CN114777627A - Glass flatness check out test set - Google Patents

Abstract

The invention relates to flatness inspection equipment, in particular to glass flatness inspection equipment. The invention aims to provide glass flatness inspection equipment capable of detecting glass flatness in multiple directions. A glass flatness inspection device comprises a support frame, a support rod, a placing plate, a graduated scale, a shell and the like; the bracing piece all is connected with to the support frame top left and right sides, and the support frame top is equipped with places the board, is connected with the scale between two spinal branch vaulting pole tops, and the gliding style is equipped with the casing on the scale. The third screw rod is rotated to drive the glass to move forwards or backwards, the position of the glass is adjusted, so that the glass can be detected in multiple directions, the second gear rotates to drive the marking frame to move downwards, the marking frame is contacted with the glass, the position, with unqualified flatness, of the glass is encircled by the marking frame to be marked, and the subsequent position, with unqualified flatness, of the glass can be conveniently processed by people.

Description

Glass flatness check out test set

Technical Field

The invention relates to flatness inspection equipment, in particular to glass flatness inspection equipment.

Background

The glass has the characteristics of wind insulation and light transmission, is widely applied to the fields of buildings, medical treatment and the like, and needs to detect the flatness of the glass and judge the quality of the glass in the production process of the glass.

The patent with the application number of CN202020600311.2 discloses a detection device for rapidly detecting the flatness of glass, which comprises a support, a workbench, a support plate, a lubricating mechanism and a convenient mechanism, wherein a lead screw is arranged on the surface of one side of the support plate, a nut is arranged outside the lead screw, the lubricating mechanism is positioned in a gap between the lead screw and the nut, and the lubricating mechanism comprises a threaded sleeve; this check out test set is through the threaded sleeve who sets up, effectively avoided the device to use the back for a long time, nut on the device is long time up-and-down motion on the lead screw, frictional force can increase, be favorable to the nut to be can lubricate when the oscilaltion motion is done on the lead screw, can be high-efficient, accomplish check out test set altitude mixture control's operation fast, the detection efficiency of device has been improved greatly, but this check out test set's splint have cliied glass, glass's position is unadjustable, thereby be difficult to carry out the plane degree to every position of glass and detect, there is the position of omitting.

There is a need to design an apparatus capable of detecting flatness of glass in multiple directions in view of the disadvantages of the prior art.

Disclosure of Invention

The invention aims to overcome the defects that the existing detection equipment is difficult to detect the flatness of each position of glass and has missing positions, and provides glass flatness inspection equipment capable of detecting the flatness of the glass in multiple directions.

The technical scheme is as follows: a glass flatness inspection device comprises a support frame, support rods, a placing plate, a graduated scale, a shell, a first pointer, a second pointer, a limiter, a first torsion spring, a first gear, a contact rod, a first tension spring, a rack, a fixing ring, a detector moving mechanism, a lifting moving mechanism and a horizontal position moving mechanism, wherein the support rods are connected to the left side and the right side of the top of the support frame, the placing plate is arranged above the support frame, the graduated scale is connected between the top ends of the two support rods, the graduated scale is slidably provided with the shell, the left side of the shell is connected with the first pointer, the middle part of the shell is rotatably connected with the second pointer, the rear end of the second pointer is connected with the limiter, the first torsion spring is connected between the front side of the limiter and the rear side of the shell, the first torsion spring is wound on the second pointer, the middle part of the second pointer is provided with the first gear, and the rack is slidably arranged in the shell, rack and first gear engagement, around there being first tension spring on the rack, first tension spring's both ends respectively with casing and rack connection, the rack bottom is connected with the contact link, the casing bottom is connected with solid fixed ring, the contact link passes solid fixed ring, the detector moving mechanism is installed to the scale rear side, detector moving mechanism is used for moving the casing, install lift moving mechanism on the bracing piece, lift moving mechanism with place the board and connect, lift moving mechanism is used for adjusting glass's height, place the board bottom and install level moving mechanism, level moving mechanism is used for adjusting glass's position.

