CN112556629A - Flatness detection device for mounting curtain wall structure and use method thereof - Google Patents

Abstract

The invention discloses a flatness detection device for mounting a curtain wall structure and a using method thereof. The invention can drive the roller to abut against the upper surface of the material through the lifting mechanism, the transverse driving mechanism drives the detection mechanism to move, so that the roller rolls on the upper surface of the material, the displacement sensors carry out point measurement on the upper surface of the material at equal intervals, the shrinkage of the displacement sensors is converted into signals and transmitted to the computer, the flatness of the material is visually displayed on the computer through analysis and processing of the computer, and the concave and convex degrees of the material can be directly known at the moment.

Description

Flatness detection device for mounting curtain wall structure and use method thereof

Technical Field

The invention relates to the technical field of detection devices, in particular to a flatness detection device for mounting a curtain wall structure and a using method thereof.

Background

The curtain wall is the outer wall enclosure of the building, does not bear the weight, hangs like a curtain, so is also called as a curtain wall, and is a light wall with decorative effect commonly used by modern large-scale and high-rise buildings.

Chinese patent publication No. CN209470660U discloses a panel roughness detection device, including running roller handle and install last the detection roller of running roller handle one end, the running roller handle is close to the one end fixed mounting who detects the roller has the running roller frame, it installs to detect the roller the running roller frame is inboard, just detect the roller with the running roller frame is connected through rotating, it includes benchmark wheel and detection wheel to detect the roller, benchmark wheel quantity is three. However, this device has the following disadvantages: 1. the device needs to brush paint on the surface of a material plate, so that the material needs to be cleaned in the later period, and unnecessary work is increased; 2. after the device brushes the paint on the surface of the plate, although the sunken area, the sunken range size and the raised part of the plate can be visually seen, the device cannot accurately measure the specific value of the flatness.

Disclosure of Invention

The invention aims to solve the problems and provide a flatness detection device for installing a curtain wall structure and a using method thereof.

The invention realizes the purpose through the following technical scheme:

a flatness detection device for curtain wall structure installation comprises a discharging mechanism, wherein the discharging mechanism mainly comprises a discharging plate, supporting legs and a mounting frame, the bottom of the discharging plate is connected with the supporting legs which are arranged at equal intervals through bolts, the rear ends of the supporting legs are connected with the mounting frame through bolts, the mounting frame is connected with a computer through screws, the flatness detection device also comprises a detection assembly, the detection assembly comprises a transverse driving mechanism, a lifting mechanism and a detection mechanism, the lifting mechanism for driving the detection mechanism to lift is arranged at the top of the detection mechanism, the transverse driving mechanism for driving the lifting mechanism to transversely move is arranged at the rear end of the lifting mechanism, the detection mechanism comprises a support, an axle center, an axle sleeve, a displacement sensor, a pressing plate, a snap spring, a fixed sleeve and a roller, the support is connected to the bottom of the lifting mechanism, the axle center is connected with the inner side of the support through a bearing, the axle sleeve is connected with the outer side of the axle center through a key, a plurality of uniformly distributed mounting grooves are arranged on the peripheral side of the axle sleeve, one displacement sensor is arranged on the inner side of each mounting groove, the pressing plate sleeve is arranged on the outer side of the moving end of the displacement sensor and is positioned on one side of the fixed end of the displacement sensor, which is far away from the axle sleeve, clamping grooves are arranged on the outer sides of the two ends of the pressing plate, the clamping springs are clamped on the inner sides of the clamping grooves, the two ends of the axle sleeve are screwed with the fixing sleeve, the fixing sleeve is sleeved on the outer side of the pressing plate near one end of the clamping springs, the idler wheel is connected with the outer sides of the two ends of the axle center through a key, set up like this and to supporting at the material upper surface through elevating system drive gyro wheel, horizontal actuating mechanism drives detection mechanism and removes, and then make the gyro wheel roll at the material upper surface, make displacement sensor equidistance carry out the point survey at the material upper surface, displacement sensor's shrinkage at this moment changes signal transmission to the computer into, through the analytic processing of computer, the audio-visual demonstration on the computer of roughness of material, just so can be direct learn the sunken and outstanding degree of material this moment.

