CN112414681A - Intelligent wireless communication equipment installation detection method - Google Patents

Abstract

The invention provides an intelligent wireless communication equipment installation detection method, which relates to the technical field of intelligent wireless communication equipment and is used for detecting screen glass of the intelligent wireless communication equipment before installation, wherein the intelligent wireless communication equipment installation detection method is specifically completed by matching an intelligent wireless communication equipment installation detection device, and the intelligent wireless communication equipment installation detection device comprises a workbench and supporting legs, wherein the top surface of the workbench is a horizontal plane, and the supporting legs are arranged at the bottom end of the workbench; the invention simulates the impact test of the screen glass in actual use through various structural changes of the impact detection component, detects the structural strength of the screen glass, simulates various impact states of the screen glass in actual use after the screen glass is installed in the wireless communication equipment through various changes of the strength support component and matching with the change impact of the impact detection component, and further improves the mechanical detection of the screen glass before installation.

Description

Intelligent wireless communication equipment installation detection method

Technical Field

The invention relates to the technical field of intelligent wireless communication equipment, in particular to an installation detection method of intelligent wireless communication equipment.

Background

The communication equipment, ICD for short, is used for wired communication equipment and wireless communication equipment in industrial control environment, and the wireless communication equipment mainly comprises electronic equipment such as a wireless AP, a wireless bridge, a wireless network card, a wireless arrester, an antenna, a mobile phone, a computer and the like.

At present, wireless communication equipment installs the display screen for the ease of use and control on wireless communication equipment, and the display screen has interior screen and outer screen again, and the interior screen is used for showing, and the outer screen is used for protecting interior screen structure, and the display screen outer screen is before the installation, needs to carry out the detection before installing to the outer screen of display screen, like bending resistance, compressive property, the strength properties etc. of outer screen.

Patent No. CN201520983905.5 discloses a display screen detection device, which includes a camera detection mechanism, including: the bottom of the camera mounting frame is preset with a photographing area; a main camera disposed above the photographing region; at least two auxiliary cameras distributed at the periphery of the photographing area; display screen detection tool includes: the jig body is arranged below the photographing area, and the surface of the jig body is provided with a display screen accommodating cavity; the light-emitting component is arranged at the bottom of the display screen accommodating cavity; the detection probe set is arranged on one side of the display screen accommodating cavity; the signal connector is fixed on the jig body and is connected with the light-emitting component and the detection probe group; when the display screen is detected, the display screen accommodating cavity is located in the shooting range of the main camera and the auxiliary camera through the shooting area. Through camera detection mechanism and display screen detection tool, can improve and detect the precision, avoid the artificial secondary damage that artifical detection appears and the relatively inaccurate problem of testing result.

The display screen detection equipment disclosed by the patent still has some defects in practical use, and the specific defects are as follows:

when the display screen is detected, whether the display screen normally works or not is detected, mechanical detection is carried out on the display screen, and if the display screen is detected to be bent in a reciprocating mode, whether the display screen can normally work or not is observed.

Disclosure of Invention

The invention aims to provide an intelligent wireless communication equipment installation detection method, and solves the technical problem that when a display screen is detected, the display screen is required to be mechanically detected besides the detection of normal work of the display screen, and if the display screen is detected to be bent back and forth, the display screen can be observed to normally work.

The technical problem to be solved by the invention is realized by adopting the following technical scheme: an intelligent wireless communication equipment installation detection method is used for detecting screen glass of intelligent wireless communication equipment before installation, and is specifically completed by matching an intelligent wireless communication equipment installation detection device, the intelligent wireless communication equipment installation detection device comprises a workbench with a horizontal top surface and supporting legs arranged at the bottom end of the workbench, two curved slideways are symmetrically arranged in the middle of the top end of the workbench, the slideways are arranged in a mirror image mode, a screen clamping plate is arranged on the slideway at each side, a sliding block is arranged at the bottom end of the screen clamping plate at each side, the sliding block at each side is embedded into the corresponding slideway in a sliding fit mode, the screen clamping plates in the slideways at both sides are installed in a mirror image mode, and the bottom end of the sliding block at each side penetrates through the slideways and extends out to the bottom of the workbench, a first pin rod is arranged at the bottom end of the sliding block extending out of the bottom of the workbench;

the middle parts of the slideways at the two sides of the bottom of the workbench are provided with slide rails, the slide rails are provided with slide blocks in a sliding fit mode, the left side and the right side of each slide block are symmetrically provided with crossbearers, the middle parts of the crossbearers at the two sides are provided with through slide holes, and pin rods at the bottom ends of the slide blocks at the two sides are embedded into the slide holes at the middle parts of the crossbearers in a sliding connection mode;

the bottom of the workbench is fixedly provided with a first motor, the first motor is fixed in the middle of the bottom end of the workbench through a motor support frame, the motor support frame is fixedly arranged at the bottom of the workbench, the first motor extends upwards to form an output shaft, the top end of the output shaft of the first motor is fixedly provided with a crank, the top end of the crank is fixedly provided with a second pin rod, and the second pin rod is connected in a sliding hole in the middle of the cross frame in a sliding manner;

the inner side surfaces of the screen clamping plates on the two sides are symmetrically provided with sunken clamping grooves, the screen glass is vertically arranged at the top end of the workbench, and the left side and the right side of the screen glass are fixedly arranged in the clamping grooves of the screen clamping plates on the two sides in a clamping manner;

the left and right sides symmetry on workstation top is provided with the bracing piece of standing vertically in the workstation top, both sides bracing piece fixed mounting has a top backup pad, the spout of a font is seted up at the top middle part of top backup pad, the spout is the through groove of a font, the top of top backup pad just is located first electric putter is installed to the left and right sides symmetry of spout, first electric putter upwards stretches out has first push rod, first electric putter's first push rod top fixed mounting has the elevating platform, the middle part fixed mounting of elevating platform has the regulating block, the regulating block bottom to stretch out in the spout has two to press from both sides tight pole, two interval between the tight pole of clamp is a screen glass's thickness.

The intelligent wireless communication equipment installation detection method; the method specifically comprises the following steps:

s1, mounting of screen glass: the water supply tank is placed outside the enclosure wall of the pigsty, the screen glass is vertically arranged at the top end of the workbench, and the left side and the right side of the screen glass are fixedly arranged in clamping grooves of the screen clamping plates at the two sides through clamping;

s2, middle support: the middle of the screen glass installed in the clamping groove of the screen clamping plate in the step S1 is supported, two clamping rods are controlled by a first electric push rod to fall downwards to the middle of the screen glass, and the two clamping rods are symmetrically clamped in the middle of two sides of the screen glass;

s3, bending resistance detection: bending detection is carried out on the screen clamping plates which are fixedly arranged in the step S2, the cross frame is driven to move through the first motor, the left side and the right side of the screen glass are bent to the same direction through the screen clamping plates on the two sides sliding along the slide ways on the two sides, and the tolerance of the screen glass is observed;

s4, detecting the reciprocating bending resistance: and (4) reversely bending the screen glass bent in the same direction in the step (S3), driving the transverse frame to reciprocate through the first motor, enabling the screen clamping plates on the two sides to slide back and forth along the slide ways on the two sides, and observing the surface grains of the screen glass, thereby determining the bending strength of the screen glass.