As the improvement of the scheme, the detector moving mechanism comprises a slider, a first screw device, a first lead screw and a first rotating wheel, the slider is connected to the rear side of the shell and is connected with the graduated scale in a sliding mode, the first screw device is connected to the rear side of the slider, the first lead screw is connected to the rear side of the graduated scale in a rotating mode, the first lead screw is connected with the first screw device in a threaded mode, and the first rotating wheel is connected to the right end of the first lead screw.

As the improvement of above-mentioned scheme, lift moving mechanism is including the slide rail, the second screw ware, the second lead screw, bevel gear subassembly and second runner, two bracing piece lower parts all slidingtype are equipped with the second screw ware, the equal slidingtype of second screw ware inboard is equipped with the slide rail, place the board and connect between two slide rails, left second screw ware is gone up the screw thread formula and is equipped with the second lead screw, left bracing piece middle part rotary type is connected with the second runner, be equipped with bevel gear subassembly between second runner right-hand member and the second lead screw top.

As the improvement of the scheme, the horizontal position moving mechanism comprises a first connecting block, a connecting plate, a connecting block, a third screw device and a third screw rod, the lower part of a left supporting rod is connected with the first connecting block, the first connecting block is positioned below the left second screw device, the bottom end of the second screw rod is connected with the first connecting block in a rotating mode, the left side of the bottom of the placing plate is connected with the connecting plate, the middle part of the connecting plate is connected with the connecting block, the bottom of the connecting block is connected with the third screw device, the right side of the first connecting block is connected with the third screw rod in a rotating mode, and the third screw rod is in threaded connection with the third screw device.

As the improvement of the scheme, the device further comprises a pointer deviation fixing mechanism, the pointer deviation fixing mechanism is used for fixing the position of a second pointer, the pointer deviation fixing mechanism comprises fixing rods, a pulling device, a first magnet, a limiting rod and a second tension spring, the right side of the shell is connected with the two fixing rods, the pulling device is arranged between the two fixing rods in a sliding mode, the bottom of the pulling device is connected with the first magnet, the limiting rod is arranged on the rear side of the shell in a sliding mode, the lower portion of the limiting rod is connected with the rear side of the pulling device, the top end of the limiting rod is in contact with the limiting device, clamping grooves are formed in the left side and the right side of the limiting device, the lower portion of the limiting rod is wound with the second tension spring, and the two ends of the second tension spring are connected with the limiting rod and the shell respectively.

As the improvement of above-mentioned scheme, still including magnet anti-skidding mechanism, magnet anti-skidding mechanism is used for fixed first runner, magnet anti-skidding mechanism is including the pivot, the second gear, magnet frame and second torsion spring, casing rear side rotation type is connected with the pivot, the pivot is located the right side of gag lever post, the second gear is installed at the pivot rear portion, gag lever post rebound can with the contact of second gear, the pivot front portion is connected with the magnet frame, magnet frame upswing can adsorb on the scale, the pivot front portion is around there being second torsion spring, second torsion spring's both ends respectively with pivot and shell connection.

As the improvement of the scheme, the glass surface marking device further comprises a marking mechanism, the marking mechanism can circle positions, with unqualified flatness, on the glass surface, the marking mechanism comprises a linking rod, a marking frame, a third tension spring and a second linking block, the rear side of a second gear is rotatably connected with the linking rod, the outer side of a fixing ring is connected with the three second linking blocks, the marking frame is arranged between the three second linking blocks in a sliding mode, the upper portion of the marking frame is rotatably connected with the lower portion of the linking rod, the upper portion of the marking frame is wound with the two third tension springs, and two ends of the third tension spring are respectively connected with the marking frame and the second linking block.

As the improvement of above-mentioned scheme, still including adding the seal mechanism, it can deepen the mark that the mark frame was done to add the seal mechanism, it is including the fixed block to add the seal mechanism, beat the ware, fourth tension spring and second magnet, casing right side sub-unit connection has the fixed block, the fixed block right part slidingtype is equipped with beats the ware, beat ware bottom and mark frame contact, it is connected with the second magnet to beat the ware top, second magnet and first magnet adsorb each other, it has fourth tension spring to beat ware upper portion around, the both ends of fourth tension spring are connected with fixed block and second magnet respectively.

The beneficial effects are that:

1. the third screw rod is rotated to drive the glass to move forwards or backwards, and the position of the glass is adjusted, so that the glass can be detected in multiple directions.