Preferably, the axle sleeve outside still has the support cover through the key-type connection, support the cover and be located fixed cover is close to the one end of jump ring, just support the cover and still be located between the clamp plate, and with the clamp plate contact is connected, sets up like this and can prevent the excessive extrusion displacement sensor of clamp plate when the equipment, causes displacement sensor impaired.

Preferably, the support comprises a connecting plate and a supporting plate, the supporting plate is connected to two ends of the axle center through bearings, the top of the supporting plate is connected with the connecting plate through bolts, and the connecting plate is connected with the lifting mechanism, so that the axle center is conveniently arranged on the inner side of the support.

Preferably, displacement sensor keeps away from the one end of axle sleeve is embedded to have the ball, sets up effectual displacement sensor that prevents like this and receives wearing and tearing, has increased displacement sensor's life.

Preferably, horizontal actuating mechanism includes slide rail, lead screw, motor, carriage release lever, sliding sleeve, the slide rail passes through bolted connection the mounting bracket top, the slide rail inboard is connected with through the bearing the lead screw, the one end of lead screw is passed the slide rail, and has through the coupling joint the motor, lead screw outside spiro union has the carriage release lever, the carriage release lever is kept away from the one end of lead screw extends to the blowing board top, and embedded has the sliding sleeve sets up like this and can drive the lead screw rotation through the motor, and the lead screw drives the carriage release lever and removes, and the carriage release lever drives whole elevating system and removes, and then drives detection mechanism and remove.

Preferably, horizontal actuating mechanism includes slide rail, carriage release lever, sliding sleeve, slide bar, electronic slider, the slide rail passes through bolted connection and is in the mounting bracket top, the slide rail inboard has through bolted connection the slide bar, slide bar outside sliding connection has electronic slider, electronic slider front end has through bolted connection the carriage release lever, the carriage release lever is kept away from electronic slider's one end extends to the blowing board top, and embedded has the sliding sleeve just sets up like this and can slide in the slide bar outside and drive the carriage release lever removal, and the carriage release lever drives whole elevating system and removes, and then drives detection mechanism and remove.

Preferably, the slide rail bottom is provided with stabilizing mean, stabilizing mean includes fixed plate, stabilizer bar, the fixed plate passes through bolted connection and is in the mounting bracket front end, two between the fixed plate and keep away from there is the stabilizer bar one end of mounting bracket through bolted connection, the stabilizer bar passes the carriage release lever, and with carriage release lever sliding connection, the stability that can effectual increase carriage release lever is set up like this.

Preferably, elevating system includes cylinder, piston plate, urceolus, spring, baffle, the cylinder passes through bolted connection the carriage release lever top, the output bottom of cylinder passes the sliding sleeve, and stretch into the urceolus is inboard, and has through bolted connection the piston plate, piston plate sliding connection be in the urceolus is inboard, the urceolus inboard still is provided with the spring, just the spring is located piston plate bottom, the urceolus top has through bolted connection the baffle, just the internal diameter of baffle is less than the diameter of piston plate, sets up like this and can drive the piston plate through the cylinder and descend, and the piston plate drives the spring and descends, and spring extrusion urceolus, urceolus drive support decline, and the support drives the function that detection mechanism descends.

Preferably, the two ends of the clamp spring are provided with convex bodies protruding outwards, and the inner sides of the convex bodies are provided with round holes, so that the clamp spring can be conveniently installed on the inner side of the clamping groove.

