CN115488626A - Intelligent monitoring calibration precision locking attaches equipment - Google Patents

Abstract

The invention belongs to the technical field of locking equipment, and particularly relates to intelligent monitoring and calibrating precise locking equipment which comprises a bottom plate, wherein the upper end of the bottom plate is fixedly connected with a belt conveyor and a U-shaped vertical plate covered outside the belt conveyor, a lifting plate is arranged in the U-shaped vertical plate through a lifting adjusting mechanism, a plurality of through holes are uniformly formed in the surface of the lifting plate, a supporting cylinder is rotatably sleeved in the corresponding through hole through a bearing, a screwdriver is movably inserted and sleeved in the supporting cylinder, the supporting cylinder is connected with the screwdriver through an elastic extrusion mechanism, the upper end of the screwdriver is fixedly connected with a trigger plate, and a power-off trigger mechanism is fixedly arranged on the inner side of the upper end of the supporting cylinder. The locking device is suitable for synchronous and stable locking of a plurality of screw interfaces and products with different depths on the same horizontal plane, effectively improves locking efficiency, does not need special adjustment operation, can realize self-adaptive adjustment, and ensures the yield.

Description

Intelligent monitoring calibration precision locking attaches equipment

Technical Field

The invention belongs to the technical field of locking equipment, and particularly relates to intelligent monitoring and calibrating precise locking equipment.

Background

The screw locking process is one of the product making links and is applied in the automatic assembly of automobile parts, computer, display screen, motor, lamp, cellphone, printer, circuit board, battery, instrument, etc.

The screw machine is a common locking device, is a small machine for automatically locking screws, and can be divided into a feeding part and an electric screwdriver part in an action structure, wherein the feeding part is used for screening and providing screws, the electric screwdriver part is used for taking and locking screws, and the generation of the screw machine improves the operation efficiency and reduces the manual operation intensity.

But at present when carrying out the lock to the screw of unevenness for example on the concave-convex surface and attaching the operation, because screw interface and degree of depth are not at same horizontal plane, consequently need the screwdriver to carry out the lock of single screw different degree of depth and attach and twist, use the screw machine to carry out the arrangement of procedure, carry out the corresponding adjustment of screw lock according to different unevenness degree, this process obviously wastes time and energy very, and the error appears easily, cause the problem that the yields is low, carry out the lock of a plurality of screws simultaneously more saying, lead to the lock to attach efficiency very low, high in production cost, mostly adopt the manual work to lock in the face of this problem and attach the operation, artifical operation causes inefficiency and high in production cost's problem equally, be difficult to satisfy the actual production demand.

Therefore, an intelligent monitoring and calibrating precise locking device is provided to solve the problems.

Disclosure of Invention

The invention aims to solve the problems and provides intelligent monitoring and calibrating precision locking equipment.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides an accurate lock of intelligent monitoring calibration attaches equipment, includes the bottom plate, the U-shaped riser of upper end fixedly connected with belt conveyor and the cover outside belt conveyor of bottom plate, install the lifter plate through lift adjustment mechanism in the U-shaped riser, a plurality of through-holes have evenly been seted up on the surface of lifter plate, and have cup jointed through the bearing rotation in the corresponding through-hole and support a section of thick bamboo, support a section of thick bamboo internalization plug bush and have the screwdriver, support and push away the mechanism connection through the crowded elasticity between a section of thick bamboo and the screwdriver, the upper end fixedly connected with trigger plate of screwdriver, the upper end inboard of supporting a section of thick bamboo is fixed and has been installed outage trigger mechanism, the inner wall top of supporting a section of thick bamboo still is fixed and has been installed power supply trigger mechanism, the upper end of supporting a section of thick bamboo still fixedly connected with is used for driving a plurality of supporting a section of thick bamboo pivoted synchronous drive mechanism, inhale the coupling mechanism through magnetism between synchronous drive mechanism and the supporting a section of thick bamboo and connect, the outside of U-shaped riser still fixedly connected with positive and negative self-adjusting circuit coupling mechanism.

