CN115790552A - Municipal works are managed with straightness detection device that hangs down - Google Patents

Municipal works are managed with straightness detection device that hangs down Download PDF

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Publication number
CN115790552A
CN115790552A CN202211541871.5A CN202211541871A CN115790552A CN 115790552 A CN115790552 A CN 115790552A CN 202211541871 A CN202211541871 A CN 202211541871A CN 115790552 A CN115790552 A CN 115790552A
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plate
hangs down
hot melt
detection device
straightness
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CN202211541871.5A
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Chinese (zh)
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刘晨晨
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Individual
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    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
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Abstract

The invention discloses a verticality detection device for municipal engineering supervision, which belongs to the technical field of verticality measurement equipment and comprises a horizontal plate, wherein the surface of the horizontal plate is connected with a U-shaped frame, the surface of the U-shaped frame is hinged with a hinged shaft, and the surface of the hinged shaft is connected with a verticality detection mechanism; the straightness detection mechanism that hangs down is including articulating the articulated epaxial perpendicular frame, this scheme is through the structure setting of straightness detection mechanism that hangs down, can be to building body wall straightness detection's in-process that hangs down, utilize the hot melt pole to fuse out the line segment to the hot melt plate surface, the straightness that hangs down and the definition of line segment all keep in step with building body wall, thereby carry out visual detection to the straightness that hangs down of building body wall, convenience and functionality have been improved, and after carrying out visual detection to building body wall, can calculate the straightness data of hanging down of building body wall fast, and can calculate building body wall inclined position height and range of slope fast.

Description

Municipal works are managed with straightness detection device that hangs down
Technical Field
The invention relates to the technical field of verticality measuring equipment, in particular to a verticality detecting device for municipal engineering supervision.
Background
Through retrieval, chinese patent No. CN202111184262.4 discloses a portable verticality detection device based on constructional engineering, which comprises an installation mechanism; the mounting mechanism is a verticality detection device, and a sliding mechanism is mounted on the mounting mechanism; the sliding part on the sliding mechanism is arranged in the sliding chute on the mounting mechanism; the left side in the sliding mechanism is provided with the moving mechanism; the measuring mechanism is arranged on the left side of the moving mechanism; the bottom of the mounting mechanism is provided with a supporting mechanism; the side edge of the supporting mechanism is provided with a balancing mechanism, and the balancing mechanism is arranged in the mounting mechanism; the balance mechanism includes: the rotary part is of a cylindrical structure, threads are arranged on the rotary part, gears are arranged on two sides of the rotary part, the rotary part is meshed with the clamping teeth on the tooth rows through the gears on the two sides, an auxiliary part is arranged in the middle of the rotary part, and the rotary part is positioned in the installation groove; the balancing piece, the balancing piece is the rectangle structure, and the balancing piece side is equipped with the rectangle arch, is equipped with the screw hole on the balancing piece, and the balancing piece passes through the rectangle arch and installs inside the adjustment tank to screw hole internally mounted on the balancing piece has the rotating member.
The beneficial effect of above-mentioned device does: the device solves the problem that the existing verticality detection device cannot automatically adjust and support according to different terrains due to the fact that the ground of a construction site is not flat enough when in use, and comprises an installation mechanism; the mounting mechanism is a verticality detection device; the bottom of the mounting mechanism is provided with a supporting mechanism; the rotating piece is meshed with the clamping teeth on the tooth row through the gears on the two sides; the balance weight is arranged in the adjusting groove through the rectangular protrusion. Because the effect of balancing piece and bottom part for the support piece rebound with ground contact, upwards jack-up tooth row, and tensile spring on the locating part, the tooth row meshes with the gear on the rotating member, makes the balancing piece move to the one side not with ground contact, the tooth row and the gear engagement of the one side not with ground contact, support piece compresses the spring on the locating part when moving downwards, makes the main part keep the level, makes the measurement more accurate.
However, in the practical application process, the existing building wall surface verticality detection device mostly detects through a manual handheld level, and due to the fact that manual operation has certain errors, the detection precision is poor, and when a higher building is detected, the detection difficulty of the manual level of a worker is high, and therefore the verticality detection device for municipal engineering supervision is provided.