The invention also provides a using method of the flatness detection device for mounting the curtain wall structure, which comprises the following steps:

the method comprises the following steps: firstly, placing materials at the top of a discharging plate, and aligning the materials front and back;

step two: starting the air cylinder, driving the piston plate to descend by the air cylinder, driving the spring to descend by the piston plate, extruding the outer barrel by the spring, driving the bracket to descend by the outer barrel, driving the axle center to descend by the bracket, and pressing the roller on the upper surface of the material;

step three: the starter motor, the motor drives the lead screw and rotates, the lead screw drives the carriage release lever and removes, the carriage release lever drives whole elevating system and removes, and then drive detection mechanism and remove, or start electronic slider, electronic slider slides outside the slide bar and drives the carriage release lever and remove, the carriage release lever drives whole elevating system and removes, and then drive detection mechanism and remove, the gyro wheel rolls at the material surface this moment, the gyro wheel drives the axle center and rolls, the axle center drives the axle sleeve and rolls, the axle sleeve drives displacement sensor and does the circular motion, displacement sensor is under the extrusion of material this moment, contract, displacement sensor's the shrinkage at this moment converts signal transmission to the computer, it has just accomplished the detection to material roughness to the other end of material just to move detection mechanism.

Has the advantages that: this device can drive the gyro wheel through elevating system and support at the material upper surface, horizontal actuating mechanism drives detection mechanism and removes, and then makes the gyro wheel roll at the material upper surface, make displacement sensor equidistance carry out the point survey at the material upper surface, displacement sensor's shrinkage at this moment changes signal transmission to the computer into, through the analysis and processing of computer, the audio-visual demonstration on the computer of roughness of material, just so can be direct learn the sunken and outstanding degree of material this moment.

Additional features of the invention and advantages thereof will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic structural diagram of a flatness detection device for curtain wall structure installation according to the present invention;

FIG. 2 is a cross-sectional view of a first embodiment of a flatness detection apparatus for curtain wall structure installation according to the present invention;

FIG. 3 is an exploded view of the lifting mechanism of the flatness detecting apparatus for curtain wall structure installation according to the present invention;

FIG. 4 is a schematic structural diagram of a detection mechanism of the flatness detection device for curtain wall structure installation according to the invention;

FIG. 5 is a right side view of the detecting mechanism of the flatness detecting apparatus for curtain wall structure installation according to the present invention;

FIG. 6 is a sectional view A-A of the detecting mechanism of the flatness detecting apparatus for curtain wall structural installation according to the present invention;

FIG. 7 is a sectional view B-B of a detecting mechanism of the flatness detecting apparatus for curtain wall structural installation according to the present invention;

FIG. 8 is a C-C sectional view of a detection mechanism of the flatness detection apparatus for curtain wall structure installation according to the present invention;

fig. 9 is a sectional view of a flatness detecting apparatus for curtain wall structure installation according to a second embodiment of the present invention.

The reference numerals are explained below:

1. a discharging mechanism; 2. a detection component; 3. a computer; 101. a material placing plate; 102. supporting legs; 103. a mounting frame; 21. a lateral drive mechanism; 22. a lifting mechanism; 23. a detection mechanism; 24. a stabilizing mechanism; 211. a slide rail; 212. a lead screw; 213. a motor; 214. a travel bar; 215. a sliding sleeve; 2101. a slide bar; 2102. an electric slider; 221. a cylinder; 222. a piston plate; 223. an outer cylinder; 224. a spring; 225. a baffle plate; 231. a support; 232. an axis; 233. a shaft sleeve; 234. a displacement sensor; 235. pressing a plate; 236. a clamp spring; 237. fixing a sleeve; 238. a roller; 239. a support sleeve; 2311. a connecting plate; 2312. a support plate; 2341. a ball bearing; 241. a fixing plate; 242. a stabilizer bar.