In the above-mentioned accurate lock of intelligent monitoring calibration attaches equipment, lift adjustment mechanism includes that two symmetries fixed connection are at the inboard diaphragm of the vertical portion of U-shaped riser, the upper end of diaphragm and the lower extreme of U-shaped riser horizontal part rotate through the bearing and are connected with adjusting screw, the upper end intermediate position of U-shaped riser is fixed and is installed double-shaft motor, be connected through the transmission of first bevel gear subassembly between double-shaft motor's the both ends output and the adjusting screw, the screw that cup joints with adjusting screw thread is all seted up on the both ends surface of lifter plate.

In foretell accurate lock of intelligent monitoring calibration attaches equipment, crowded pushing mechanism of elasticity includes that a body coupling is at the fixed ring board of support section of thick bamboo lower extreme and the fixed position ring board of cup jointing in the screwdriver outside, many compensation poles of the even fixedly connected with in upper end of fixed ring board, the through-hole that the upper end of compensation pole was seted up through fixed ring board surface runs through the upper end of fixed ring board, and fixedly connected with anticreep board, establish the powerful compensating spring outside many compensation poles with a plurality of difference covers of lower extreme fixedly connected with of fixed ring board in the upper end of fixed ring board.

In foretell accurate lock of intelligent monitoring calibration attaches equipment, outage trigger mechanism includes that many symmetry fixed plug bushes are at the elastic telescopic rod of a support section of thick bamboo inner wall, is located many of homonymy the same insulation board of elastic telescopic rod's one end fixedly connected with, two the equal fixedly connected with conducting block in the relative one side of insulation board, the lower extreme lateral wall of conducting block is established to the inclined plane.

In foretell an intelligent monitoring calibration precision lock attaches equipment, power supply trigger mechanism includes two symmetry fixed connection in the pole setting at a support section of thick bamboo inner wall top, two the outer activity of pole setting has cup jointed first contact plate and is located the second contact plate of first contact plate upside, the equal fixedly connected with electricity splice block of the relative one side lateral wall of first contact plate and second contact plate, fixedly connected with cover is established at the outer first spring that props of pole setting between first contact plate and the second contact plate, a plurality of seconds of fixedly connected with support the spring between the inner wall top of a support section of thick bamboo and the upper end of second contact plate.

In foretell an intelligent monitoring calibration precision lock attaches equipment, synchronous drive mechanism includes two symmetry fixed connection curb plates in the lifter plate upper end, two the relative one side in curb plate upper end is rotated through the bearing and is connected with synchronous drive shaft, one of them the outside of curb plate is fixed and is provided with driving motor, driving motor's output and synchronous drive shaft's one end fixed connection, a plurality of covers of upper end fixedly connected with of lifter plate overlap the U-shaped locating plate in the support section of thick bamboo outside, the through-hole has been seted up to the upper end of U-shaped locating plate, and has cup jointed the connecting axle through the bearing rotation in corresponding the through-hole, the upper end of connecting axle is connected with synchronous drive shaft through the second bevel gear subassembly.

In foretell precision lock attaches equipment of intelligent monitoring calibration, coupling mechanism is inhaled to magnetism includes the first connecting plate of fixed connection in first support section of thick bamboo upper end, the lower extreme fixedly connected with second connecting plate of connecting shaft, the upper end of first connecting plate is fixed to be inlayed and is equipped with the connection electromagnetism piece, the lower extreme of second connecting plate is fixed to be inlayed and is equipped with the connection permanent magnetism piece.

In foretell accurate lock of intelligent monitoring calibration attaches equipment, positive and negative circuit self-interacting coupling mechanism includes the installation shell of fixed connection in the U-shaped riser outside, inboard fixedly connected with forward circuit contact board and the reverse circuit contact board of installation shell, the inner wall of installation shell is two spacing slide bars of still symmetry fixedly connected with, two same slide bar has been cup jointed in the outer slip of spacing slide bar, inner wall one side fixedly connected with of installation shell attracts the electromagnetic block, the outside fixedly connected with of slide bar with attract the permanent magnetism piece that the electromagnetic block position corresponds, fixedly connected with cover establishes the pull-back spring outside spacing slide bar between the inner wall of installation shell and the slide bar, the lateral wall of slide bar still fixedly connected with baffle, the lateral wall fixedly connected with electric property of baffle is to the touch multitouch.