Disclosure of Invention
The invention aims to provide a verticality detection device for municipal engineering supervision, which aims to solve the problems in the background technology.
In order to achieve the purpose, the invention provides the following technical scheme: a verticality detection device for municipal engineering supervision comprises a horizontal plate, wherein the surface of the horizontal plate is connected with a U-shaped frame, the surface of the U-shaped frame is hinged with a hinged shaft, and the surface of the hinged shaft is connected with a verticality detection mechanism;
the perpendicularity detection mechanism comprises a vertical frame hinged to a hinged shaft, a lead screw is connected to the surface of the vertical frame, an output shaft of a motor is connected to the surface of the upper end of the vertical frame, the output shaft of the motor is in transmission connection with the lead screw, a sliding block matched with the lead screw is sleeved on the surface of the lead screw, a limiting block is connected to the rear end of the sliding block, and is inserted into a limiting sliding groove formed in the surface of the vertical frame, a floating plate is arranged above the sliding block in a sleeved mode, an electromagnet A is connected to the upper surface of the sliding block, an electromagnet B is connected to the lower surface of the floating plate, the electromagnets A and B are opposite in magnetism, an opening is formed in the surface of the floating plate, limiting rods are connected to two sides of the opening in the surface of the floating plate, a translation table is sleeved on the surface of the limiting rods, two sets of limiting holes and two sets of translation table are matched with each other in the surface of the translation table, a through groove is formed in the surface of the translation table, a reset spring is sleeved on the surface of the limiting rod, one end of the reset spring is connected to the surface of the floating plate, and connected with a pulley through a connecting shaft.
Preferably, the front end of the translation platform is connected with a limit stop, the length of the limit stop is larger than the diameter of the limit hole, the floating plate is L-shaped, and the rear end of the floating plate is inserted in the limit sliding groove.
Preferably, a position sensor A is connected to the surface of the floating plate, a side rod is connected to the side surface of the translation table, and a position sensor a is connected to the surface of the side rod.
Preferably, the side of perpendicular frame is connected with the mount, the surface connection of mount has the hot melt plate, translation platform surface connection's side lever is towards hot melt plate one side, the outside that the surface of side lever is located the hot melt plate is connected with the crossbearer, the surface of crossbearer is provided with fixed spout, fixed spout interpolation is equipped with side pipe, the rear end that side pipe set up to cavity form and side pipe is connected with the heater, a side surface connection of heater orientation hot melt plate has the hot melt pole, the hot melt pole runs through side pipe towards hot melt plate one side, the one end length that the hot melt pole runs through out from square intraductal is greater than the interval of hot melt plate in side pipe.
Preferably, the top that the surface of crossbearer is located fixed spout is provided with the thread groove, the thread groove interpolation is equipped with fixing bolt and contradicts in square pipe surface.
Preferably, the surface of the heater is connected with a position sensor B, and the lower end surface of the fixing frame is connected with a position sensor B at the center.
Preferably, the surface of the square pipe is provided with uniformly distributed heat dissipation holes.
Preferably, the surface of the fixing frame is connected with a vertical ruler which is positioned on one side of the hot melting plate, the fixing frame is in an L shape, a slot is formed in the side surface of the fixing frame, a moving block is inserted into the slot, the surface of the moving block is connected with a connecting rod, and the surface of the connecting rod is hinged with a transverse ruler.
Preferably, the lower extreme surface of horizontal plate is connected with the level (l) ing seat, the level (l) ing seat is including connecting the bottom plate at horizontal plate lower extreme surface, the bottom plate sets up to three horn shapes, the three edges of lower extreme surface of bottom plate all are connected with the internal thread pole, the internal thread pole is inserted and is established in the cover pipe, sheathed tube upper end cover has the adjusting collar, adjusting collar and internal thread pole looks adaptation, the lower part of internal thread pole is spacing at the intraductal cover of cover, sheathed tube lower extreme surface is connected with the callus on the sole, the surface connection of horizontal plate has the level bubble.