2. When the second pointer rotated, if one of them draw-in groove on gag lever post and the stopper corresponds, the gag lever post can insert in this draw-in groove, the position of fixed second pointer, and the second pointer can't continue to rotate, so can arouse people's attention, avoids people to ignore the unqualified position of plane degree on the glass.

3. When the gag lever post rebound, can drive magnet frame luffing motion, magnet frame can adsorb on the scale, makes first runner can't continue to rotate, this moment, contact lever just with glass go up the unqualified position contact of plane degree, so can avoid people's misoperation to continue to rotate first runner and lead to contact lever from glass go up the unqualified position of plane degree and remove.

4. The second gear wheel rotates to drive the marking frame to move downwards, the marking frame is in contact with the glass, the position of the glass, which is unqualified in flatness, is surrounded by the marking frame to be marked, and people can conveniently process the position, which is unqualified in flatness, of the glass subsequently.

5. The gag lever post can drive and beat the ware rebound, and when second magnet and first magnet broke away from, the ware of beating can be fast downstream under fourth tension spring's effect, and the ware of beating beats the mark frame for the mark that the mark frame was done is more obvious.

Drawings

Fig. 1 is a schematic perspective view of a first embodiment of the present invention.

Fig. 2 is a schematic perspective view of a second embodiment of the present invention.

Fig. 3 is a third perspective view of the present invention.

FIG. 4 is a schematic view of a first partial body structure according to the present invention.

Fig. 5 is a schematic diagram of a second partial body structure according to the present invention.

Fig. 6 is a perspective view of a third embodiment of the present invention.

Fig. 7 is a schematic perspective view of the detector moving mechanism according to the present invention.

Fig. 8 is a schematic perspective view of the elevating and moving mechanism of the present invention.

Fig. 9 is a schematic perspective view of the horizontal displacement mechanism of the present invention.

Fig. 10 is a schematic perspective view of a first embodiment of the fixing mechanism for indicating needle deviation according to the present invention.

Fig. 11 is a schematic perspective view of a second kind of pointer deviation fixing mechanism of the present invention.

Fig. 12 is a schematic perspective view of the magnet anti-slip mechanism of the present invention.

Fig. 13 is a schematic perspective view of a marking mechanism according to the present invention.

Fig. 14 is a schematic perspective view of a first printing mechanism of the present invention.

FIG. 15 is a schematic perspective view of a second embodiment of the imprinting mechanism of the present invention.

In the reference symbols: 1_ support frame, 2_ support bar, 21_ placement plate, 3_ scale, 4_ housing, 5_ first hand, 6_ second hand, 7_ stopper, 8_ first torsion spring, 9_ first gear, 10_ contact bar, 101_ first tension spring, 102_ rack, 11_ fixing ring, 12_ detector moving mechanism, 121_ slider, 122_ first screw, 123_ first screw, 124_ first rotating wheel, 13_ lifting moving mechanism, 131_ slide rail, 132_ second screw, 133_ second screw, 134_ bevel gear assembly, 135_ second rotating wheel, 14_ horizontal moving mechanism, 141_ first engaging block, 142_ connecting plate, 143_ connecting block, 144_ third screw, 145_ third screw, 15_ needle deflection fixing mechanism, 151_ fixing bar, 152_ puller, 153_ first magnet, 154_ stopper bar, 155_ second tension spring, 16_ magnet anti-slip mechanism, 161_ spindle, 162_ second gear, 163_ magnet holder, 164_ second torsion spring, 17_ marking mechanism, 171_ engagement rod, 172_ marking holder, 173_ third tension spring, 174_ second engagement block, 18_ printing mechanism, 181_ fixed block, 182_ rapper, 183_ fourth tension spring, 184_ second magnet.

Detailed Description

The invention is described in detail below with reference to the figures and the embodiments.