In foretell accurate lock of intelligent monitoring calibration attaches equipment, the equal fixedly connected with in both ends direction slide cartridge of lifter plate, the bar opening that is used for the direction slide cartridge to run through is offered to the vertical portion of U-shaped riser, the U-shaped riser corresponds bar open-ended inner wall fixedly connected with direction slide bar, direction slide cartridge and direction slide bar slip cup joint.

In foretell precision lock of intelligent monitoring calibration attaches equipment, two joint sliders of the upper end symmetry fixedly connected with of screwdriver, two joint spouts that match the slip with the joint slider are seted up to the inboard symmetry of lower extreme of a support section of thick bamboo.

Compared with the prior art, the invention provides the intelligent monitoring and calibrating precise locking and attaching equipment, which has the following beneficial effects:

1. this accurate lock of intelligent monitoring calibration attaches equipment, through the bottom plate that is equipped with, belt conveyor, the U-shaped riser, lift adjustment mechanism, the lifter plate, a supporting cylinder, the screwdriver, the crowded mechanism that pushes away of elasticity, synchronous drive mechanism, joint slider and joint spout, can drive a plurality of screwdrivers and move down in step, realize carrying out a plurality of locks in step and attach the operation, and make the screwdriver have upper and lower displacement compensation, a plurality of stable locks in step are attached to the product that is applicable to a plurality of screw interfaces and the degree of depth and is not at same horizontal plane, the lock has effectively been improved and has attached efficiency, and need not to adjust the operation very much, can realize self-adaptation regulation, the yields has been guaranteed.

2. This accurate lock of intelligent monitoring calibration attaches equipment, through the outage trigger mechanism that is equipped with and magnetism inhale coupling mechanism, can accomplish stable lock in corresponding the screwdriver and attach the back, carry out from the outage operation, avoid the screwdriver to last to rotate and cause the problem that screwdriver and screw damaged easily, self preservation protection nature is good.

3. This accurate lock of intelligent monitoring calibration attaches equipment through the power supply trigger mechanism and the positive and negative circuit self-interacting coupling mechanism who is equipped with, can accomplish the lock at all screwdrivers and attach the work after make screwdriver automatic re-setting to the next lock of going on is attached the operation automatically, has improved the continuity of lock and has attached the operation, has guaranteed the lock and has attached efficiency.

In summary, the following steps: the locking device is suitable for synchronous and stable locking of a plurality of screw interfaces and products with different depths on the same horizontal plane, effectively improves locking efficiency, does not need special adjustment operation, can realize self-adaptive adjustment, and ensures the yield.

Drawings

Fig. 1 is a schematic structural diagram of an intelligent monitoring and calibration precision locking device according to the present invention;

fig. 2 is a schematic diagram of a partially enlarged structure of an intelligent monitoring and calibration precision locking device according to the present invention;

FIG. 3 is a schematic structural diagram of a power-off triggering mechanism of the intelligent monitoring and calibration precision locking device according to the present invention;

fig. 4 is a schematic structural diagram of a power supply triggering mechanism of the intelligent monitoring and calibration precision locking device provided by the invention;

fig. 5 is a schematic structural diagram of a positive and negative circuit self-adjusting connection mechanism of the intelligent monitoring and calibration precision locking device according to the present invention.

