pipe guide rail parallel to the sliding rail is arranged on the cross beam fixing rod, the air pipe guide rail is a hinge strip made of plastic, and the air pipe is positioned in the air pipe guide rail;

the telescopic pipe body is a steel telescopic pipe body, and the telescopic pipe body adopts a steel telescopic pipe and extends and retracts along with the extension and retraction of the longitudinal beam telescopic rod.

The top surface of the beam fixing rod positioned at the end part is provided with a blocking column, and the blocking column and the top surface of the beam fixing rod are vertically arranged and are uniformly provided with a plurality of blocks.

The handheld support rod is a hollow rod body, the outer wall of the handheld support rod is wrapped by anti-skidding soft rubber, the bottom end of the handheld support rod is connected with a telescopic support rod in a sliding mode, a clamp is arranged on the rod body at the joint of the handheld support rod and the telescopic support rod, the telescopic support rod can move freely through the elastic clamp, and the telescopic support rod is suitable for different ceiling heights;

the bottom end of the telescopic supporting rod is connected with an assembling supporting rod through threads, the length of the assembling supporting rod is 90cm, the assembling supporting rod is provided with a plurality of sections, every two adjacent sections of the assembling supporting rod are in threaded connection, a supporting rod foot pad is arranged at the bottom end of the assembling supporting rod, and the supporting rod foot pad is made of hard rubber and used for protecting a threaded opening at the bottom of the assembling supporting rod;

the top end of the handheld support rod is connected with the connecting rod through a U-shaped connecting piece, and a pin bolt is arranged at the joint between the U-shaped connecting piece and the connecting rod.

A method of using an operation assistance system for a plasterboard ceiling comprising the steps of:

the method comprises the following steps: the manufactured gypsum board is leaned against the wall edge or other supported places, so that the top surface of the gypsum board supporting mechanism and the gypsum board are parallel to each other, the blocking column is immediately inserted into the lowest part of the gypsum board, and the gypsum board plays a role in supporting the gypsum board when being lifted upwards;

step two: opening the negative pressure vacuum machine, contacting the vacuum sucker with the gypsum board, and finishing the adsorption action to enable the gypsum board to be tightly attached to the gypsum board supporting mechanism;

step three: the gypsum board is lifted manually for installation;

step four: after the gypsum board is in place, the length of the supporting leg mechanism is adjusted by adjusting the telescopic supporting rods, so that the requirement of supporting the gypsum board is met;

step five: fastening a clamp, locking the height of the support leg mechanism, and drilling self-tapping screws on the gypsum board by an operator to be fixedly connected with the keel;

step six: and (4) taking off the gypsum board supporting mechanism after the large-area fixing is completed, completing the residual self-tapping screws, and completing the gypsum board installation.

The gypsum board supporting mechanism is longitudinally unfolded to be 1.2m, wherein every two longitudinal beams between the cross beam fixing rods are 30cm long, the transverse unfolded length is 2.4m, the length of each cross beam fixing rod is 1.2m, and the extension length of each side cross beam telescopic rod is 60 cm.

Unfolding corresponding longitudinal and transverse beams according to the size of the gypsum board, wherein the size of the gypsum board is 1m x 0.6m, adjusting telescopic rods of longitudinal and transverse beams of a gypsum board supporting mechanism is not needed according to the size of the gypsum board, the positions of the vacuum gas collecting assemblies are adjusted only to be uniformly distributed on transverse beam fixing rods, and the supporting leg mechanisms are integrally arranged on a connecting rod below a fourth transverse beam fixing rod;

for example, the size of the gypsum board is 2.4m by 1.2m, the longitudinal and transverse beam telescopic rods of the gypsum board supporting mechanism are required to be adjusted according to the size of the gypsum board, the longitudinal and transverse beam telescopic rods are all extended out to be used as the support of the gypsum board, the position of the vacuum gas collecting assembly is adjusted according to the requirement to be uniformly distributed on the gypsum board supporting mechanism, and the supporting leg mechanism is integrally arranged on a connecting rod below a third transverse beam fixing rod;

if the gypsum board size is between above size, carry out the position of suitable regulation vertical and horizontal roof beam telescopic link and vacuum gas collection subassembly according to the demand, rationally select the position of connecting rod.