Example 1

A glass flatness inspection device is shown in figures 1-9 and comprises a support frame 1, a support rod 2, a placing plate 21, a graduated scale 3, a shell 4, a first pointer 5, a second pointer 6, a stopper 7, a first torsion spring 8, a first gear 9, a contact rod 10, a first tension spring 101, a rack 102, a fixing ring 11, a detector moving mechanism 12, a lifting moving mechanism 13 and a horizontal position moving mechanism 14, wherein the left side and the right side of the top of the support frame 1 are connected with the support rod 2 through bolts, the placing plate 21 is arranged above the support frame 1, the graduated scale 3 is connected between the top ends of the two support rods 2, the bottom of the graduated scale 3 is made of iron, the graduated scale 3 is provided with a shell 4 in a sliding manner, the upper part of the front side of the shell 4 is provided with scales, the left side of the shell 4 is connected with the first pointer 5, the middle part of the shell 4 is connected with the second pointer 6 through a bearing, the rear end of the second pointer 6 is connected with the stopper 7, the limiting stopper 7 is a limiting stopper, a first torsion spring 8 is connected between the front side of the limiting stopper 7 and the rear side of the shell 4, the first torsion spring 8 is wound on the second pointer 6, a first gear 9 is installed in the middle of the second pointer 6, a rack 102 is arranged in the shell 4 in a sliding mode, the rack 102 is meshed with the first gear 9, a first tension spring 101 is wound on the rack 102, one end of the first tension spring 101 is connected with the shell 4, the other end of the first tension spring 101 is connected with the rack 102, the bottom end of the rack 102 is connected with a contact rod 10, a fixing ring 11 is connected to the bottom of the shell 4, the contact rod 10 penetrates through the fixing ring 11, a detector moving mechanism 12 for moving the shell 4 is installed on the rear side of the graduated scale 3, a lifting moving mechanism 13 for adjusting the height of glass is installed on the support rod 2, the lifting moving mechanism 13 is connected with a placing plate 21, and a horizontal moving mechanism 14 for adjusting the position of the glass is installed at the bottom of the placing plate 21.

As shown in fig. 1 and 7, the detector moving mechanism 12 includes a slider 121, a first screw 122, a first lead screw 123 and a first rotating wheel 124, the slider 121 is connected to the rear side of the housing 4, the slider 121 is a slider, the slider 121 is slidably connected to the scale 3, the first screw 122 is connected to the rear side of the slider 121, the first screw 122 is a nut, the first lead screw 123 is connected to the rear side of the scale 3 through a bearing, the first lead screw 123 is in threaded connection with the first screw 122, and the first rotating wheel 124 is connected to the right end of the first lead screw 123.

As shown in fig. 1 and 8, the lifting moving mechanism 13 includes a sliding rail 131, a second screw device 132, a second lead screw 133, a bevel gear assembly 134 and a second rotating wheel 135, the second screw device 132 is slidably disposed at the lower portion of each of the two support rods 2, the second screw device 132 is a nut, the sliding rail 131 is slidably disposed at the inner side of the second screw device 132, the placing plate 21 is connected between the two sliding rails 131 through bolts, the second lead screw 133 is threadedly disposed on the second screw device 132 on the left side, the second rotating wheel 135 is connected to the middle portion of the support rod 2 on the left side through a bearing, the bevel gear assembly 134 is disposed between the right end of the second rotating wheel 135 and the top end of the second lead screw 133, the bevel gear assembly 134 is composed of two bevel gears, and one bevel gear is mounted at the right end of the second rotating wheel 135 and the top end of the second lead screw 133 and the two bevel gears are engaged with each other.

As shown in fig. 1 and 9, the horizontal moving mechanism 14 includes a first engaging block 141, a connecting plate 142, a connecting block 143, a third screw device 144, and a third screw 145, the first engaging block 141 is connected to a lower portion of the left supporting rod 2, the first engaging block 141 is located below the left second screw device 132, a bottom end of the second screw 133 is rotatably connected to the first engaging block 141, the connecting plate 142 is connected to a left side of a bottom of the placing plate 21 through a bolt, the connecting block 143 is connected to a middle portion of the connecting plate 142 through a bolt, the third screw device 144 is connected to a bottom of the connecting block 143, the third screw device 144 is a nut, the third screw 145 is connected to a right side of the first engaging block 141 through a bearing, and the third screw device 145 is threadedly connected to the third screw device 144.