In the figure: 1. a base plate; 2. a belt conveyor; 3. a U-shaped vertical plate; 4. a lifting adjusting mechanism; 41. a transverse plate; 42. adjusting the screw rod; 43. a dual-axis motor; 44. a first bevel gear assembly; 45. a guide slide cylinder; 46. a strip-shaped opening; 47. a guide slide bar; 5. a lifting plate; 6. a support cylinder; 7. a screwdriver; 8. an elastic squeezing and pushing mechanism; 81. a stationary ring plate; 82. positioning the ring plate; 83. a compensation lever; 84. an anti-drop plate; 85. a strong compensation spring; 9. a trigger plate; 10. a power-off trigger mechanism; 101. an elastic telescopic rod; 102. an insulating plate; 103. a conductive block; 11. a power supply trigger mechanism; 111. erecting a rod; 112. a first contact plate; 113. a second contact plate; 114. an electrical connection block; 115. a first support spring; 116. a second supporting spring; 12. a synchronous drive mechanism; 121. a side plate; 122. a synchronous drive shaft; 123. a drive motor; 124. a U-shaped positioning plate; 125. a connecting shaft; 126. a second bevel gear assembly; 13. a magnetic attachment mechanism; 131. a first connecting plate; 132. a second connecting plate; 133. connecting an electromagnetic block; 134. connecting the permanent magnet blocks; 14. the positive and negative circuit self-adjusting connecting mechanism; 141. mounting a shell; 142. a forward circuit contact plate; 143. a reverse circuit contact plate; 144. a limiting slide bar; 145. a slide plate; 146. attracting the electromagnetic block; 147. attracting the permanent magnet; 148. a retraction spring; 149. a baffle plate; 1410. an electrical contact block; 15. clamping a sliding block; 16. the sliding chute is clamped.

Detailed Description

The following examples are for illustrative purposes only and are not intended to limit the scope of the present invention.

Referring to fig. 1-5, an intelligent monitoring calibration precision locking device comprises a base plate 1, a belt conveyor 2 and a U-shaped vertical plate 3 covering the belt conveyor 2 are fixedly connected to the upper end of the base plate 1, a lifting plate 5 is installed in the U-shaped vertical plate 3 through a lifting adjusting mechanism 4, the lifting adjusting mechanism 4 comprises two transverse plates 41 symmetrically and fixedly connected to the inner sides of the vertical portions of the U-shaped vertical plate 3, the upper end of each transverse plate 41 and the lower end of the horizontal portion of the U-shaped vertical plate 3 are rotatably connected with an adjusting screw 42 through a bearing, a double-shaft motor 43 is fixedly installed at the middle position of the upper end of the U-shaped vertical plate 3, the output ends of the two ends of the double-shaft motor 43 are in transmission connection with the adjusting screw 42 through a first bevel gear assembly 44, screw holes in threaded connection with the adjusting screw 42 are respectively formed in the surfaces of the two ends of the lifting plate 5, guide sliding cylinders 45 are fixedly connected to the two ends of the lifting plate 5, a strip-shaped opening 46 through which the guide sliding cylinder 45 penetrates is formed in the vertical portion of the U-shaped vertical plate 3, a guide sliding rod 47 is fixedly connected to the inner wall of the strip-shaped sliding rod 46, and the guide sliding cylinder 45 is slidably connected to the guide sliding cylinder 47.

A plurality of through-holes have evenly been seted up on the surface of lifter plate 5, and it has cup jointed a support section of thick bamboo 6 to rotate through the bearing in the corresponding through-hole, movable plug bush has screwdriver 7 in the support section of thick bamboo 6, it connects through crowded pushing mechanism 8 of elasticity between a support section of thick bamboo 6 and the screwdriver 7, crowded pushing mechanism 8 of elasticity includes fixed ring plate 81 and the fixed position ring plate 82 of cup jointing in the screwdriver 7 outside of a body coupling at a support section of thick bamboo 6 lower extreme, the even fixedly connected with many compensating rods 83 in upper end of position ring plate 82, the through-hole that the upper end of compensating rod 83 was seted up through fixed ring plate 81 surface runs through the upper end of fixed ring plate 81, and fixedly connected with anticreep board 84, the outer powerful compensation spring 85 of many compensating rods 83 is established respectively to the upper end of position ring plate 82 and the lower extreme fixedly connected with of fixed ring plate 81.