The supporting leg mechanisms are assembled according to the height of the suspended ceiling, the length of each assembled supporting rod is 90cm, and the total length of the handheld supporting rod and the telescopic supporting rod is 1 m;

if a floor height needs to carry out the gypsum furred ceiling and decorate for 4 meters's room, only need install the three section and assemble the bracing piece in the use, remaining height carries out altitude mixture control through holding the bracing piece and flexible bracing piece, assembles gypsum board supporting mechanism and landing leg mechanism through the round pin key bolt at last to refute the mouth with rubber tube and negative pressure vacuum and be connected, accomplish appurtenance's regulation installation.

The invention has the beneficial effects that: reasonable in design, gypsum board supporting mechanism's crossbeam and longeron all can stretch out and draw back, are adapted to not unidimensional gypsum board installation, and this equipment structure is simple, and occupation space is little, convenient to carry, and this device is from taking equipment to adsorb power, need not mechanical fastening, and convenient to use can one-man operation, and labour saving and time saving has effectively improved production efficiency, liberates the manpower, has improved personnel's safety on narrow and small construction platform.

Drawings

Fig. 1 is a schematic perspective view of a gypsum board supporting mechanism according to the present invention.

Fig. 2 is a schematic three-dimensional structure installation diagram of the leg mechanism of the present invention.

Fig. 3 is a schematic view of the gas tube arrangement of the present invention.

Wherein the reference numerals are: 1. a gypsum board support mechanism; 101. a connecting rod; 2. a leg mechanism; 201. holding the support rod by hand; 202. a negative pressure vacuum machine; 203. a rubber tube; 204. a telescopic support rod; 205. clamping a hoop; 206. a U-shaped connecting piece; 207. a pin bolt; 208. assembling the supporting rods; 209. the support rod is used for supporting the foot; 3. a beam fixing rod; 301. a slide rail; 302. a beam telescopic rod; 4. a longitudinal beam fixing rod; 401. a longitudinal beam telescopic rod; 5. a vacuum gas collection assembly; 501. a vacuum chuck; 502. a negative pressure vacuum port; 6. an air tube; 601. an air pipe guide rail; 7. blocking the post.

Detailed Description

Technical features of the present solution can be clearly explained, and the present solution is explained by the following detailed description.

Referring to fig. 1 to 3, the present embodiment is an operation assisting system for a gypsum board suspended ceiling, including a gypsum board supporting mechanism 1 and a leg mechanism 2, where the gypsum board supporting mechanism 1 and the leg mechanism 2 are made of aluminum alloy.

The gypsum board supporting mechanism 1 comprises a plurality of beam fixing rods 3, the beam fixing rods 3 are all arranged in parallel and fixedly connected through longitudinal beam fixing rods 4, the longitudinal beam fixing rods 4 are positioned in the middle of the beam fixing rods 3 and are perpendicular to the beam fixing rods 3, the beam fixing rods 3 are hollow rods, the beam telescopic rods 302 are connected to the inner portions of two ends in a sliding mode, a damping piece is arranged between the beam telescopic rods 302 and the beam fixing rods 3, the longitudinal beam fixing rods 4 are also hollow rods, one ends of the longitudinal beam fixing rods are provided with openings and are connected with longitudinal beam telescopic rods 401 in a sliding mode, the longitudinal beam telescopic rods 401 are provided with a plurality of longitudinal beam telescopic rods 401, each longitudinal beam telescopic rod 401 is fixedly connected with one beam fixing rod 3, the outer diameter of the longitudinal beam telescopic rod 401 closest to the longitudinal beam fixing rod 4 is matched and connected with the inner diameter of the longitudinal beam fixing rod 4 in a sliding mode, a damping piece is arranged between the outer diameter of the longitudinal beam telescopic rod 401 closest to the longitudinal beam fixing rod 4 and is matched and connected with the inner diameter of the longitudinal beam telescopic rod 401 closest to the longitudinal beam fixing rod 4 in a sliding mode, by analogy, all be provided with damping piece between per two longeron telescopic link 401 of connecting.