Detailed Description

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, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Example 1

As shown in fig. 1-8, a flatness detection device for curtain wall structure installation comprises a material placing mechanism 1, wherein the material placing mechanism 1 mainly comprises a material placing plate 101, supporting legs 102 and a mounting frame 103, the bottom of the material placing plate 101 is connected with a plurality of supporting legs 102 arranged at equal intervals through bolts, the rear end of each supporting leg 102 is connected with the mounting frame 103 through bolts, the mounting frame 103 is connected with a computer 3 through bolts, the flatness detection device also comprises a detection assembly 2, the detection assembly 2 comprises a transverse driving mechanism 21, a lifting mechanism 22 and a detection mechanism 23, the top of the detection mechanism 23 is provided with a lifting mechanism 22 for driving the detection mechanism 23 to lift, the rear end of the lifting mechanism 22 is provided with a transverse driving mechanism 21 for driving the lifting mechanism 22 to transversely move, the detection mechanism 23 comprises a support 231, an axle center 232, an axle sleeve 233, a displacement sensor 234, a pressing plate 235, the support 231 is connected to the bottom of the lifting mechanism 22, the inner side of the support 231 is connected with the shaft core 232 through a bearing, the outer side of the shaft core 232 is connected with a shaft sleeve 233 through a key, the peripheral side of the shaft sleeve 233 is provided with a plurality of uniformly distributed mounting grooves, the inner side of each mounting groove is provided with a displacement sensor 234, a pressing plate 235 is sleeved on the outer side of the moving end of the displacement sensor 234 and is positioned on one side of the fixed end of the displacement sensor 234 away from the shaft sleeve 233, the outer sides of the two ends of the pressing plate 235 are provided with clamping grooves, the inner sides of the clamping grooves are clamped with clamp springs 236, the two ends of the shaft sleeve 233 are screwed with fixing sleeves 237, one end of the fixing sleeves 237 close to the clamp springs 236 is sleeved on the outer side of the pressing plate 235, the outer sides of the two ends of the shaft core 232 are connected with rollers 238 through keys, the transverse driving mechanism 21 drives the detecting mechanism 23 to move, so that the roller 238 rolls on the upper surface of the material, the displacement sensor 234 performs point measurement on the upper surface of the material at equal intervals, at the moment, the shrinkage of the displacement sensor 234 is converted into a signal to be transmitted to the computer 3, the flatness of the material is visually displayed on the computer 3 through analysis and processing of the computer 3, the concave and protruding degree of the material can be directly known at the moment, the outer side of the shaft sleeve 233 is further connected with a supporting sleeve 239 through a key, the supporting sleeve 239 is positioned at one end of the fixing sleeve 237 close to the snap spring 236, the supporting sleeve 239 is also positioned between the pressing plates 235 and is in contact connection with the pressing plates 235, and thus, when the support 231 comprises a connecting plate 2311 and a supporting plate 2312, the supporting plate 2312 is connected with two ends of the shaft center 232 through bearings, the top of the supporting plate 2312 is connected with a connecting plate 2311 through a bolt, the connecting plate 2311 is connected with the lifting mechanism 22, the arrangement is convenient for installing the shaft center 232 inside the bracket 231, the ball 2341 is embedded in one end, far away from the shaft sleeve 233, of the displacement sensor 234, the arrangement is effective for preventing the displacement sensor 234 from being worn, the service life of the displacement sensor 234 is prolonged, the transverse driving mechanism 21 comprises a sliding rail 211, a lead screw 212, a motor 213, a moving rod 214 and a sliding sleeve 215, the sliding rail 211 is connected to the top of the installation frame 103 through a bolt, the inner side of the sliding rail 211 is connected with the lead screw 212 through a bearing, one end of the lead screw 212 penetrates through the sliding rail 211 and is connected with the motor 213 through a coupler, the moving rod 214 is screwed outside the lead screw 212, one end, far away from the lead screw 212, of the moving rod 214 extends to, the moving rod 214 drives the whole lifting mechanism 22 to move, and further drives the detection mechanism 23 to move, the bottom of the sliding rail 211 is provided with a stabilizing mechanism 24, the stabilizing mechanism 24 comprises a fixing plate 241 and a stabilizing rod 242, the fixing plate 241 is connected to the front end of the mounting frame 103 through a bolt, one end of the fixing plate 241, which is far away from the mounting frame 103, is connected with the stabilizing rod 242 through a bolt, the stabilizing rod 242 penetrates through the moving rod 214 and is connected with the moving rod 214 in a sliding manner, so that the stability of the moving rod 214 can be effectively improved, the lifting mechanism 22 comprises a cylinder 221, a piston plate 222, an outer cylinder 223, a spring 224 and a baffle 225, the cylinder 221 is connected to the top of the moving rod 214 through a bolt, the bottom of the output end of the cylinder 221 penetrates through a sliding sleeve 215 and extends into the inner side of the outer cylinder 223, and spring 224 is located piston plate 222 bottom, there is baffle 225 at urceolus 223 top through bolted connection, and the internal diameter of baffle 225 is less than the diameter of piston plate 222, it can drive piston plate 222 through cylinder 221 to descend to set up like this, piston plate 222 drives spring 224 and descends, spring 224 extrudes urceolus 223, urceolus 223 drives support 231 and descends, support 231 drives the function that detection mechanism 23 descends, jump ring 236 both ends are provided with the convex body of outside salient, the round hole has been seted up to this convex body inboard, it makes things convenient for install jump ring 236 at the draw-in groove inboard to set up like this.