As a preferred technical scheme of the invention, the front side of the workbench is provided with a strength support assembly, the strength support assembly comprises a sliding plate, a first side support plate and a left-right sliding table, the sliding plate is horizontally arranged at the front side of the workbench, the sliding plate is provided with the first side support plate which is vertically arranged at the top end of the sliding plate in a sliding fit manner, the middle part of the first side support plate is arranged on the sliding plate in a sliding fit manner, the bottom end of the workbench is close to the front side and is fixedly provided with a fifth electric push rod, the fifth electric push rod extends forwards to form a fifth push rod, and the top end of the fifth push rod is fixed at the bottom end of the first side support plate;

the middle of the top end of the first side supporting plate is provided with a abdicating groove, the side wall of the first side supporting plate facing to the sliding groove direction is symmetrically provided with two raised first supporting blocks, the two first supporting blocks are symmetrically arranged at the left side and the right side of the abdicating groove, the top ends of the two first supporting blocks are in the same plane, the middle parts of the two first supporting blocks are slidably provided with telescopic supporting blocks, the front sides of the telescopic supporting blocks are provided with sliding shaft rods, and the shaft rods penetrate through the abdicating groove in the middle parts of the first supporting blocks and extend out to the front sides of the first side supporting plates;

the first side supporting plate is provided with a first electric push rod, the front side of the first side supporting plate is symmetrically and fixedly provided with a second electric push rod, the second electric push rod extends forwards to form a second push rod, and the top end of the second push rod of the second electric push rod is fixedly arranged on the left-right sliding table.

As a preferred technical scheme of the invention, an impact detection assembly is arranged at the rear side of the workbench and comprises a second sliding plate, a second side supporting plate and a second movable plate, the second sliding plate is horizontally arranged at the rear side of the workbench, the second sliding plate is provided with the second side supporting plate which is vertically arranged at the top end of the second sliding plate in a sliding fit manner, the middle part of the second side supporting plate is arranged on the second sliding plate in a sliding fit manner, the bottom end of the workbench is close to the rear side and is fixedly provided with a fourth electric push rod, the fourth electric push rod extends backwards and is provided with a fourth push rod, and the top end of the fourth push rod is fixed at the bottom end of the second side supporting plate;

a fixed pressing needle is fixedly arranged in the middle of the side wall of the second side supporting plate facing the sliding groove,

the top end of the fixed pressing needle is arranged to be conical, the middle part of the second side supporting plate is provided with through shaft holes at equal intervals, a second pressing needle is arranged in each shaft hole in the middle part of the second side supporting plate in a sliding mode, and the front end of each second pressing needle is arranged to be conical;

the rear side of the second side supporting plate is provided with a second movable plate, the rear end of a second pressing needle in each shaft hole of the second side supporting plate is fixedly installed on the second movable plate, the top end of the second movable plate is fixedly installed with a third electric push rod, the third electric push rod extends forwards to form a third push rod, and the front end of the third push rod is fixedly installed on the second side supporting plate.

As a preferred technical scheme of the present invention, the crank includes a threaded shaft rod, a fixed block, and an adjusting knob, the fixed block is fixed to the top end of the output shaft of the first motor, the crank is a movable slider, a through threaded hole is formed in the middle of the crank, the threaded shaft rod is fastened to the left end of the fixed block, the crank is mounted on the threaded shaft rod through the threaded hole, and the adjusting knob is disposed at the top end of the threaded shaft rod.

As a preferred technical scheme of the invention, the adjusting block comprises a movable sliding block, a second threaded screw rod, a movable sliding chute and a second adjusting knob, the movable sliding chute is arranged in the middle of the adjusting block, the second threaded screw rod is rotatably connected in the movable sliding chute, and one end of the second threaded screw rod extends out of the adjusting block;

the movable sliding blocks at the top ends of the two clamping rods are symmetrically arranged in a movable sliding groove in the middle of the adjusting block in a sliding fit mode, and the movable sliding blocks arranged in the movable sliding groove are connected to the second threaded screw rod through threads.

As a preferred technical scheme of the present invention, the clamping rods are cylindrical rods, and the outer circumferential surface of each clamping rod is wrapped with a sponge sleeve.

As a preferred technical scheme of the invention, the adjusting block comprises a movable sliding chute, a shaft lever, a transmission cavity, a sliding hinged support, a limiting block, a pointer slideway, scale glass, a pointer sliding hole, a transmission rod, a hinged support rod and a compression spring, wherein the middle part of the adjusting block is provided with the movable sliding chute, the middle part of the movable sliding chute is rotatably connected with the shaft lever, the top ends of the two clamping rods are symmetrically provided with movable sliding blocks, the movable sliding blocks are embedded into the movable sliding chute in a sliding fit manner, the two movable sliding blocks extending into the movable sliding chute are arranged on the shaft lever in a sliding fit manner, the middle part of the movable sliding chute is provided with a raised limiting block, the width of the limiting block is slightly smaller than the thickness of the screen glass, and the compression springs are symmetrically;

the top end of the adjusting block is symmetrically provided with scale glass, a pointer slide way is arranged below each scale glass, a pointer is connected in the pointer slide way in a sliding way, the middle part of the pointer is provided with a through pointer slide hole,

each corresponding transmission chamber has been seted up to pointer slide bottom, each movable sliding block top is provided with the slip hinged-support, is close to in the slip hinged-support the transmission intracavity wall is equipped with hinge branch, the slip hinged-support articulates through sliding has the transfer line, the transfer line middle part is rotated and is connected on hinge branch, the transfer line top stretches into in the pointer slide, stretches into in the pointer slide the transfer line passes through sliding connection in the pointer slide of pointer.

As a preferable technical scheme of the invention, the screen clamping plate comprises a plurality of air nozzles which are arranged at two sides of the clamping groove at equal intervals, and the air blowing direction of each air nozzle is parallel to the surface of the screen glass clamped in the middle of the screen clamping plate.