Preferably, one side surface of the U-shaped frame facing the verticality detection mechanism is connected with two sets of water spraying ports, the two sets of water spraying ports are located on two sides of the verticality detection mechanism, one side surface of the U-shaped frame facing away from the verticality detection mechanism is connected with a water bag, the water bag is internally connected with the water spraying ports in a hollow mode through a water pipe, a clamping groove is formed in the surface of the horizontal plate, a rack is inserted into the clamping groove, one end of the hinged shaft penetrates through the U-shaped frame and is connected with a gear, the gear is meshed with the rack, and one end of the rack is connected with one side, where the pressing plate is located, of the water bag.
Compared with the prior art, the invention has the beneficial effects that:
1. according to the scheme, the perpendicularity detection mechanism can automatically detect the perpendicularity of the wall surface of the building body, and through electric control of the motor, the perpendicularity detection mechanism is enabled to be more convenient to operate when detecting, efficiency is improved, meanwhile, manual high-altitude operation is avoided, safety is improved, meanwhile, the perpendicularity detection mechanism can rapidly perform complete perpendicularity detection on the wall surface of the building body, and the working efficiency and the precision are high;
2. according to the scheme, through the structural arrangement of the perpendicularity detection mechanism, a line segment can be cut on the surface of the hot melting plate by using the hot melting rod in the process of detecting the perpendicularity of the building wall surface, and the perpendicularity and definition of the line segment are kept synchronous with the building wall surface, so that the visual detection is carried out on the perpendicularity of the building wall surface, and the convenience and the functionality are improved;
3. according to the scheme, through the structural arrangement of the verticality detection mechanism, after the building wall surface is visually detected, the verticality data of the building wall surface can be quickly measured and calculated, and the height and the inclination amplitude of the inclined position of the building wall surface can be quickly measured and calculated;
4. this scheme is through hang down straightness detection mechanism to building body wall hang down straightness and detect time measuring, can adjust the levelness of hang down straightness detection mechanism through the level (l) ing seat for thereby hang down straightness detection mechanism can ensure accurate self and hang down straightness and improve the accuracy nature of measuring structure.
Drawings
FIG. 1 is a schematic front view of the structure of the present invention;
FIG. 2 is a schematic rear view of the structure of the present invention;
FIG. 3 is a close-up view of the present invention;
FIG. 4 is a schematic side view of the structure of the present invention;
FIG. 5 is a schematic view of a horizontal plate structure according to the present invention;
FIG. 6 is a schematic view of the verticality detection mechanism of the present invention;
FIG. 7 is an exploded view of the perpendicularity detection mechanism of the present invention;
FIG. 8 is an enlarged view of the structure at A in FIG. 7 according to the present invention;
FIG. 9 is a schematic structural side view of the verticality detection mechanism of the present invention;
FIG. 10 is a schematic view of a translation stage according to the present invention;
FIG. 11 is a schematic view of the cross frame structure of the present invention;
FIG. 12 is a schematic view of the floating plate structure of the present invention.
In the figure: 1. a horizontal plate; 2. a horizontal adjusting seat; 201. a base plate; 202. an inner threaded rod; 203. a sleeve; 204. a foot pad; 205. an adjusting sleeve; 3. a U-shaped frame; 4. hinging a shaft; 5. a perpendicularity detection mechanism; 501. a vertical frame; 502. a motor; 503. a screw rod; 504. a slider; 505. a limiting block; 506. a limiting chute; 507. an electromagnet A; 508. a floating plate; 509. an electromagnet B; 510. a limiting rod; 511. a translation stage; 512. a limiting hole; 513. a return spring; 514. a limit stop block; 515. a through groove; 516. a bump; 517. a connecting shaft; 518. a pulley; 519. an opening; 520. a side lever; 521. a transverse frame; 522. fixing the chute; 523. a square tube; 524. a heater; 525. a hot melt rod; 526. a fixed mount; 527. a hot melt plate; 528. a position sensor A; 529. a position sensor a; 530. a position sensor B; 531. a position sensor b; 532. a thread groove; 533. fixing the bolt; 534. heat dissipation holes; 535. a vertical ruler; 536. grooving; 537. a moving block; 538. a connecting rod; 539. a transverse ruler; 6. horizontal bubble; 7. a water jet; 8. a water pipe; 9. a water bladder; 10. a card slot; 11. a rack; 12. a gear; 13. and (7) pressing a plate.