When people put glass on the placing plate 21 and then rotate the third screw 145 to adjust the position of the glass, people rotate the third screw 145, the third screw 145 drives the third screw 144 to move forward, the third screw 144 drives the connecting block 143 to move forward, the connecting block 143 drives the connecting plate 142 to move forward, the connecting plate 142 drives the placing plate 21 to move forward, thereby driving the glass to move forward, the third screw 145 rotates reversely, the third screw 145 drives the third screw 144 to move backward, the third screw 144 drives the placing plate 21 to move backward, thereby driving the glass to move backward, adjusting the position of the glass, thereby facilitating the flatness detection of each position of the glass, after adjusting the position of the glass, people stop rotating the third screw 145, then rotate the second rotating wheel 135, the second rotating wheel 135 drives the second screw 133 to rotate through the bevel gear assembly 134, the second screw 133 drives the second screw 132 on the left side to move upward, the left second screw device 132 drives the left slide rail 131 to move upwards, the left slide rail 131 drives the placing plate 21 to move upwards, thereby driving the glass to move upwards, when the glass moves upwards and contacts with the contact rod 10, the contact rod 10 and the rack 102 move upwards slightly, the first tension spring 101 compresses slightly, people stop rotating the second rotating wheel 135, then the first rotating wheel 124 rotates, the first rotating wheel 124 drives the first lead screw 123 to rotate, the first lead screw 123 drives the first screw device 122 to move leftwards, the first screw device 122 drives the slider 121 to move leftwards, the slider 121 drives the housing 4 to move leftwards, the housing 4 drives the rack 102 and the contact rod 10 to move leftwards, the contact rod 10 moves on the glass, under the action of the first tension spring 101, the contact rod 10 continuously moves upwards and downwards on the glass, the contact rod 10 drives the rack 102 to move upwards and downwards, the rack 102 drives the first gear 9 to rotate forwards and backwards alternately, the first gear 9 drives the second pointer 6 and the limiter 7 to rotate forward and backward alternately, the first torsion spring 8 is continuously deformed and reset, people can judge the rotating angle of the second pointer 6 through the shell 4, and further judge whether the flatness of the contact position of the current contact rod 10 and the glass is qualified, meanwhile, the shell 4 can drive the first pointer 5 to move leftwards, people can remember the position of the glass with unqualified flatness through the position of the first pointer 5 on the graduated scale 3, when the contact rod 10 moves leftwards to the end of the left side of the glass, people stop rotating the first rotating wheel 124, then reversely rotate the second rotating wheel 135, the second rotating wheel 135 drives the second screw rod 133 to rotate reversely through the bevel gear component 134, the second screw rod 133 drives the second screw device 132 on the left side to move downwards, thereby driving the glass to move downwards, and when the glass is not contacted with the contact rod 10, the person stops rotating the second lead screw 133 and then reversely rotates the first pulley 124, the first pulley 124 drives the first lead screw 123 to reversely rotate, the first lead screw 123 drives the first screw 122 to move rightwards, thereby driving the contact lever 10 to move rightwards, and when the contact lever 10 moves rightwards to the initial position, the person stops rotating the first pulley 124.

Example 2

On the basis of embodiment 1, as shown in fig. 10, the device further includes a pointer deviation fixing mechanism 15, the pointer deviation fixing mechanism 15 includes two fixing rods 151, a pulling device 152, a first magnet 153, a limiting rod 154 and a second tension spring 155, the right side of the housing 4 is connected with the two fixing rods 151, the two fixing rods 151 are symmetrically arranged in the front-back direction, the pulling device 152 is slidably arranged between the two fixing rods 151, the pulling device 152 is a pulling block, the bottom of the pulling device 152 is connected with the first magnet 153, the rear side of the housing 4 is slidably provided with the limiting rod 154, the lower portion of the limiting rod 154 is connected with the rear side of the pulling device 152, the top end of the limiting rod 154 is in contact with the limiting device 7, the left side and the right side of the limiting device 7 are both provided with clamping grooves, the lower portion of the limiting rod 154 is wound with the second tension spring 155, one end of the second tension spring 155 is connected with the limiting rod 154, and the other end of the second tension spring 155 is connected with the housing 4.