Compared with the prior art, the invention has the beneficial effects that:

firstly, the screen glass is vertically arranged at the top end of the workbench, the left side and the right side of the screen glass are fixedly arranged in the clamping grooves of the screen clamping plates at the two sides through clamping, the screen glass is clamped and fixed, the two clamping rods are controlled to fall downwards to the middle part of the screen glass through the first electric push rod, the two clamping rods are symmetrically clamped in the middle parts of the two sides of the screen glass, the middle part of the screen glass is supported, the screen glass is prevented from popping out from the screen clamping plates at the two sides during bending, the damage to peripheral objects is avoided, the safety of screen glass testing is improved, the clamping rods are cylindrical rods, the middle part of the screen glass is bent along the outer circular surfaces of the clamping rods during bending, the middle part of the screen glass is clamped through a cylindrical rod structure, the stress support on the middle part of the bent screen glass is reduced, and the detection accuracy is improved, the transverse frame is driven to move by the first motor, the screen clamping plates on the two sides slide along the slide ways on the two sides, the left side and the right side of the screen glass are bent in the same direction, and the tolerance of the screen glass is observed; through first motor drive crossbearer reciprocating motion, make the screen splint of both sides along the slide reciprocating sliding of both sides, observe screen glass's surface line to confirm screen glass's bending strength, through reciprocal accurate detection screen glass's of bending structural strength.

Secondly, the invention is provided with an impact detection component at the rear side of the workbench, the impact detection component impacts the middle part of the screen glass arranged on the screen clamping plates at the two sides through the fixed pressing pin, the stress condition of the middle part of the screen glass after being impacted by the needle point is observed, the middle part of the screen glass is extruded by simulating hard substances, the structural strength of the screen glass is detected, the second movable plate pushes the second pressing pin sliding in each shaft hole at the middle part of the second side supporting plate to extend forwards, so that the second pressing pin is flush with the top end of the fixed pressing pin, then the second side supporting plate carries out impact test on the screen glass arranged on the screen clamping plates at the two sides, the screen glass is impacted by equally-spaced pressing, the simulated screen glass falls on the ground, the screen glass is pressed by equally-spaced convex hard substances on the ground, and the structural, and then the structural strength of the screen glass is installed and detected.

Thirdly, the invention simulates the impact test after the screen glass is supported by the internal elements of the equipment by arranging the strength supporting component at the front side of the workbench and extending forwards by the left-right sliding table to be flush with the first supporting block to carry out strength support on the right side of the screen glass, presses the screen glass by matching with the fixed pressing needle and the movable pressing needle so as to detect the structural strength of the screen glass, the left-right sliding table can extend and retract in the middle of the first supporting blocks at the two sides, supports the middle part of the screen glass when extending out of the first supporting blocks at the two sides, detects the structural strength of the screen glass by matching with the impact test of the fixed pressing needle, supports one side surface of the screen glass when extending out of the first supporting blocks at the two sides to be flush with the surface of the first supporting block at the two sides, and carries out the impact test on the surface of the screen glass by matching with the fixed pressing needle and the second pressing needle, detect screen glass's structural strength, stretch into inside the first supporting block in both sides through the horizontal slip table, support the both sides of a screen glass side, the cooperation is fixed to press the needle and press with the second and press and carry out the impact test to screen glass's surface, detects screen glass's structural strength, through the support of the different positions of multiple screen glass, improves the precision that detects screen glass mechanical properties.

The screen clamping plates on the two sides slide on the two sides of the workbench in a reciprocating mode, the screen glass is bent in a reciprocating mode from the two sides to the middle of the workbench, bending detection is conducted on the screen glass, through various structural changes of the impact detection assembly, impact tests met by the screen glass in actual use are simulated, the structural strength of the screen glass is detected, through various changes of the strength supporting assembly, the impact detection assembly is matched with the change impact, after the screen glass is installed in the wireless communication equipment, various impact and shake conditions met in actual use are simulated, and therefore mechanical detection of the screen glass before installation is further improved.

The adjusting block of the invention slides left and right on the surface of the screen glass through the two clamping rods, the two clamping rods are supported by the compression springs on the two sides in the sliding process to enable the clamping rods to be tightly contacted with the surface of the screen glass, whether the surface of the screen glass has a raised flaw is detected in the sliding process of the surface of the screen glass by the two clamping rods, when the raised flaw on the surface of the screen glass pushes the clamping rods to slide, the pointer is pushed to slide through the transmission rod, the sliding distance of the pointer below the scale glass is observed, and the size of the raised flaw on the surface of the screen glass is further determined. And then detect screen glass surface finish, blow to screen glass through the air nozzle on the clamping bar of both sides, clean screen glass surface, reduce the error that detects, improve the precision that detects.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a process flow diagram of an intelligent wireless communications device installation detection method of the present invention;

FIG. 2 is a schematic perspective view of an installation detection device for an intelligent wireless communication apparatus according to the present invention;

FIG. 3 is a schematic perspective view of the installation and detection device for an intelligent wireless communication apparatus after the screen glass is removed;

FIG. 4 is a schematic diagram of a rear view of the installation detection device of the intelligent wireless communication device of the present invention;

FIG. 5 is a schematic bottom view of the installation and detection device of the intelligent wireless communication apparatus of the present invention;

FIG. 6 is a schematic bottom view of the installation detection device of the intelligent wireless communication apparatus of the present invention;

FIG. 7 is a schematic view of a top view of the screen glass of the present invention mounted on two side clamping plates;

FIG. 8 is a schematic diagram of a front view of a screen glass of the present invention mounted on a mounting detection device of an intelligent wireless communication apparatus;

FIG. 9 is a schematic view of the crank of the present invention;

FIG. 10 is a schematic cross-sectional view of an adjusting block according to the present invention;

FIG. 11 is a schematic cross-sectional view of another adjusting block of the present invention;

FIG. 12 is a schematic view of the structure of the air nozzle of the present invention on both side screen clamping plates;

in the figure: 1. support legs, 2, a workbench, 3, support rods, 4, a top support plate, 5, a first electric push rod, 6, a lifting table, 7, an adjusting block, 8, a clamping rod, 803, a movable sliding chute, 804, a shaft rod, 805, a transmission cavity, 806, a sliding hinged support, 807, a limiting block, 808, a pointer slideway, 809, graduated glass, 810, a pointer, 811, a pointer sliding hole, 812, a transmission rod, 813, a hinged rod, 814, a compression spring, 9, a second adjusting knob, 10, a screen clamping plate, 11, a sliding block, 12, a slideway, 13, a sliding plate, 14, a telescopic supporting block, 15, a left sliding table, 16, a sliding shaft rod, 17, a second electric push rod, 18, a first side support plate, 19, a first support block, 20, a second support rod, 21, a sliding chute, 22, a second movable plate, 23, a second pressing pin, 24, a third electric push rod, 25, a third push rod, 26 and a second sliding plate, 27. the device comprises a second side supporting plate, 28, a fixed pressing needle, 29, a fourth push rod, 30, a fourth electric push rod, 31, a first motor, 32, a first pin rod, 33, a cross frame, 34, a fifth electric push rod, 35, a fifth push rod, 36, a crank, 3601, a threaded shaft rod, 3602, a fixed block, 3603, an adjusting knob, 37, a second pin rod, 38, a sliding block, 39, a sliding rail, 40, a motor supporting frame, 100, an impact detection assembly, 200 and a strength supporting assembly.