Detailed Description
Example one
Referring to fig. 1-12, the present invention provides a technical solution:
the utility model provides a municipal works supervise and use straightness detection device that hangs down, the surface of horizontal plate 1 is connected with U type frame 3, the surface of U type frame 3 articulates there is articulated shaft 4, and the surface of articulated shaft 4 is connected with straightness detection mechanism 5 that hangs down, make straightness detection mechanism 5 that hangs down rotate on U type frame 3 through articulated shaft 4, further change the angle of straightness detection mechanism 5 that hangs down on horizontal plate 1, when straightness detection mechanism 5 that hangs down needs to use the straightness that hangs down that detects building wall, through placing horizontal plate 1 on the horizontal plane, it is perpendicular to ground to rotate straightness detection mechanism 5 that hangs down again, make straightness detection mechanism 5 and building wall keep parallel and contradict on the building, make straightness detection mechanism 5 that hangs down can carry out the straightness to the wall of building.
The verticality detection mechanism 5 comprises a vertical frame 501 hinged on the hinge shaft 4, the surface of the vertical frame 501 is hollowed, a lead screw 503 is connected to the center of the hollowed part, the upper end surface of the vertical frame 501 is connected with a motor 502, and the output shaft of the motor 502 is in transmission connection with the lead screw 503, so that the motor 502 can drive the lead screw 503 to rotate;
the surface of the screw 503 is sleeved with a sliding block 504 which is matched with the screw 503, and the rear end of the sliding block 504 is connected with a limiting block 505 which is inserted into a limiting sliding groove 506 arranged on the surface of the vertical frame 501, when the motor 502 drives the screw 503 to rotate in the sliding block 504, the sliding block 504 can slide on the surface of the screw 503 under the limiting action of the limiting block 505, and further the rotation of the motor 502 is controlled reversely, so that the sliding block 504 can slide up and down on the surface of the screw 503;
the surface of the screw rod 503 is further sleeved with a floating plate 508 which is positioned above the slider 504, the upper surface of the slider 504 is connected with an electromagnet A507, the lower surface of the floating plate 508 is connected with an electromagnet B509, and the electromagnets A507 and the electromagnet B509 have opposite magnetism, so that repulsive magnetic force is generated between the electromagnet A507 and the electromagnet B509, and the repulsive magnetic force of the electromagnet A507 to the electromagnet B509 is greater than the gravity of the floating plate 508 per se and other structures on the surface of the floating plate 508, so that the floating plate 508 can float above the slider 504, and when the slider 504 slides on the surface of the screw rod 503, the floating plate 508 is pushed to rise by the magnetic force when the slider 504 rises, and when the floating plate 508 falls, the floating plate 508 falls synchronously under the action of gravity due to the reduction of the magnetic force until the magnetic force is equal to the repulsive magnetic force;
an opening 519 is formed in the surface of the floating plate 508 and used for penetrating through the lead screw 503, limiting rods 510 are connected to two sides, located on the opening 519, of the surface of the floating plate 508, the two limiting rods 510 are distributed in parallel, a translation table 511 is sleeved on the surfaces of the two limiting rods 510, two limiting holes 512 are formed in the surface of the translation table 511 and are matched with the two translation tables 511, the translation table 511 can slide on the surface of the floating plate 508, a limiting block 514 is connected to the front end of the translation table 511, the length of the limiting block 514 is larger than the diameter of the limiting hole 512, the limiting block 514 can limit the translation table 511, the translation table 511 can only slide on the limiting rods 510 on the surface of the floating plate 508, a penetrating groove 515 is formed in the surface of the translation table 511 and used for penetrating through the lead screw 503, and the penetrating groove 515 can enable the translation table 511 to slide on the floating plate 508 without affecting the lead screw 503;
the floating plate 508 is arranged in an L shape, the rear end of the floating plate 508 is also inserted into the limit sliding groove 506, the sliding track of the floating plate 508 on the screw rod 503 is further limited, so that the floating plate 508 can ascend and descend on the screw rod 503 more stably, the surfaces of the limit rods 510 are all sleeved with return springs 513, one ends of the return springs 513 are connected to the surfaces of the floating plate 508, the other ends of the return springs are connected to the surfaces of the translation tables 511, and the elastic force of the return springs 513 always generates acting force on the translation tables 511 to push the translation tables 511 forwards;
and translation platform 511's front end is connected with lug 516, it has pulley 518 to articulate through connecting axle 517 on the lug 516, when straightness detection mechanism 5 that hangs down needs to carry out the vertically to building body wall, be located building body wall one side after sticking up straightness detection mechanism 5, be used for reset spring 513 to the elasticity operation of translation platform 511, make pulley 518 tightly contradict all the time on the building body wall, further open the operation through motor 502, drive slider 504 rises on the surface of lead screw 503, drive kickboard 508 to rise in the lift process, kickboard 508 rises to make and drives translation platform 511 synchronous rising, pulley 518 on translation platform 511 surface can slide at the building body wall this moment, when building body wall is out of plumb, because pulley 518 contradicts at the building body wall all the time, can lead to translation platform 511 to slide at the surface of gag lever post 510, and along with the definition of building body wall, translation platform 511's slip buoyancy also can change, thereby convenience of customers measures the building body wall.