The top surface of the beam fixing rod 3 is provided with a slide rail 301 which is parallel to the rod body direction of the beam fixing rod 3, the slide rail 301 is connected with a vacuum gas collecting component 5 in a sliding way, the vacuum gas collecting component 5 is characterized as a square gas collecting box and is tightly attached to the groove of the slide rail 301, the top of the beam fixing rod 3 is provided with a plurality of vacuum gas collecting components 5, the vacuum gas collecting components 5 are connected with the beam fixing rod 3 in a sliding way through the slide rail 301 of the beam fixing rod 3, the vacuum gas collecting components 5 are provided with vacuum chucks 501, the top of each beam fixing rod 3 is provided with the slide rail 301 and the vacuum gas collecting component 5, only the slide rail 301 and the vacuum gas collecting component 5 of a part of the beam fixing rod 3 are shown in figure 1, the rest drawings are hidden, the vacuum chucks 501 are soft hollow adsorption disks and have viscidity, the vacuum chucks 501 can be replaced at any time, the horizontal height of the top surface of the vacuum chucks 501 is 5mm higher than that of the top surface of the beam fixing rod 3, the negative pressure vacuum connection port 502 is a main air pipe connection port, is fixedly connected to the bottom of the longitudinal beam fixing rod 4, and is fixed through straight threads, the top surface of the cross beam fixing rod 3 at the end portion is provided with a blocking column 7, and the blocking column 7 is vertically arranged with the top surface of the cross beam fixing rod 3 and is uniformly provided with a plurality of air pipes.

The gypsum board supporting mechanism 1 is provided with a gas pipe 6, the gypsum board supporting mechanism 1 is provided with a negative pressure vacuum connection port 502, a gas pipe guide rail 601 parallel to the slide rail 301 is arranged on the cross beam fixing rod 3, the gas pipe guide rail 601 is a hinge strip made of plastic materials, the gas pipe 6 is located in the gas pipe guide rail 601, a pipe body of the gas pipe 6 located in the cross beam fixing rod 3 is a rubber hose, a pipe body located in the longitudinal beam fixing rod 4 is a steel pipe body, a pipe body located in the longitudinal beam telescopic rod 401 is a telescopic pipe body, the telescopic pipe body is a steel telescopic pipe body, and the telescopic pipe body stretches and retracts along with the longitudinal beam telescopic rod 401.

The bottom end of a gypsum board supporting mechanism 1 is connected with a supporting leg mechanism 2 through a connecting rod 101, the supporting leg mechanism 2 comprises a holding supporting rod 201, the holding supporting rod 201 is a hollow rod body, the outer wall of the holding supporting rod 201 is wrapped by anti-skid soft rubber, a telescopic supporting rod 204 is connected to the inner portion of the bottom end in a sliding mode, a clamp 205 is arranged at the connecting position of the holding supporting rod 201 and the telescopic supporting rod 204, the telescopic supporting rod 204 can move freely through the clamp 205 to adapt to different ceiling heights, the bottom end of the telescopic supporting rod 204 is connected with an assembling supporting rod 208 through threads, the length of the assembling supporting rod 208 is 90cm, a plurality of sections of assembling supporting rods 208 are arranged, every two adjacent sections of assembling supporting rods 208 are connected through threads, a supporting rod pad 209 is arranged at the bottom end of the assembling supporting rod 208, the supporting rod pad 209 is made of hard rubber and is used for protecting threaded openings at the bottom of the assembling supporting rod 208, and the top end of the holding supporting rod 201 is connected with the connecting rod 101 through a U-shaped connecting piece 206, a pin bolt 207 is provided at the connection between the U-shaped connector 206 and the connecting rod 101.