Detailed Description

In order to make the technical means, the creation features, the achievement purposes and the effects of the invention easy to understand, the invention is further described below by combining with the specific drawings, and it is to be noted that the embodiments and the features in the embodiments can be combined with each other in the application without conflict.

Please refer to fig. 1-12, which are schematic structural diagrams illustrating an installation detection method of an intelligent wireless communication device.

An intelligent wireless communication equipment installation detection method, which is used for detecting screen glass of intelligent wireless communication equipment before installation and is specifically completed by matching an intelligent wireless communication equipment installation detection device, the intelligent wireless communication equipment installation detection device comprises a workbench 2 with a horizontal top surface and supporting legs 1 arranged at the bottom end of the workbench 2, two curved slideways 12 are symmetrically arranged in the middle of the top end of the workbench 2, the slideways 12 are arranged in a mirror image manner, a screen clamping plate 10 is arranged on the slideway 12 at each side, a sliding block 11 is arranged at the bottom end of the screen clamping plate 10 at each side, the sliding block 11 at each side is embedded into the corresponding slideway 12 in a sliding fit manner, the screen clamping plates 10 in the slideways 12 at two sides are installed in a mirror image manner, the bottom end of the sliding block 11 at each side passes through the slideway 12 and extends out to the bottom of the workbench 2, a first pin rod 32 is arranged at the bottom end of the sliding block 11 extending out of the bottom of the workbench 2;

the middle parts of the slide ways 12 at the two sides of the bottom of the workbench 2 are provided with slide rails 39, the slide rails 39 are provided with slide blocks 38 in a sliding fit manner, the left side and the right side of each slide block 38 are symmetrically provided with transverse frames 33, the middle parts of the transverse frames 33 at the two sides are provided with through slide holes, and the first pin rods 32 at the bottom ends of the slide blocks 11 at the two sides are embedded in the slide holes at the middle parts of the transverse frames 33 in a sliding connection manner;

the bottom of the workbench 2 is fixedly provided with a first motor 31, the first motor 31 is fixed in the middle of the bottom end of the workbench 2 through a motor support frame 40, the motor support frame 40 is fixedly arranged at the bottom of the workbench 2, the first motor 31 extends upwards to form an output shaft, the top end of the output shaft of the first motor 31 is fixedly provided with a crank 36, the top end of the crank 36 is fixedly provided with a second pin rod 37, and the second pin rod 37 is connected in a sliding hole in the middle of the cross frame 33 in a sliding manner;

the first motor 31 drives the cross frame 33 to slide back and forth along the slide rail 39, the slide blocks 11 at the bottom ends of the screen clamping plates 10 on the two sides are pushed to slide back and forth along the slide rails 12, and when the screen clamping plates 10 clamp glass to be bent through the two curved slide rails 12, the glass is bent along the curved arcs on the two sides of the glass, so that the clamping of the screen glass is improved.

The inner side surfaces of the screen clamping plates 10 on the two sides are symmetrically provided with sunken clamping grooves, the screen glass is vertically arranged at the top end of the workbench 2, and the left side and the right side of the screen glass are fixedly arranged in the clamping grooves of the screen clamping plates 10 on the two sides in a clamping manner;

the left and right sides symmetry on 2 tops of workstation is provided with the bracing piece 3 of standing vertically in 2 tops of workstation, 3 fixed mounting of bracing piece of both sides has a top backup pad 4, spout 21 of a font is seted up at the top middle part of top backup pad 4, spout 21 is the through groove of a font, first electric putter 5 is installed on the top of top backup pad 4 and the left and right sides symmetry that is located spout 21, first electric putter 5 upwards stretches out has first push rod, first push rod top fixed mounting of first electric putter 5 has elevating platform 6, the middle part fixed mounting of elevating platform 6 has regulating block 7, it has two clamp rod 8 to stretch out in the spout 21 to regulating block 7 bottom, interval between two clamp rod 8 is a screen glass's thickness. Promote elevating platform 6 through first electric putter 5 and go up and down, control two lift that press from both sides tight pole 8, the control is to the centre gripping at screen glass middle part, and then improves the simplicity of operation.

The intelligent wireless communication equipment installation detection method; the method specifically comprises the following steps:

s1, mounting of screen glass: vertically installing screen glass on the top end of a workbench 2, and fixedly installing the left side and the right side of the screen glass in clamping grooves of screen clamping plates 10 on the two sides through clamping;

s2, middle support: the middle of the screen glass installed in the clamping groove of the screen clamping plate 10 in the step S1 is supported, the two clamping rods 8 are controlled by the first electric push rod 5 to fall downwards to the middle of the screen glass, and the two clamping rods 8 are symmetrically clamped in the middle of two sides of the screen glass;

s3, bending resistance detection: bending detection is carried out on the screen clamping plates 10 which are fixedly arranged in the step S2, the cross frame 33 is driven to move through the first motor 31, the screen clamping plates 10 on the two sides slide along the slide ways 12 on the two sides, the left side and the right side of the screen glass are bent in the same direction, and the tolerance of the screen glass is observed;

s4, detecting the reciprocating bending resistance: the screen glass bent in the same direction in step S3 is bent in the opposite direction, and the first motor 31 drives the cross frame 33 to reciprocate, so that the screen clamping plates 10 on both sides slide back and forth along the slide rails 12 on both sides, and the surface texture of the screen glass is observed, thereby determining the bending strength of the screen glass.

Specifically, the screen glass is vertically arranged at the top end of the workbench 2, the left side and the right side of the screen glass are fixedly arranged in the clamping grooves of the screen clamping plates 10 at the two sides through clamping, the screen glass is clamped and fixed, the two clamping rods 8 are controlled to fall downwards to the middle of the screen glass through the first electric push rod, the two clamping rods 8 are symmetrically clamped in the middle of the two sides of the screen glass to support the middle of the screen glass, the screen glass is prevented from popping out of the screen clamping plates 10 at the two sides during bending to cause damage to peripheral objects, the safety of screen glass testing is improved, the clamping rods 8 are cylindrical rods, the middle of the screen glass is bent along the outer circular surfaces of the clamping rods 8 during bending, the middle position of the screen glass is clamped through the cylindrical rod structure, and stress support on the bent middle of the screen glass is reduced, the detection accuracy is improved, the cross frame is driven to move by the first motor, the screen clamping plates 10 on the two sides slide along the slide ways 12 on the two sides, the left side and the right side of the screen glass are bent in the same direction, and the tolerance of the screen glass is observed; the cross frame is driven to reciprocate by the first motor, so that the screen clamping plates 10 on the two sides slide along the slide ways 12 on the two sides in a reciprocating mode, surface grains of the screen glass are observed, the bending strength of the screen glass is determined, and the structural strength of the screen glass is accurately detected through reciprocating bending.