A using method of a flatness detection device for installing a curtain wall structure comprises the following steps:

the method comprises the following steps: firstly, placing materials on the top of a material placing plate 101, and aligning the materials front and back;

step two: starting the air cylinder 221, the air cylinder 221 drives the piston plate 222 to descend, the piston plate 222 drives the spring 224 to descend, the spring 224 extrudes the outer cylinder 223, the outer cylinder 223 drives the support 231 to descend, and the support 231 drives the shaft center 232 to descend, so that the roller 238 presses the upper surface of the material;

step three: starting the motor 213, the motor 213 drives the screw 212 to rotate, the screw 212 drives the moving rod 214 to move, the moving rod 214 drives the whole lifting mechanism 22 to move, and further drives the detection mechanism 23 to move, at this time, the roller 238 rolls on the upper surface of the material, the roller 238 drives the shaft core 232 to roll, the shaft core 232 drives the shaft sleeve 233 to roll, the shaft sleeve 233 drives the displacement sensor 234 to move circumferentially, at this time, the displacement sensor 234 contracts under the extrusion of the material, at this time, the contraction quantity of the displacement sensor 234 is converted into a signal to be transmitted to the computer 3, and the detection on the flatness of the material is completed until the detection mechanism 23 moves to the other end of the material.

Example 2

As shown in fig. 9, embodiment 2 differs from embodiment 1 in that: horizontal actuating mechanism 21 includes slide rail 211, carriage bar 214, sliding sleeve 215, slide bar 2101, electronic slider 2102, slide rail 211 passes through bolted connection at the mounting bracket 103 top, slide rail 211 is inboard to have slide bar 2101 through bolted connection, slide bar 2101 outside sliding connection has electronic slider 2102, electronic slider 2102 front end has carriage bar 214 through bolted connection, carriage bar 214 keeps away from the one end of electronic slider 2102 and extends to flitch 101 top, and it has sliding sleeve 215 to embed, it can slide to drive carriage bar 214 and remove in the slide bar 2101 outside through electronic slider 2102 to set up like this, carriage bar 214 drives whole elevating system 22 and removes, and then drive detection mechanism 23 and remove.

A using method of a flatness detection device for installing a curtain wall structure comprises the following steps:

the method comprises the following steps: firstly, placing materials on the top of a material placing plate 101, and aligning the materials front and back;

step two: starting the air cylinder 221, the air cylinder 221 drives the piston plate 222 to descend, the piston plate 222 drives the spring 224 to descend, the spring 224 extrudes the outer cylinder 223, the outer cylinder 223 drives the support 231 to descend, and the support 231 drives the shaft center 232 to descend, so that the roller 238 presses the upper surface of the material;