The hand-held support rod 201 is fixedly provided with a negative pressure vacuum machine 202, the negative pressure vacuum machine 202 is provided with a battery pack, the negative pressure vacuum machine 202 is connected with a rubber tube 203, and the rubber tube 203 is connected with a negative pressure vacuum connection port 502.

the method comprises the following steps: the manufactured gypsum board is leaned against the wall edge or other supported places, so that the top surface of the gypsum board supporting mechanism 1 and the gypsum board are parallel to each other, the blocking column 7 is inserted into the lowest part of the gypsum board immediately at the moment, and the gypsum board plays a role in supporting the gypsum board when being lifted upwards;

step two: the negative pressure vacuum machine 202 is opened, the vacuum sucker 501 is contacted with the gypsum board, and the absorption action is completed to enable the gypsum board to be tightly attached to the gypsum board supporting mechanism 1;

step three: the gypsum board is lifted manually for installation;

step four: after the gypsum board is in place, the length of the supporting leg mechanism 2 is adjusted by adjusting the telescopic supporting rod 204, so that the requirement of supporting the gypsum board is met;

step five: a clamp 205 is fastened, the height of the leg mechanism 2 is locked, and an operator drills self-tapping screws on the gypsum board to be fixedly connected with the keels;

step six: and (5) after the large-area fixing is finished, taking off the gypsum board supporting mechanism 1, and completing the residual self-tapping screws to finish the mounting of the gypsum board.

The longitudinal expansion length of the gypsum board supporting mechanism 1 is 1.2m, the length of a longitudinal beam between every two transverse beam fixing rods 3 is 30cm, the transverse expansion length is 2.4m, the length of each transverse beam fixing rod 3 is 1.2m, and the extension length of each side transverse beam telescopic rod 302 is 60 cm.

Unfolding corresponding longitudinal and transverse beams according to the size of the gypsum board, wherein the size of the gypsum board is 1m x 0.6m, adjusting the telescopic rods of the longitudinal and transverse beams of the gypsum board supporting mechanism 1 is not needed according to the size of the gypsum board, only adjusting the position of the vacuum gas collecting assembly 5 is needed, the vacuum gas collecting assembly is uniformly distributed on the cross beam fixing rod 3, and the supporting leg mechanism 2 is integrally installed on a connecting rod 101 below the fourth cross beam fixing rod 3;

for example, the size of the gypsum board is 2.4m × 1.2m, the longitudinal and transverse beam telescopic rods of the gypsum board supporting mechanism are adjusted according to the size of the gypsum board, the longitudinal and transverse beam telescopic rods are fully extended out to be used as supports of the gypsum board, the positions of the vacuum gas collecting assemblies 5 are adjusted according to requirements to be uniformly distributed on the gypsum board supporting mechanism 1, and the supporting leg mechanisms 2 are integrally arranged on the connecting rods 101 below the third cross beam fixing rods 3;

if the gypsum board size is between above size, carry out the position of suitable regulation vertical and horizontal roof beam telescopic link and vacuum gas collection subassembly 5 according to the demand, rationally select the position of connecting rod 101.

The supporting leg mechanisms 2 are assembled according to the height of the suspended ceiling, the length of each assembling supporting rod 208 is 90cm, and the total length of the handheld supporting rod 201 and the telescopic supporting rod 204 is 1 m;

if a floor height needs to carry out the gypsum furred ceiling and decorates for 4 meters's room, only need install the three section and assemble bracing piece 208 in the use, remaining height carries out altitude mixture control through holding bracing piece 201 and flexible bracing piece 204, assembles gypsum board supporting mechanism 1 and landing leg mechanism 2 through cotter bolt 207 at last to refute mouthful 502 with rubber tube 203 and negative pressure vacuum and be connected, accomplish appurtenance's regulation installation.