The upper end fixedly connected with of screwdriver 7 triggers board 9, and the upper end inboard of a support section of thick bamboo 6 is fixed and has been installed outage trigger mechanism 10, and outage trigger mechanism 10 includes the fixed plug bush of many symmetries and at the elastic telescopic rod 101 of a support section of thick bamboo 6 inner wall, is located the same insulation board 102 of the one end fixedly connected with of many elastic telescopic rods 101 of homonymy, and the equal fixedly connected with conducting block 103 in two relative one sides of insulation board 102, and the lower extreme lateral wall of conducting block 103 is established to the inclined plane.

The power supply trigger mechanism 11 is further fixedly installed at the top of the inner wall of the supporting cylinder 6, the power supply trigger mechanism 11 comprises two vertical rods 111 symmetrically and fixedly connected to the top of the inner wall of the supporting cylinder 6, a first contact plate 112 and a second contact plate 113 located on the upper side of the first contact plate 112 are movably sleeved outside the two vertical rods 111, an electric connection block 114 is fixedly connected to the side wall of one side opposite to the first contact plate 112 and the side wall of one side opposite to the second contact plate 113, a first support spring 115 sleeved outside the vertical rod 111 is fixedly connected between the first contact plate 112 and the second contact plate 113, and a plurality of second support springs 116 are fixedly connected between the top of the inner wall of the supporting cylinder 6 and the upper end of the second contact plate 113.

The upper end of the supporting cylinder 6 is fixedly connected with a synchronous driving mechanism 12 for driving the plurality of supporting cylinders 6 to rotate, the synchronous driving mechanism 12 comprises two side plates 121 which are symmetrically and fixedly connected to the upper end of the lifting plate 5, one opposite sides of the upper ends of the two side plates 121 are rotatably connected with a synchronous driving shaft 122 through bearings, a driving motor 123 is fixedly arranged on the outer side of one side plate 121, the output end of the driving motor 123 is fixedly connected with one end of the synchronous driving shaft 122, the upper end of the lifting plate 5 is fixedly connected with a plurality of U-shaped positioning plates 124 which are sleeved on the outer side of the supporting cylinder 6, through holes are formed in the upper ends of the U-shaped positioning plates 124, connecting shafts 125 are sleeved in the corresponding through holes through bearings in a rotating mode, and the upper ends of the connecting shafts 125 are connected with the synchronous driving shaft 122 through second bevel gear assemblies 126.

The synchronous driving mechanism 12 and the supporting cylinder 6 are connected through a magnetic connection mechanism 13, the magnetic connection mechanism 13 comprises a first connection plate 131 fixedly connected to the upper end of the first supporting cylinder 6, a second connection plate 132 fixedly connected to the lower end of the connection shaft 125, a connection electromagnetic block 133 is fixedly embedded in the upper end of the first connection plate 131, and a connection permanent magnet block 134 is fixedly embedded in the lower end of the second connection plate 132.

The outer side of the U-shaped vertical plate 3 is further fixedly connected with a positive and negative circuit self-adjusting connecting mechanism 14, the positive and negative circuit self-adjusting connecting mechanism 14 comprises a mounting shell 141 fixedly connected to the outer side of the U-shaped vertical plate 3, the inner side of the mounting shell 141 is fixedly connected with a positive circuit contact plate 142 and a negative circuit contact plate 143, the inner wall of the mounting shell 141 is further symmetrically and fixedly connected with two limit slide bars 144, the two limit slide bars 144 are sleeved with the same sliding plate 145 in a sliding mode, one side of the inner wall of the mounting shell 141 is fixedly connected with an attraction electromagnetic block 146, the outer side of the sliding plate 145 is fixedly connected with an attraction permanent magnetic block 147 corresponding to the position of the attraction electromagnetic block 146, a pull-back spring 148 sleeved outside the limit slide bar 144 is fixedly connected between the inner wall of the mounting shell 141 and the sliding plate 145, the side wall of the sliding plate 145 is further fixedly connected with a baffle 149, and the side wall of the baffle 149 is fixedly connected with an electric block 1410.