Initially, the second tension spring 155 is in a stretching state, when the second pointer 6 rotates, the second pointer 6 drives the stopper 7 to rotate, when the limiting rod 154 corresponds to one of the clamping grooves on the stopper 7, it is described that the flatness of the position where the current contact rod 10 contacts the glass is not qualified, the limiting rod 154 moves upwards under the action of the second tension spring 155, the limiting rod 154 is inserted into the clamping groove, the position of the stopper 7 is fixed, and therefore the position of the second pointer 6 is fixed, and the second pointer 6 cannot continue to rotate, so that attention of people can be drawn, people are prevented from neglecting the position where the flatness on the glass is not qualified, the limiting rod 154 is pulled to move downwards, the limiting rod 154 is made to move out of the clamping groove, the stopper 7 rotates under the action of the first tension spring 8, and the second tension spring 155 stretches.

As shown in fig. 2, fig. 11 and fig. 12, the anti-slip magnet device further includes an anti-slip magnet device 16, the anti-slip magnet device 16 includes a rotating shaft 161, a second gear 162, a magnet holder 163 and a second torsion spring 164, the rear side of the housing 4 is connected to the rotating shaft 161 through a bearing, the rotating shaft 161 is located on the right side of the limiting rod 154, the second gear 162 is keyed to the rear portion of the rotating shaft 161, teeth are disposed in the middle of the limiting rod 154, the limiting rod 154 moves upwards to contact the second gear 162, the magnet holder 163 is connected to the front portion of the rotating shaft 161, the magnet holder 163 swings upwards to be attached to the scale 3, a second torsion spring 164 is wound around the front portion of the rotating shaft 161, one end of the second torsion spring 164 is connected to the rotating shaft 161, and the other end of the second torsion spring 164 is connected to the housing 4.

When the limiting rod 154 moves upward, the teeth on the limiting rod 154 contact with the second gear 162, the limiting rod 154 drives the second gear 162 to rotate, the second gear 162 drives the magnet frame 163 to swing upward through the rotating shaft 161, the magnet frame 163 swings upward and is attached to the scale 3, so that the housing 4 cannot move further, and the first wheel 124 cannot rotate any more, the second torsion spring 164 is twisted, at this time, the contact rod 10 just contacts with the position on the glass where the flatness is not qualified, this prevents the contact bar 10 from being moved from a position on the glass where it is out of flatness by continued improper operation of the first wheel 124, when the limiting rod 154 moves downwards, the limiting rod 154 is not in contact with the second gear 162, the second gear 162 rotates in the opposite direction under the action of the second torsion spring 164, the second gear 162 drives the magnet frame 163 to swing downwards through the rotating shaft 161, and the magnet frame 163 is separated from the scale 3.

As shown in fig. 4 and 13, the marking mechanism 17 further includes a marking mechanism 17, the marking mechanism 17 includes a joint rod 171, a marking frame 172, a third tension spring 173 and a second joint block 174, the joint rod 171 is rotatably connected to a rear side of the second gear 162 at an eccentric position, three second joint blocks 174 are connected to an outer side of the fixing ring 11, the marking frame 172 is slidably disposed between the three second joint blocks 174, an upper portion and a lower portion of the marking frame 172 are both circular, an upper portion of the marking frame 172 is rotatably connected to a lower portion of the joint rod 171, two third tension springs 173 are wound around an upper portion of the marking frame 172, one end of each third tension spring 173 is connected to the marking frame 172, and the other end of each third tension spring 173 is connected to the second joint block 174.

When the second gear 162 rotates, the second gear 162 drives the marking frame 172 to move downwards through the connecting rod 171, the third tension spring 173 is compressed, the marking frame 172 contacts with the glass, the marking frame 172 circles the position of the glass with unqualified flatness to mark, people can conveniently process the position of the glass with unqualified flatness subsequently, when the second gear 162 rotates reversely, the second gear 162 drives the marking frame 172 to move upwards through the connecting rod 171 to reset, the marking frame 172 does not contact with the glass, and the third tension spring 173 restores the original state.

As shown in fig. 4, 14 and 15, the printing mechanism 18 is further included, the printing mechanism 18 includes a fixing block 181, a rapping device 182, a fourth tension spring 183 and a second magnet 184, the fixing block 181 is connected to the lower portion of the right side of the housing 4 through a bolt, the rapping device 182 is slidably disposed on the right portion of the fixing block 181, the rapping device 182 is a rapping rod, the bottom end of the rapping device 182 is in contact with the marking frame 172, the second magnet 184 is connected to the top end of the rapping device 182, the second magnet 184 and the first magnet 153 are attracted to each other, the fourth tension spring 183 is wound on the upper portion of the rapping device 182, one end of the fourth tension spring 183 is connected to the fixing block 181, and the other end of the fourth tension spring 183 is connected to the second magnet 184.