The front side of the workbench 2 is provided with a strength support assembly 200, the strength support assembly 200 comprises a sliding plate 13, a first side support plate 18 and a left-right sliding table 15, the sliding plate 13 is horizontally arranged on the front side of the workbench 2, the sliding plate 13 is provided with the first side support plate 18 standing upright on the top end of the sliding plate 13 in a sliding fit manner, the middle part of the first side support plate 18 is arranged on the sliding plate 13 in a sliding fit manner, the bottom end of the workbench 2 is close to the front side and fixedly provided with a fifth electric push rod 34, the fifth electric push rod 34 extends forwards to form a fifth push rod 35, and the top end of the fifth push rod 35 is fixed on the bottom end of;

the middle part of the top end of the first side supporting plate 18 is provided with a yielding groove, the side wall of the first side supporting plate 18 facing the sliding groove 21 direction is symmetrically provided with two raised first supporting blocks 19, the two first supporting blocks 19 are symmetrically arranged at the left side and the right side of the yielding groove, the top ends of the two first supporting blocks 19 are in the same plane, the middle parts of the two first supporting blocks 19 are slidably provided with telescopic supporting blocks 14, the front sides of the telescopic supporting blocks 14 are provided with sliding shaft levers 16, and the shaft levers 16 penetrate through the yielding groove in the middle parts of the first supporting blocks 19 and extend out to the front sides of the first side supporting plates 18;

the front side of the first side supporting plate 18 is symmetrically and fixedly provided with a second electric push rod 17, the second electric push rod 17 extends forwards to form a second push rod, and the top end of the second push rod of the second electric push rod 17 is fixedly arranged on the left-right sliding table 15.

Wherein, through setting up the strength supporting component 200 in the front of the work level 2, stretch out and level with the first supporting block 19 forward through the slide table 15 of the left and right sides, carry on the strength to the right side of the screen glass, simulate the screen glass to install in the wireless communication equipment, the impact test after supporting the screen glass by the internal component of the apparatus, cooperate with fixed pressing pin 28 and activity to press to the screen glass, and then detect the structural strength of the screen glass, the slide table 15 of the left and right sides is scalable in the middle part of the first supporting block 19 of both sides, when the slide table 15 of the left and right sides stretches out of the first supporting block 19 of both sides, support the middle part of the screen glass, cooperate with the impact test of the fixed pressing pin 28, detect the structural strength of the screen glass, when the slide table 15 of the left and right sides stretches out of the first supporting block 19 surface level of both sides, support a side of the screen glass, the fixed needle 28 that presses of cooperation and the second press the needle 23 to carry out bump test to screen glass's surface, detect screen glass's structural strength, stretch into inside the first supporting block 19 in both sides through horizontal sliding stand 15, support the both sides of a screen glass side, the fixed needle 28 that presses of cooperation and the second press the needle 23 to carry out bump test to screen glass's surface, detect screen glass's structural strength, support through the different positions of multiple screen glass, the improvement is to the precision that screen glass mechanical properties detected.

The rear side of the workbench 2 is provided with an impact detection assembly 100, the impact detection assembly 100 comprises a second sliding plate 26, a second side support plate 27 and a second movable plate 22, the second sliding plate 26 is horizontally arranged at the rear side of the workbench 2, the second sliding plate 26 is provided with the second side support plate 27 which is vertically arranged at the top end of the second sliding plate 26 in a sliding fit manner, the middle part of the second side support plate 27 is arranged on the second sliding plate 26 in a sliding fit manner, the bottom end of the workbench 2 close to the rear side is fixedly provided with a fourth electric push rod 30, the fourth electric push rod 30 extends backwards to form a fourth push rod 29, and the top end of the fourth push rod 29 is fixed at the bottom end of the second side support plate;

a fixed pressing needle 28 is fixedly arranged in the middle of the side wall of the second side supporting plate 27 facing the direction of the sliding chute 21, the top end of the fixed pressing needle 28 is in a conical shape, through shaft holes are formed in the middle of the second side supporting plate 27 at equal intervals, a second pressing needle 23 is slidably arranged in each shaft hole in the middle of the second side supporting plate 27, and the front end of each second pressing needle 23 is in a conical structure;

the second movable plate 22 is arranged at the rear side of the second side supporting plate 27, the rear end of the second pressing pin 23 in each axial hole of the second side supporting plate 27 is fixedly installed on the second movable plate 22, the top end of the second movable plate 22 is fixedly installed with a third electric push rod 24, the third electric push rod 24 extends forwards to form a third push rod 25, and the front end of the third push rod 25 is fixedly installed on the second side supporting plate 27.

Specifically, the impact detection assembly 100 is arranged at the rear side of the workbench 2, the impact detection assembly 100 impacts the middle part of the screen glass arranged on the screen clamping plates 10 at two sides through the fixed pressing pin 28, the stress condition of the middle part of the screen glass after being impacted by the needle point is observed, the middle part of the screen glass is extruded by the simulated rigid substance, the structural strength of the screen glass is detected, the second pressing pin 23 sliding in each shaft hole at the middle part of the second side supporting plate 27 is pushed to extend forwards through the second movable plate 22, the second pressing pin 23 is aligned with the top end of the fixed pressing pin 28, the impact test is carried out on the screen glass arranged on the screen clamping plates 10 at two sides through the second side supporting plate 27, the screen glass is impacted by the equally-spaced pressing pins, the simulated screen glass falls, and the screen glass is pressed by the rigid substance protruding at the equal spacing on the ground, and observing the structural strength of the screen glass, and further carrying out installation detection on the structural strength of the screen glass.