Two joint sliders 15 of upper end symmetry fixedly connected with of screwdriver 7, two joint spouts 16 that match the slip joint with joint slider 15 are seted up to the inboard symmetry of the lower extreme of a support section of thick bamboo 6.

The operating principle of the present invention will now be described as follows: the belt conveyor 2 is used for conveying belt locked workpieces through a bottom plate 1, a belt conveyor 2, a U-shaped vertical plate 3, a lifting adjusting mechanism 4, a lifting plate 5, a supporting cylinder 6, a screwdriver 7, an elastic extruding and pushing mechanism 8, a synchronous driving mechanism 12, a clamping sliding block 15 and a clamping sliding groove 16, the belt conveyor 2 is used for conveying belt locked workpieces, a double-shaft motor 43 drives two adjusting screw rods 42 to synchronously rotate through a first bevel gear assembly 44, stable descending of the lifting plate 5 is realized through threaded sleeving of the adjusting screw rods 42 and the lifting plate 5 and relative guiding connection of a guide sliding rod 47 and a guide sliding cylinder 45, the screwdriver 7 is further contacted with the workpieces to be locked and attached, a driving motor 123 drives a synchronous transmission shaft to rotate, a connecting shaft 125 is driven to rotate through a second bevel gear assembly 126, the connecting shaft 125 drives the supporting cylinder 6 to rotate through a magnetic suction connecting mechanism 13, and further drives the screwdriver 7 to rotate, the fast locking operation is realized, and because the locking holes on the surface of the workpiece are different in height, the screwdriver 7 which is firstly contacted with the locking position is stably upwards moved in the supporting cylinder 6 through the sliding connection of the clamping sliding block 15 and the clamping sliding groove 16 after the locking is finished by receiving the reverse extrusion force, so that the problem that the screwdriver 7 and a screw are easily damaged due to hard extrusion is solved, the locking positions of other screwdrivers 7 can be waited for, a plurality of screwdrivers 7 can be driven to synchronously downwards move, a plurality of locking operations can be synchronously performed, the screwdriver 7 is enabled to have vertical displacement compensation, the locking device is suitable for synchronously locking a plurality of stable locking of products with a plurality of screw interfaces and different depths on the same horizontal plane, the locking efficiency is effectively improved, special adjustment operation is not needed, self-adaptive adjustment can be realized, and the yield is ensured;

through the arranged power-off triggering mechanism 10 and the magnetic attraction connecting mechanism 13, when the screwdriver 7 which completes locking work is reversely pushed and pushed to move upwards relative to the supporting cylinder 6, the triggering plate 9 moves upwards along with the screwdriver, and then acts on the inclined plane at the lower end of the conductive block 103, so that the two conductive blocks 103 are matched with the elastic telescopic rod 101 to move backwards and backwards, the two conductive blocks 103 are separated, the power supply to the conductive magnetic block 133 in the first connecting plate 131 is cut off, the connecting electromagnetic block 133 is further relatively disconnected with the connecting permanent magnetic block 134, the screwdriver 7 which has completed locking work stops rotating due to the work of the synchronous driving mechanism 12, the self-power-off operation can be performed after the corresponding screwdriver 7 completes stable locking, the problem that the screwdriver 7 and a screw are easily damaged due to continuous rotation of the screwdriver 7 is avoided, and the self-protection performance is good;