step three: starting the electric sliding block 2102, wherein the electric sliding block 2102 slides outside the sliding rod 2101 to drive the moving rod 214 to move, the moving rod 214 drives the whole lifting mechanism 22 to move, and further drives the detection mechanism 23 to move, at the moment, the roller 238 rolls on the upper surface of the material, the roller 238 drives the shaft center 232 to roll, the shaft center 232 drives the shaft sleeve 233 to roll, the shaft sleeve 233 drives the displacement sensor 234 to move circumferentially, at the moment, the displacement sensor 234 contracts under the extrusion of the material, at the moment, the contraction amount of the displacement sensor 234 is converted into a signal to be transmitted to the computer 3, and the detection on the flatness of the material is completed until the detection mechanism 23 moves to the other end of the.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. The utility model provides a roughness detection device for curtain wall construction installation, includes drop feed mechanism (1), drop feed mechanism (1) mainly comprises blowing board (101), supporting leg (102), mounting bracket (103), there is a plurality of equidistance to set up through bolted connection blowing board (101) bottom supporting leg (102), there is mounting bracket (103) supporting leg (102) rear end through bolted connection, there is computer (3), its characterized in that through bolted connection on mounting bracket (103): still include detection element (2), detection element (2) include horizontal actuating mechanism (21), elevating system (22), detection mechanism (23) top is provided with the drive detection mechanism (23) goes up and down elevating system (22), elevating system (22) rear end is provided with the drive elevating system (22) lateral shifting horizontal actuating mechanism (21), detection mechanism (23) include support (231), axle center (232), axle sleeve (233), displacement sensor (234), clamp plate (235), jump ring (236), fixed cover (237), gyro wheel (238), support (231) are connected in elevating system (22) bottom, support (231) inboard is connected with through the bearing axle center (232), axle center (232) outside is connected with through the key shaft sleeve (233), the utility model discloses a displacement sensor (234) and its manufacturing method, including axle sleeve (233) week side, every mounting groove inboard all installs one displacement sensor (234), clamp plate (235) cover is established the removal of displacement sensor (234) holds the outside, and is located the stiff end of displacement sensor (234) is kept away from one side of axle sleeve (233), the draw-in groove has been seted up in the clamp plate (235) both ends outside, and the inboard joint of this draw-in groove has jump ring (236), axle sleeve (233) both ends spiro union have fixed cover (237), just fixed cover (237) are close to the pot head of jump ring (236) is established the clamp plate (235) outside, axle center (232) both ends outside through the key connection have gyro wheel (238), just gyro wheel (238) are located fixed cover (237) outside, the external diameter of gyro wheel (238) is less than the diameter of the circumscribed circle of displacement sensor (234), the outer diameter of the roller (238) is larger than that of the fixing sleeve (237).

2. The flatness detecting device for installation of the curtain wall structure according to claim 1, wherein: the outer side of the shaft sleeve (233) is further connected with a support sleeve (239) through a key, the support sleeve (239) is located at one end, close to the clamp spring (236), of the fixed sleeve (237), and the support sleeve (239) is further located between the pressing plates (235) and is in contact connection with the pressing plates (235).

3. The flatness detecting device for installation of the curtain wall structure according to claim 1, wherein: the support (231) comprises a connecting plate (2311) and a supporting plate (2312), the supporting plate (2312) is connected to two ends of the shaft center (232) through bearings, the top of the supporting plate (2312) is connected with the connecting plate (2311) through bolts, and the connecting plate (2311) is connected with the lifting mechanism (22).

4. The flatness detecting device for installation of the curtain wall structure according to claim 1, wherein: and a ball (2341) is embedded in one end, far away from the shaft sleeve (233), of the displacement sensor (234).