Specifically, the strength support assembly 200 is arranged on the front side of the workbench 2, the left and right sliding tables 15 extend forwards to be flush with the first support blocks 19 to support the right side of the screen glass in strength, the screen glass is simulated to be installed in the wireless communication equipment, the impact test after the screen glass is supported by the internal elements of the equipment is carried out, the fixed pressing pin 28 and the movable pressing pin are matched to press the screen glass, so that the structural strength of the screen glass is detected, the left and right sliding tables 15 can stretch in the middle of the first support blocks 19 on the two sides, when the left and right sliding tables 15 extend out of the first support blocks 19 on the two sides, the middle of the screen glass is supported, when the impact test of the fixed pressing pin 28 is matched, the structural strength of the screen glass is detected, when the left and right sliding tables 15 extend out of the first support blocks 19 on the two sides, one side face of the screen glass is supported, the fixed needle 28 that presses of cooperation and the second press the needle 23 to carry out bump test to screen glass's surface, detect screen glass's structural strength, stretch into inside the first supporting block 19 in both sides through horizontal sliding stand 15, support the both sides of a screen glass side, the fixed needle 28 that presses of cooperation and the second press the needle 23 to carry out bump test to screen glass's surface, detect screen glass's structural strength, support through the different positions of multiple screen glass, the improvement is to the precision that screen glass mechanical properties detected.

Specifically, the screen clamping plates 10 on the two sides slide on the two sides of the workbench 2 in a reciprocating mode, the screen glass is bent in a reciprocating mode from the two sides to the middle of the screen glass, bending detection is conducted on the screen glass, an impact test met in practical use of the screen glass is simulated through multiple structural changes of the impact detection assembly 100, the structural strength of the screen glass is detected, and after the screen glass is installed in wireless communication equipment, various impact and shaking conditions met in practical use are simulated through multiple changes of the strength supporting assembly 200 and matched with the change impact of the impact detection assembly 100, so that mechanical detection of the screen glass before installation is further improved.

The crank 36 comprises a threaded shaft rod 3601, a fixing block 3602 and an adjusting knob 3603, wherein the fixing block 3602 is fixed at the top end of an output shaft of the first motor 31, the crank 36 is a movable sliding block, a through threaded hole is formed in the middle of the crank 36, the threaded shaft rod 3601 is connected to the left end of the fixing block 3602 in a clamping mode, the crank 36 is installed on the threaded shaft rod 3601 through the threaded hole, and the adjusting knob 3603 is arranged at the top end of the threaded shaft rod 3601. The crank 36 is slidably connected with a sliding hole in the middle of the cross frame 33 through a second pin rod 37, so that the crank 36 slides along the threaded shaft rod 3601 by rotating the adjusting knob 3603, and the distance between the second pin rod 37 and the output shaft of the first motor 31 is adjusted.

The crank 36 rotates through the threaded shaft rod 3601, and is matched with the crank 36 to be in sliding connection with the sliding hole in the middle of the cross frame 33, so that the crank 36 slides along the threaded shaft rod 3601, the distance between the second pin rod 37 and the output shaft of the first motor 31 is controlled, the reciprocating sliding distance of the screen clamping plates 10 on two sides is controlled, the bending degree of the screen glass is controlled, and the detection of the screen glass is improved.

The adjusting block 7 comprises a movable sliding block 801, a second threaded screw rod 802, a movable sliding chute 803 and a second adjusting knob 9, the movable sliding chute 803 is arranged in the middle of the adjusting block 7, the second threaded screw rod 802 is rotatably connected in the movable sliding chute 803, and one end of the second threaded screw rod 802 extends out of the adjusting block 7;

the top ends of the two clamping rods 8 are symmetrically provided with movable sliding blocks 801, the movable sliding blocks 801 at the top ends of the two clamping rods 8 are arranged in movable sliding grooves 803 in the middle of the adjusting block 7 in a sliding fit mode, and the movable sliding blocks 801 arranged in the movable sliding grooves 803 are connected to a second threaded screw rod 802 through threads.

Wherein, be convenient for adjust the distance between two tight poles of clamp 8 according to screen glass's thickness, improve the centre gripping fastness to screen glass. The clamping rods 8 are arranged to be cylindrical rods, the outer circular surface of each clamping rod 8 is wrapped by the sponge sleeves, the protection on the surface of screen glass is improved, scratches on the surface of the screen glass are reduced, and the installation firmness on the surface of the screen glass is improved.

Example 2

Referring to fig. 11 and fig. 12, another embodiment of the present invention is shown, which has the same points as embodiment 1, and the same points are not described again in this embodiment, but the specific differences are:

the adjusting block 7 comprises a movable sliding chute 803, a shaft rod 804, a transmission cavity 805, a sliding hinged support 806, a limiting block 807, a pointer slideway 808, scale glass 809, a pointer 810, a pointer sliding hole 811, a transmission rod 812, a hinged support 813 and a compression spring 814, wherein the middle part of the adjusting block 7 is provided with the movable sliding chute 803, the middle part of the movable sliding chute 803 is rotatably connected with the shaft rod 804, the top ends of two clamping rods 8 are symmetrically provided with movable sliding blocks 801, the movable sliding blocks 801 are embedded into the movable sliding chute 803 in a sliding fit manner, the two movable sliding blocks 801 extending into the movable sliding chute 803 are arranged on the shaft rod 804 in a sliding fit manner, the middle part of the movable sliding chute 803 is provided with a convex limiting block 807, the width of the limiting block 807 is slightly smaller than the thickness of the screen glass, and the;

the top end of the adjusting block 7 is symmetrically provided with scale glasses 809, a pointer slide rail 808 is arranged below each scale glass 809, a pointer 810 is connected in the pointer slide rail 808 in a sliding way, the middle part of the pointer 810 is provided with a through pointer sliding hole 811,

the bottom of each pointer slide track 808 is provided with a corresponding transmission cavity 805, the top end of each movable sliding block 801 is provided with a sliding hinged support 806, the inner wall of the transmission cavity 805 close to the sliding hinged support 806 is provided with a hinged support rod 813, the sliding hinged support 806 is hinged with a transmission rod 812 through sliding, the middle part of the transmission rod 812 is rotatably connected to the hinged support rod 813, the top end of the transmission rod 812 extends into the pointer slide track 808, and the transmission rod 812 extending into the pointer slide track 808 is connected into a pointer slide hole 811 of the pointer 810 through sliding.

When the chute 21 is arranged to be parallel to the surface of the screen glass, the adjusting block 7 slides left and right along the surface of the screen glass through the two clamping rods 8 on the surface of the screen glass, the clamping rods 8 are supported by the compression springs 814 on two sides in the sliding process, so that the clamping rods 8 are tightly contacted with the surface of the screen glass, the two clamping rods 8 detect whether the surface of the screen glass has a convex flaw in the sliding process of the surface of the screen glass, when the convex flaw on the surface of the screen glass pushes the clamping rods 8 to slide, the pointer 810 is pushed to slide through the transmission rod 812, the sliding distance of the pointer 810 below the scale glass 809 is observed, and the size of the convex flaw on the surface of the screen glass is further determined, the invention arranges the hinge rod 813 on the inner wall of the transmission cavity 805 close to the sliding hinge support 806, and the hinge support is close to the connection end of the transmission rod, when the sliding distance of the clamping rod 8 is small, the pointer 810 slides more sharply in the pointer slide 12808 by being pushed by the transmission rod 812, and the surface finish of the screen glass is detected.