through the power supply trigger mechanism 11 and the self-adjusting connection mechanism 14 of the forward and reverse circuits, after the screwdriver 7 finishes working, the lifting plate 5 is continuously pressed down to drive the trigger plate 9 to continuously move upwards relative to the support cylinder 6, so that the trigger plate 9 acts on the first contact plate 112, the first contact plate 112 moves upwards to electrically connect the two electric connection blocks 114 together, when all the screwdrivers 7 finish locking work, all the electric connection blocks 114 are electrically connected together to finish the power supply circuit connection to the attraction electric magnetic block 146, the cooperation time relay supplies power to the attraction electric magnetic block 146 for a period of time, so that the attraction electric magnetic block 146 generates magnetism when power is supplied, the attraction permanent magnetic block 147 is driven to drive the sliding plate 145 to overcome the pulling force of the pullback spring 148 on the limit sliding rod 144 to move towards the attraction electric magnetic block 146, the sliding plate 145 cooperates with the baffle 149 to drive the electric contact block 1410 to move, the electric contact block 1410 moves from the contact plate 142 of the forward circuit to the reverse circuit 143, the power supply circuit of the double-shaft motor 43 is communicated, the lifting plate 5 is driven to drive the lifting plate 5 to drive the plurality of screwdrivers 7 to move, and the screwdrivers 7 to automatically reset, and the automatic locking of the screwdrivers 7 can be automatically reset, and the screwdriver can be automatically reset operation is ensured.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (10)

1. The utility model provides an accurate lock of intelligent monitoring calibration attaches equipment, includes bottom plate (1), its characterized in that: the upper end fixedly connected with belt conveyor (2) and the cover of bottom plate (1) are in U-shaped riser (3) outside belt conveyor (2), lifter plate (5) have been installed through lift adjustment mechanism (4) in U-shaped riser (3), a plurality of through-holes have evenly been seted up on the surface of lifter plate (5), and have cup jointed support section of thick bamboo (6) through the bearing rotation in corresponding the through-hole, the cover has screwdriver (7) to support section of thick bamboo (6) internalization plug bush, it pushes away mechanism (8) to connect through elasticity crowded between support section of thick bamboo (6) and screwdriver (7), the upper end fixedly connected with of screwdriver (7) triggers board (9), outage trigger mechanism (10) have been installed to the upper end inboard fixed of support section of thick bamboo (6), the inner wall top of support section of thick bamboo (6) still is fixed to install supply trigger mechanism (11), the upper end of support section of thick bamboo (6) still fixedly connected with be used for driving a plurality of support section of thick bamboo (6) pivoted synchronous drive mechanism (12), synchronous drive mechanism (12) and support section of thick bamboo (6) still connect through magnetism and inhale upright board (13) and connect the connection mechanism (14) outside U-shaped riser (3).

2. The intelligent monitoring and calibration precision locking device of claim 1, wherein: the lifting adjusting mechanism (4) comprises two transverse plates (41) which are symmetrically and fixedly connected to the inner side of the vertical portion of the U-shaped vertical plate (3), the upper end of each transverse plate (41) and the lower end of the horizontal portion of the U-shaped vertical plate (3) are rotatably connected with an adjusting screw (42) through bearings, a double-shaft motor (43) is fixedly installed at the middle position of the upper end of the U-shaped vertical plate (3), the output ends of the two ends of the double-shaft motor (43) are in transmission connection with the adjusting screws (42) through a first bevel gear assembly (44), and screw holes in threaded sleeve connection with the adjusting screws (42) are formed in the surfaces of the two ends of the lifting plate (5).

3. The intelligent monitoring and calibration precision locking device of claim 1, which is characterized in that: crowded pushing mechanism (8) of elasticity includes that fixed ring plate (81) and the fixed cover of a body coupling at a support section of thick bamboo (6) lower extreme connect in the position ring plate (82) in the screwdriver (7) outside, many compensating rods (83) of the even fixedly connected with in upper end of position ring plate (82), the through-hole that the upper end of compensating rod (83) was seted up through fixed ring plate (81) surface runs through the upper end of fixed ring plate (81), and fixedly connected with anticreep board (84), establish a plurality of strong compensation spring (85) of establishing outside many compensating rods (83) respectively at the upper end of position ring plate (82) and the lower extreme fixedly connected with of fixed ring plate (81).