The technical features of the present invention which are not described in the above embodiments may be implemented by or using the prior art, and are not described herein again, of course, the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and variations, modifications, additions or substitutions which may be made by those skilled in the art within the spirit and scope of the present invention should also fall within the protection scope of the present invention.

Claims

1. The operation auxiliary system of the gypsum board suspended ceiling is characterized by comprising a gypsum board supporting mechanism (1) and a supporting leg mechanism (2), wherein the gypsum board supporting mechanism (1) comprises a plurality of cross beam fixing rods (3), the cross beam fixing rods (3) are all arranged in parallel and fixedly connected through longitudinal beam fixing rods (4), and the longitudinal beam fixing rods (4) are located in the middle of the cross beam fixing rods (3) and are perpendicular to the cross beam fixing rods (3);

the top of the cross beam fixing rod (3) is provided with a plurality of vacuum gas collecting assemblies (5), the vacuum gas collecting assemblies (5) are connected with the cross beam fixing rod (3) in a sliding mode through sliding rails (301) of the cross beam fixing rod (3), and the vacuum gas collecting assemblies (5) are provided with vacuum suckers (501);

the gypsum board supporting mechanism (1) is provided with an air pipe (6), and the gypsum board supporting mechanism (1) is provided with a negative pressure vacuum connection port (502);

the bottom end of the gypsum board supporting mechanism (1) is connected with the supporting leg mechanism (2) through a connecting rod (101), the supporting leg mechanism (2) comprises a handheld supporting rod (201), a negative pressure vacuum machine (202) is fixedly arranged on a rod body of the handheld supporting rod (201), a battery pack is arranged on the negative pressure vacuum machine (202), and the top end of the handheld supporting rod (201) is connected with the connecting rod (101);

the negative pressure vacuum machine (202) is connected with a rubber pipe (203), and the rubber pipe (203) is connected with the negative pressure vacuum connecting port (502);

the gypsum board supporting mechanism (1) and the supporting leg mechanism (2) are made of aluminum alloy materials.

2. The operation auxiliary system of the plasterboard suspended ceiling according to claim 1, wherein the beam fixing rod (3) is a hollow rod body, a beam telescopic rod (302) is slidably connected to the inside of each end, and a damping member is arranged between the beam telescopic rod (302) and the beam fixing rod (3);

the longitudinal beam fixing rod (4) is also a hollow rod body, one end of the longitudinal beam fixing rod is provided with an opening and is connected with a longitudinal beam telescopic rod (401) in an internal sliding mode, the longitudinal beam telescopic rod (401) is provided with a plurality of damping pieces, each longitudinal beam telescopic rod (401) is fixedly connected with one transverse beam fixing rod (3), the outer diameter of the longitudinal beam telescopic rod (401) closest to the longitudinal beam fixing rod (4) is matched with and connected with the inner diameter of the longitudinal beam fixing rod (4) in a sliding mode, a damping piece is arranged between the longitudinal beam telescopic rod (401) and the inner diameter of the longitudinal beam telescopic rod (401) closest to the longitudinal beam fixing rod (4), the damping pieces are matched with and connected with each other in a sliding mode, and every two damping pieces are arranged between the longitudinal beam telescopic rods (401).

3. The operation auxiliary system of the plasterboard suspended ceiling according to claim 1, wherein the top surface of the beam fixing rod (3) is provided with the sliding rail (301) parallel to the rod body direction of the beam fixing rod (3), the sliding rail (301) is slidably connected with the vacuum gas collecting assembly (5), and the vacuum gas collecting assembly (5) is characterized by a square gas collecting box and is tightly attached to the groove of the sliding rail (301).

4. The operation assisting system of the plasterboard ceiling according to claim 1, wherein the vacuum chuck (501) is a soft hollow suction disk having a viscosity, and a horizontal height of a top surface of the vacuum chuck (501) is higher than a height of a top surface of the beam fixing lever (3) by 5 mm;

the negative pressure vacuum connecting port (502) is a main air pipe connecting port and is fixedly connected to the bottom of the longitudinal beam fixing rod (4) and fixed through straight threads.