The screen clamping plate 10 comprises a plurality of air nozzles 101 which are arranged on two sides of the clamping groove at equal intervals, and the air blowing direction of each air nozzle 101 is parallel to the surface of the screen glass clamped in the middle of the screen clamping plate 10.

In addition, the working principle of the cooperative motion of the impact detection assembly and the strength support assembly is as follows:

the impact detection assembly 100 impacts the middle part of the screen glass arranged on the screen clamping plates 10 at two sides through the fixed pressing needle 28, observes the stress condition of the middle part of the screen glass after being impacted by the needle point, simulates a hard substance to extrude the middle part of the screen glass, detects the structural strength of the screen glass, the second movable plate 22 pushes the second pressing pin 23 sliding in each shaft hole in the middle of the second side supporting plate 27 to extend forwards, so that the second pressing pin 23 is flush with the top end of the fixed pressing pin 28, the second side supporting plate 27 performs impact test on the screen glass mounted on the screen clamping plates 10 at two sides, the screen glass is impacted by pressing at equal intervals, the screen glass is simulated to fall on the ground, the screen glass is pressed by the hard substances protruding at equal intervals on the ground, the structural strength of the screen glass is observed, and then the structural strength of the screen glass is installed and detected.

The invention carries out strength support on the right side of the screen glass by arranging the strength support component 200 at the front side of the workbench 2, and through the fact that the left and right sliding tables 15 extend forwards to be flush with the first support blocks 19, the simulation screen glass is installed in the wireless communication equipment, and the impact test after the screen glass is supported by the internal elements of the equipment is carried out, the fixed pressing pins 28 are matched to press the screen glass in a movable pressing mode, so as to detect the structural strength of the screen glass, the left and right sliding tables 15 can stretch in the middle of the first support blocks 19 at the two sides, when the left and right sliding tables 15 extend out of the first support blocks 19 at the two sides, the middle of the screen glass is supported, and when the impact test of the fixed pressing pins 28 is matched, the structural strength of the screen glass is detected, when the surfaces of the first support blocks 19 at the two sides of the left and right sliding tables 15 are flush with each other, the fixed needle 28 that presses of cooperation and the second press the needle 23 to carry out bump test to screen glass's surface, detect screen glass's structural strength, stretch into inside the first supporting block 19 in both sides through horizontal sliding stand 15, support the both sides of a screen glass side, the fixed needle 28 that presses of cooperation and the second press the needle 23 to carry out bump test to screen glass's surface, detect screen glass's structural strength, support through the different positions of multiple screen glass, the improvement is to the precision that screen glass mechanical properties detected.

Specifically, the screen clamping plates 10 on the two sides slide on the two sides of the workbench 2 in a reciprocating mode, the screen glass is bent in a reciprocating mode from the two sides to the middle of the screen glass, bending detection is conducted on the screen glass, an impact test met in practical use of the screen glass is simulated through multiple structural changes of the impact detection assembly 100, the structural strength of the screen glass is detected, and after the screen glass is installed in wireless communication equipment, various impact and shaking conditions met in practical use are simulated through multiple changes of the strength supporting assembly 200 and matched with the change impact of the impact detection assembly 100, so that mechanical detection of the screen glass before installation is further improved.

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 given by way of illustration of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (9)

1. The utility model provides an intelligent wireless communication equipment installation detection method, carries out the detection before installing to intelligent wireless communication equipment's screen glass, and this intelligent wireless communication equipment installation detection method specifically adopts an intelligent wireless communication equipment installation detection device cooperation to accomplish, and this intelligent wireless communication equipment installation detection device includes that the top surface is the workstation of horizontal plane, and sets up in the supporting leg of workstation bottom, its characterized in that: the middle part of the top end of the workbench is symmetrically provided with two curved slide ways, the slide ways are arranged in a mirror image manner, the slide way on each side is provided with a screen clamping plate, the bottom end of the screen clamping plate on each side is provided with a sliding block, the sliding block on each side is embedded into the corresponding slide way in a sliding fit manner, the screen clamping plates positioned in the slide ways on the two sides are arranged in a mirror image manner, the bottom end of the sliding block on each side penetrates through the slide way to extend out to the bottom of the workbench, and the bottom end of the sliding block extending out of the bottom of the workbench is provided with a pin rod;

the middle parts of the slideways at the two sides of the bottom of the workbench are provided with slide rails, the slide rails are provided with slide blocks in a sliding fit mode, the left side and the right side of each slide block are symmetrically provided with crossbearers, the middle parts of the crossbearers at the two sides are provided with through slide holes, and pin rods at the bottom ends of the slide blocks at the two sides are embedded into the slide holes at the middle parts of the crossbearers in a sliding connection mode;

the bottom of the workbench is fixedly provided with a first motor, the first motor is fixed in the middle of the bottom end of the workbench through a motor support frame, the motor support frame is fixedly arranged at the bottom of the workbench, the first motor extends upwards to form an output shaft, the top end of the output shaft of the first motor is fixedly provided with a crank, the top end of the crank is fixedly provided with a second pin rod, and the second pin rod is connected in a sliding hole in the middle of the cross frame in a sliding manner;

the inner side surfaces of the screen clamping plates on the two sides are symmetrically provided with sunken clamping grooves, the screen glass is vertically arranged at the top end of the workbench, and the left side and the right side of the screen glass are fixedly arranged in the clamping grooves of the screen clamping plates on the two sides in a clamping manner;

the left and right sides symmetry on workstation top is provided with the bracing piece of standing vertically in the workstation top, both sides bracing piece fixed mounting has a top backup pad, the spout of a font is seted up at the top middle part of top backup pad, the spout is the through groove of a font, the top of top backup pad just is located first electric putter is installed to the left and right sides symmetry of spout, first electric putter upwards stretches out has first push rod, first electric putter's first push rod top fixed mounting has the elevating platform, the middle part fixed mounting of elevating platform has the regulating block, the regulating block bottom to stretch out in the spout has two to press from both sides tight pole, two interval between the tight pole of clamp is a screen glass's thickness.