5. The flatness detecting device for installation of the curtain wall structure according to claim 1, wherein: horizontal actuating mechanism (21) includes slide rail (211), lead screw (212), motor (213), carriage release lever (214), sliding sleeve (215), slide rail (211) pass through bolted connection be in mounting bracket (103) top, slide rail (211) inboard is connected with through the bearing lead screw (212), the one end of lead screw (212) is passed slide rail (211), and has through the coupling joint motor (213), lead screw (212) outside spiro union has carriage release lever (214), carriage release lever (214) are kept away from the one end of lead screw (212) extends to discharge plate (101) top, and embedded have sliding sleeve (215).

6. The flatness detecting device for installation of the curtain wall structure according to claim 1, wherein: horizontal actuating mechanism (21) includes slide rail (211), carriage release (214), sliding sleeve (215), slide bar (2101), electronic slider (2102), slide rail (211) pass through bolted connection be in mounting bracket (103) top, slide rail (211) inboard has through bolted connection slide bar (2101), slide bar (2101) outside sliding connection has electronic slider (2102), electronic slider (2102) front end has through bolted connection carriage release (214), carriage release (214) are kept away from the one end of electronic slider (2102) extends to discharge board (101) top, and embedded have sliding sleeve (215).

7. A flatness detection apparatus for installation of a curtain wall structure according to claim 5 or 6, wherein: slide rail (211) bottom is provided with stabilizing mean (24), stabilizing mean (24) is including fixed plate (241), stabilizer bar (242), bolted connection is passed through in fixed plate (241) mounting bracket (103) front end, two between fixed plate (241) and keep away from the one end of mounting bracket (103) has through bolted connection stabilizer bar (242), stabilizer bar (242) pass carriage release lever (214), and with carriage release lever (214) sliding connection.

8. A flatness detection apparatus for installation of a curtain wall structure according to claim 5 or 6, wherein: elevating system (22) includes cylinder (221), piston plate (222), urceolus (223), spring (224), baffle (225), cylinder (221) pass through bolted connection in carriage release lever (214) top, the output bottom of cylinder (221) passes sliding sleeve (215), and stretches into urceolus (223) are inboard, and have through bolted connection piston plate (222), piston plate (222) sliding connection be in urceolus (223) are inboard, urceolus (223) inboard still is provided with spring (224), just spring (224) are located piston plate (222) bottom, urceolus (223) top has through bolted connection baffle (225), just the internal diameter of baffle (225) is less than the diameter of piston plate (222).

9. The flatness detecting device for installation of the curtain wall structure according to claim 1, wherein: the clamp spring (236) is provided with protrusions protruding outwards at two ends, and a circular hole is formed in the inner side of each protrusion.

10. The utility model provides a use method for roughness detection device of curtain wall structure installation which characterized in that: the method comprises the following steps:

the method comprises the following steps: firstly, placing materials on the top of a material placing plate (101) and aligning the materials front and back;

step two: starting the air cylinder (221), wherein the air cylinder (221) drives the piston plate (222) to descend, the piston plate (222) drives the spring (224) to descend, the spring (224) extrudes the outer cylinder (223), the outer cylinder (223) drives the support (231) to descend, and the support (231) drives the shaft center (232) to descend, so that the roller (238) is pressed on the upper surface of the material;

step three: starting a motor (213), wherein the motor (213) drives a lead screw (212) to rotate, the lead screw (212) drives a moving rod (214) to move, the moving rod (214) drives the whole lifting mechanism (22) to move, and then drives a detection mechanism (23) to move, or starting an electric slider (2102), the electric slider (2102) slides outside a sliding rod (2101) to drive the moving rod (214) to move, the moving rod (214) drives the whole lifting mechanism (22) to move, and then drives the detection mechanism (23) to move, at the moment, a roller (238) rolls on the upper surface of a material, the roller (238) drives a shaft center (232) to roll, the shaft center (232) drives a shaft sleeve (233) to roll, the shaft sleeve (233) drives a displacement sensor (234) to do circumferential movement, at the moment, the displacement sensor (234) shrinks under the extrusion of the material, at the moment, the shrinkage of the displacement sensor (234) is converted into a signal to be, and the flatness of the material is detected until the detection mechanism (23) moves to the other end of the material.

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