When the limiting rod 154 moves upwards, the limiting rod 154 drives the puller 152 and the first magnet 153 to move upwards, the first magnet 153 drives the second magnet 184 to move upwards, the second magnet 184 drives the knocker 182 to move upwards, the fourth tension spring 183 stretches, when the fourth tension spring 183 stretches to the limit, the second magnet 184 is separated from the first magnet 153, the second magnet 184 moves downwards rapidly under the action of the fourth tension spring 183, the knocker 182 moves downwards rapidly, the knocker 182 knocks the mark frame 172, marks made by the mark frame 172 are more obvious, when the limiting rod 154 moves downwards, the limiting rod 154 drives the puller 152 and the first magnet 153 to move downwards, and the first magnet 153 and the second magnet 184 are attracted again.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and amendments can be made without departing from the principle of the present invention, and these modifications and amendments should also be considered as the protection scope of the present invention.

Claims (8)

1. A glass flatness inspection device comprises a support frame (1), support rods (2), a placing plate (21), a graduated scale (3), a shell (4), a first pointer (5), a second pointer (6), a stopper (7), a first torsion spring (8), a first gear (9), a contact rod (10), a first tension spring (101), a rack (102) and a fixing ring (11), wherein the support rods (2) are connected to the left and right sides of the top of the support frame (1), the placing plate (21) is arranged above the support frame (1), the graduated scale (3) is connected between the top ends of the two support rods (2), the shell (4) is arranged on the upper sliding way of the graduated scale (3), the first pointer (5) is connected to the left side of the shell (4), the second pointer (6) is rotatably connected to the middle of the shell (4), the stopper (7) is connected to the rear end of the second pointer (6), a first torsion spring (8) is connected between the front side of the stopper (7) and the rear side of the shell (4), the first torsion spring (8) is wound on the second pointer (6), a first gear (9) is installed in the middle of the second pointer (6), a rack (102) is arranged in the shell (4) in a sliding mode, the rack (102) is meshed with the first gear (9), a first tension spring (101) is wound on the rack (102), two ends of the first tension spring (101) are respectively connected with the shell (4) and the rack (102), the bottom end of the rack (102) is connected with a contact rod (10), the bottom of the shell (4) is connected with a fixing ring (11), the contact rod (10) penetrates through the fixing ring (11), the detector moving mechanism (12), the lifting moving mechanism (13) and a horizontal position moving mechanism (14) are further included, a detector moving mechanism (12) is installed on the rear side of the graduated scale (3), the detector moving mechanism (12) is used for moving the shell (4), the lifting moving mechanism (13) is installed on the supporting rod (2), the lifting moving mechanism (13) is connected with the placing plate (21), the lifting moving mechanism (13) is used for adjusting the height of the glass, the horizontal position moving mechanism (14) is installed at the bottom of the placing plate (21), and the horizontal position moving mechanism (14) is used for adjusting the position of the glass.

2. A glass flatness inspecting apparatus according to claim 1, wherein the detector moving mechanism (12) includes a slider (121), a first screw (122), a first lead screw (123) and a first rotating wheel (124), the slider (121) is connected to a rear side of the housing (4), the slider (121) is slidably connected to the scale (3), the first screw (122) is connected to a rear side of the slider (121), the first lead screw (123) is rotatably connected to a rear side of the scale (3), the first lead screw (123) is screw-connected to the first screw (122), and the first rotating wheel (124) is connected to a right end of the first lead screw (123).

3. The glass flatness inspection apparatus according to claim 2, wherein the elevating and moving mechanism (13) comprises a sliding rail (131), a second screw device (132), a second screw rod (133), a bevel gear assembly (134) and a second rotating wheel (135), the second screw device (132) is slidably disposed at the lower portion of each of the two support rods (2), the sliding rail (131) is slidably disposed at the inner side of the second screw device (132), the placing plate (21) is connected between the two sliding rails (131), the second screw rod (133) is threadedly disposed on the second screw device (132) at the left side, the second rotating wheel (135) is rotatably connected at the middle portion of the support rod (2) at the left side, and the bevel gear assembly (134) is disposed between the right end of the second rotating wheel (135) and the top end of the second screw rod (133).