The intelligent wireless communication equipment installation detection method; the method specifically comprises the following steps:

s1, mounting of screen glass: vertically installing screen glass on the top end of a workbench, and fixedly installing the left side and the right side of the screen glass in clamping grooves of the screen clamping plates on the two sides through clamping;

s2, middle support: the middle of the screen glass installed in the clamping groove of the screen clamping plate in the step S1 is supported, two clamping rods are controlled by a first electric push rod to fall downwards to the middle of the screen glass, and the two clamping rods are symmetrically clamped in the middle of two sides of the screen glass;

s3, bending resistance detection: bending detection is carried out on the screen clamping plates which are fixedly arranged in the step S2, the cross frame is driven to move through the first motor, the left side and the right side of the screen glass are bent to the same direction through the screen clamping plates on the two sides sliding along the slide ways on the two sides, and the tolerance of the screen glass is observed;

s4, detecting the reciprocating bending resistance: and (4) reversely bending the screen glass bent in the same direction in the step (S3), driving the transverse frame to reciprocate through the first motor, enabling the screen clamping plates on the two sides to slide back and forth along the slide ways on the two sides, and observing the surface grains of the screen glass, thereby determining the bending strength of the screen glass.

2. The intelligent wireless communication device installation detection method of claim 1, wherein: the strength support assembly is arranged on the front side of the workbench and comprises a sliding plate, a first side support plate and a left-right sliding table, the sliding plate is horizontally arranged on the front side of the workbench, the first side support plate which is upright at the top end of the sliding plate is arranged on the sliding plate in a sliding fit mode, the middle part of the first side support plate is arranged on the sliding plate in a sliding fit mode, a fifth electric push rod is fixedly arranged at the bottom end of the workbench close to the front side, the fifth electric push rod extends forwards to form a fifth push rod, and the top end of the fifth push rod is fixed at the bottom end of the first side support plate;

the middle of the top end of the first side supporting plate is provided with a abdicating groove, the side wall of the first side supporting plate facing to the sliding groove direction is symmetrically provided with two raised first supporting blocks, the two first supporting blocks are symmetrically arranged at the left side and the right side of the abdicating groove, the top ends of the two first supporting blocks are in the same plane, the middle parts of the two first supporting blocks are slidably provided with telescopic supporting blocks, the front sides of the telescopic supporting blocks are provided with sliding shaft rods, and the shaft rods penetrate through the abdicating groove in the middle parts of the first supporting blocks and extend out to the front sides of the first side supporting plates;

the first side supporting plate is provided with a first electric push rod, the front side of the first side supporting plate is symmetrically and fixedly provided with a second electric push rod, the second electric push rod extends forwards to form a second push rod, and the top end of the second push rod of the second electric push rod is fixedly arranged on the left-right sliding table.

3. The intelligent wireless communication device installation detection method of claim 1, wherein: the rear side of the workbench is provided with an impact detection assembly, the impact detection assembly comprises a second sliding plate, a second side supporting plate and a second movable plate, the second sliding plate is horizontally arranged at the rear side of the workbench, the second side supporting plate which is upright at the top end of the second sliding plate is arranged on the second sliding plate in a sliding fit mode, the middle part of the second side supporting plate is arranged on the second sliding plate in a sliding fit mode, the bottom end of the workbench is close to the rear side and is fixedly provided with a fourth electric push rod, the fourth electric push rod extends backwards and is provided with a fourth push rod, and the top end of the fourth push rod is fixed at the bottom end of the second side supporting plate;

a fixed pressing needle is fixedly arranged in the middle of the side wall of the second side supporting plate facing the sliding groove,

the top end of the fixed pressing needle is arranged to be conical, the middle part of the second side supporting plate is provided with through shaft holes at equal intervals, a second pressing needle is arranged in each shaft hole in the middle part of the second side supporting plate in a sliding mode, and the front end of each second pressing needle is arranged to be conical;

the rear side of the second side supporting plate is provided with a second movable plate, the rear end of a second pressing needle in each shaft hole of the second side supporting plate is fixedly installed on the second movable plate, the top end of the second movable plate is fixedly installed with a third electric push rod, the third electric push rod extends forwards to form a third push rod, and the front end of the third push rod is fixedly installed on the second side supporting plate.

4. The intelligent wireless communication device installation detection method of claim 1, wherein: the crank comprises a threaded shaft rod, a fixed block and an adjusting knob, the fixed block is fixed to the top end of an output shaft of the first motor, the crank is a movable sliding block, a through threaded hole is formed in the middle of the crank, the left end of the fixed block is connected with the threaded shaft rod in a clamping mode, the crank is installed on the threaded shaft rod through the threaded hole, and the adjusting knob is arranged on the top end of the threaded shaft rod.

5. The intelligent wireless communication device installation detection method of claim 1, wherein: the adjusting block comprises a movable sliding block, a second threaded screw rod, a movable sliding groove and a second adjusting knob, the movable sliding groove is formed in the middle of the adjusting block, the second threaded screw rod is connected in the movable sliding groove in a rotating mode, and one end of the second threaded screw rod extends out of the adjusting block;

the movable sliding blocks at the top ends of the two clamping rods are symmetrically arranged in a movable sliding groove in the middle of the adjusting block in a sliding fit mode, and the movable sliding blocks arranged in the movable sliding groove are connected to the second threaded screw rod through threads.

6. The intelligent wireless communication device installation detection method of claim 1, wherein: the clamping rods are cylindrical rods, and the outer circular surface of each clamping rod is wrapped with a sponge sleeve.

7. The intelligent wireless communication device installation detection method of claim 1, wherein: the adjusting block comprises a movable sliding chute, a shaft lever, a transmission cavity, a sliding hinged support, a limiting block, a pointer slide way, scale glass, a pointer slide hole, a transmission rod, a hinge support rod and a compression spring, the middle part of the adjusting block is provided with the movable sliding chute, the middle part of the movable sliding chute is rotatably connected with the shaft lever, the top ends of the two clamping rods are symmetrically provided with movable sliding blocks, the movable sliding blocks are embedded into the movable sliding chute in a sliding fit mode, the two movable sliding blocks extending into the movable sliding chute are installed on the shaft lever in a sliding fit mode, the middle part of the movable sliding chute is provided with the protruding limiting block, the width of the limiting block is slightly smaller than the thickness of the screen glass, and the compression springs are;

the scale glass is installed to regulating block top symmetry, each the pointer slide has been seted up to scale glass below, there is the pointer through sliding connection in the pointer slide, the pointer sliding hole that link up is seted up at the pointer middle part.

8. Each corresponding transmission chamber has been seted up to pointer slide bottom, each movable sliding block top is provided with the slip hinged-support, is close to in the slip hinged-support the transmission intracavity wall is equipped with hinge branch, the slip hinged-support articulates through sliding has the transfer line, the transfer line middle part is rotated and is connected on hinge branch, the transfer line top stretches into in the pointer slide, stretches into in the pointer slide the transfer line passes through sliding connection in the pointer slide of pointer.

9. The intelligent wireless communication device installation detection method of claim 1, wherein: the screen splint include equidistant a plurality of air nozzle of locating the draw-in groove both sides, each the air nozzle blow the direction and the screen glass surface parallel of joint in the screen splint middle part.

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