4. The intelligent monitoring and calibration precision locking device of claim 1, wherein: outage trigger mechanism (10) include many symmetry fixed plug bushes in elastic telescopic rod (101) of support section of thick bamboo (6) inner wall, are located many of the homonymy the same insulation board (102) of one end fixedly connected with of elastic telescopic rod (101), two equal fixedly connected with conducting block (103) in the relative one side of insulation board (102), the lower extreme lateral wall of conducting block (103) is established to the inclined plane.

5. The intelligent monitoring and calibration precision locking device of claim 1, wherein: supply power trigger mechanism (11) include pole setting (111) at a support section of thick bamboo (6) inner wall top of two symmetry fixed connection, two pole setting (111) outer activity cup joints first contact board (112) and second contact board (113) that are located first contact board (112) upside, first contact board (112) and second contact board (113) relative lateral wall all fixedly connected with electricity connect block (114), fixedly connected with overlaps between first contact board (112) and second contact board (113) and establishes first support spring (115) outside pole setting (111), a plurality of second support springs (116) of fixedly connected with between the inner wall top of a support section of thick bamboo (6) and the upper end of second contact board (113).

6. The intelligent monitoring and calibration precision locking device of claim 1, which is characterized in that: synchronous drive mechanism (12) include curb plate (121), two of two symmetry fixed connection in lifter plate (5) upper end the relative one side in curb plate (121) upper end is rotated through the bearing and is connected with synchronous drive axle (122), one of them the outside of curb plate (121) is fixed and is provided with driving motor (123), the output of driving motor (123) and the one end fixed connection of synchronous drive axle (122), U-shaped locating plate (124) in a plurality of covers of cover of upper end fixedly connected with of lifter plate (5) outside supporting cylinder (6), the through-hole has been seted up to the upper end of U-shaped locating plate (124), and has cup jointed connecting axle (125) through the bearing rotation in corresponding the through-hole, the upper end of connecting axle (125) is connected with synchronous drive axle (122) through second bevel gear subassembly (126).

7. The intelligent monitoring and calibration precision locking device of claim 6, wherein: the magnetic connection mechanism (13) comprises a first connection plate (131) fixedly connected to the upper end of a first support cylinder (6), a second connection plate (132) fixedly connected to the lower end of the connection shaft (125), a connection electromagnetic block (133) is fixedly embedded in the upper end of the first connection plate (131), and a connection permanent magnet block (134) is fixedly embedded in the lower end of the second connection plate (132).

8. The intelligent monitoring and calibration precision locking device of claim 1, wherein: positive and negative circuit is from adjusting coupling mechanism (14) including fixed connection at installation shell (141) in the U-shaped riser (3) outside, the inboard fixedly connected with forward circuit contact board (142) and reverse circuit contact board (143) of installation shell (141), the inner wall of installation shell (141) is two spacing slide bars (144) of symmetry fixedly connected with still, two same slide bar (145) have been cup jointed in the outer slip of spacing slide bar (144), inner wall one side fixedly connected with attraction electromagnetic block (146) of installation shell (141), the outside fixedly connected with of slide plate (145) and attraction permanent magnetism piece (147) that attracts electromagnetic block (146) position to correspond, fixedly connected with cover establishes pull-back spring (148) outside spacing slide bar (144) between the inner wall of installation shell (141) and slide plate (145), the lateral wall still fixedly connected with baffle (149) of slide plate (145), the lateral wall fixedly connected with of baffle (149) supports electric contact piece (1410).

9. The intelligent monitoring and calibration precision locking device of claim 2, wherein: the equal fixedly connected with direction slide (45) in both ends of lifter plate (5), bar opening (46) that are used for direction slide (45) to run through are offered to the vertical portion of U-shaped riser (3), inner wall fixedly connected with direction slide bar (47) that U-shaped riser (3) correspond bar opening (46), direction slide (45) and direction slide bar (47) slip and cup joint.

10. The intelligent monitoring and calibration precision locking device of claim 1, wherein: the upper end symmetry fixedly connected with of screwdriver (7) two joint sliders (15), two joint spout (16) that match the slip with joint slider (15) are seted up to the inboard symmetry of the lower extreme of a support section of thick bamboo (6).

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