4. A glass flatness detecting apparatus according to claim 3, wherein the horizontal position moving mechanism (14) includes a first engaging block (141), a connecting plate (142), connecting block (143), third screw ware (144) and third lead screw (145), left bracing piece (2) sub-unit connection has first link up piece (141), first link up piece (141) are located the below of left side second screw ware (132), second lead screw (133) bottom and first link up piece (141) rotary type are connected, it is connected with connecting plate (142) to place board (21) bottom left side, connecting plate (142) middle part is connected with connecting block (143), connecting block (143) bottom is connected with third screw ware (144), first link up piece (141) right side rotary type is connected with third lead screw (145), third lead screw (145) and third screw ware (144) screw formula are connected.

5. The glass flatness inspection device according to claim 4, further comprising a pointer deviation fixing mechanism (15), wherein the pointer deviation fixing mechanism (15) is used for fixing the position of the second pointer (6), the pointer deviation fixing mechanism (15) comprises a fixing rod (151), a pulling device (152), a first magnet (153), a limiting rod (154) and a second tension spring (155), the right side of the housing (4) is connected with the two fixing rods (151), the pulling device (152) is slidably arranged between the two fixing rods (151), the bottom of the pulling device (152) is connected with the first magnet (153), the rear side of the housing (4) is slidably provided with the limiting rod (154), the lower part of the limiting rod (154) is connected with the rear side of the pulling device (152), the top end of the limiting rod (154) is in contact with the limiting device (7), the left side and the right side of the limiting device (7) are both provided with clamping grooves, the lower part of the limiting rod (154) is wound with a second tension spring (155), and two ends of the second tension spring (155) are respectively connected with the limiting rod (154) and the shell (4).

6. A glass flatness detecting apparatus according to claim 5, further comprising a magnet anti-slip mechanism (16), the magnet anti-slip mechanism (16) being for fixing the first rotary wheel (124), the magnet anti-slip mechanism (16) comprising a rotary shaft (161), a second gear (162), magnet frame (163) and second torsion spring (164), casing (4) rear side rotation formula is connected with pivot (161), pivot (161) are located the right side of gag lever post (154), second gear (162) are installed to pivot (161) rear portion, gag lever post (154) rebound can contact with second gear (162), pivot (161) front portion is connected with magnet frame (163), magnet frame (163) upswing can be adsorbed on scale (3), pivot (161) front portion is around having second torsion spring (164), the both ends of second torsion spring (164) are connected with pivot (161) and casing (4) respectively.

7. A glass flatness detecting apparatus according to claim 6, further comprising a marking means (17), the marking means (17) being capable of circling positions of the glass where flatness is not acceptable, the marking means (17) comprising a joint bar (171), a marking holder (172), the rear side of the second gear (162) is rotatably connected with a connecting rod (171), the outer side of the fixing ring (11) is connected with three second connecting blocks (174), a marking frame (172) is arranged between the three second connecting blocks (174) in a sliding mode, the upper portion of the marking frame (172) is rotatably connected with the lower portion of the connecting rod (171), two third tension springs (173) are wound on the upper portion of the marking frame (172), and two ends of each third tension spring (173) are connected with the marking frame (172) and the second connecting blocks (174) respectively.

8. The glass flatness inspection device according to claim 7, further comprising a printing mechanism (18), wherein the printing mechanism (18) can deepen a mark made by the mark frame (172), the printing mechanism (18) comprises a fixing block (181), a knocker (182), a fourth tension spring (183) and a second magnet (184), the fixing block (181) is connected to the lower portion of the right side of the housing (4), the knocker (182) is slidably arranged on the right portion of the fixing block (181), the bottom end of the knocker (182) is in contact with the mark frame (172), the top end of the knocker (182) is connected with the second magnet (184), the second magnet (184) and the first magnet (153) are mutually adsorbed, the fourth tension spring (183) is wound on the upper portion of the knocker (182), and two ends of the fourth tension spring (183) are respectively connected with the fixing block (181) and the second magnet (184).

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