5. The operation auxiliary system of the plasterboard suspended ceiling of claim 1, wherein the beam fixing rod (3) is provided with an air pipe guide rail (601) parallel to the slide rail (301), the air pipe guide rail (601) is a hinge chain made of plastic, and the air pipe (6) is positioned in the air pipe guide rail (601);

trachea (6) are located body in crossbeam dead lever (3) is the flexible rubber hose, are located body in longeron dead lever (4) is the steel body, is located body in longeron telescopic link (401) is flexible body, flexible body adopts steel shrink trachea.

6. The operation assisting system of the plasterboard ceiling according to claim 1, wherein the top surface of the beam fixing lever (3) at the end is provided with a blocking column (7), and the blocking column (7) is vertically provided with the top surface of the beam fixing lever (3) and is uniformly provided in a plurality.

7. The operation auxiliary system of the plasterboard suspended ceiling is characterized in that the handheld support rod (201) is a hollow rod body, the outer wall of the handheld support rod is wrapped by anti-skid soft rubber, the bottom end of the handheld support rod is connected with a telescopic support rod (204) in a sliding mode, and a clamp (205) is arranged on the rod body at the joint of the handheld support rod (201) and the telescopic support rod (204);

the bottom end of each telescopic supporting rod (204) is connected with an assembling supporting rod (208) through threads, the length of each assembling supporting rod (208) is 90cm, each assembling supporting rod (208) is provided with a plurality of sections, every two adjacent sections of the assembling supporting rods (208) are connected through threads, the bottom end of the assembling supporting rod (208) at the bottommost end is provided with a supporting rod pad foot (209), and the supporting rod pad foot (209) is made of hard rubber;

the top end of the hand-held support rod (201) is connected with the connecting rod (101) through a U-shaped connecting piece (206), and a pin bolt (207) is arranged at the joint between the U-shaped connecting piece (206) and the connecting rod (101).

8. The method of using an operator assistance system for a drywall ceiling of claim 1, comprising the steps of:

the method comprises the following steps: the manufactured gypsum board is leaned against the wall side or other supported places, so that the top surface of the gypsum board supporting mechanism (1) and the gypsum board are parallel to each other, the blocking column (7) is inserted into the lowest part of the gypsum board immediately at the moment, and the gypsum board plays a role in supporting the gypsum board when being lifted upwards;

step two: opening the negative pressure vacuum machine (202), and contacting the vacuum suction cup (501) with the gypsum board to finish the adsorption action so that the gypsum board is tightly attached to the gypsum board supporting mechanism (1);

step three: the gypsum board is lifted manually for installation;

step four: after the gypsum board is in place, the length of the supporting leg mechanism (2) is adjusted by adjusting the telescopic supporting rod (204), so that the requirement of supporting the gypsum board is met;

step five: a fastening hoop (205) for locking the height of the leg mechanism (2), wherein an operator drills self-tapping screws on the gypsum board to be fixedly connected with the keel;

step six: and (3) removing the gypsum board supporting mechanism (1) after the large-area fixing is finished, and completing the residual self-tapping screws to finish the mounting of the gypsum board.

9. The method of using the operation assisting system of the plasterboard ceiling according to claim 8, wherein the plasterboard supporting mechanism (1) has a longitudinal spread length of 1.2m, wherein a longitudinal beam length between each two beam fixing rods (3) is 30cm, and a lateral spread length of 2.4m, wherein the beam fixing rods (3) have a length of 1.2m, and a telescopic rod (302) of each side beam has a projected length of 60 cm.

10. The method for using the operation assisting system of the plasterboard ceiling according to claim 8, wherein the leg mechanism (2) is assembled according to the ceiling height, the length of each section of the assembled supporting rod (208) is 90cm, and the total length of the hand-held supporting rod (201) and the telescopic supporting rod (204) is 1 m.