Meanwhile, the surface of the floating plate 508 is connected with a position sensor A528, the side face of the translation table 511 is connected with a side rod 520, the surface of the side rod 520 is connected with a position sensor a529, when the verticality detection mechanism 5 needs to be used, the position of the verticality detection mechanism 5 is adjusted firstly, so that the pulley 518 abuts against the building wall, the position sensor a529 is just coincided with the position of the position sensor A528, when the distance data between the position sensor a529 and the position sensor A528 changes in the lifting process of the translation table 511, a user can quickly know whether the building wall is vertical or not, and the position is inclined.
The side surface of the vertical frame 501 is connected with a fixed frame 526, the surface of the fixed frame 526 is connected with a hot melt plate 527, a side rod 520 connected with the surface of the translation table 511 faces one side of the hot melt plate 527, the surface of the side rod 520 is positioned on the outer side of the hot melt plate 527 and is connected with a transverse frame 521, the surface of the transverse frame 521 is provided with a fixed sliding chute 522, a square pipe 523 is inserted into the fixed sliding chute 522, the square pipe 523 is hollow, the rear end of the square pipe 523 is connected with a heater 524, the surface of one side, facing the hot melt plate 527, of the heater 524 is connected with a hot melt rod 525, the hot melt rod 525 penetrates through the square pipe 523 and faces one side of the hot melt plate 527, the length of one end, penetrating out of the square pipe 523, of the hot melt rod 525 is larger than the distance between the hot melt plate 527 and the square pipe 523, so that when the hot melt rod 525 abuts against the surface of the hot melt plate 527, the heater 524 is started to heat the hot melt rod 525, and the hot melt rod 525 can melt the surface of the hot melt plate 527;
when the translation table 511 ascends in the vertical frame 501, the transverse frame 521 is driven to synchronously ascend, so that the hot melt rod 525 can slide upwards on the surface of the hot melt plate 527, the heater 524 is kept to be started all the time during sliding, the hot melt rod 525 can continuously melt the hot melt plate 527 when sliding upwards on the surface of the hot melt plate 527, when the translation table 511 abuts against the wall surface of the building body to deviate, the transverse frame 521 is driven to synchronously slide, and when the surface of the hot melt plate 527 ascends, the hot melt rod 525 can horizontally move along with the inclination of the wall surface of the building body;
further make straightness detection mechanism 5 that hangs down accomplish to carry out the straightness measurement back that hangs down to building body wall:
if the building wall surface verticality is in accordance with, the pulley 518 does not have large position deviation in the sliding process, so that a more vertical straight line can be melted on the surface of the hot melt plate 527 in the process that the hot melt rod 525 slides upwards on the surface of the hot melt plate 527;
if building body wall vertically is not conform to, then pulley 518 can take place to remove along with building body wall slope and move at the slip in-process, further make hot melt pole 525 at the 527 surface in-process that upwards slides of hot melt plate, can be along with building body wall's skew and sideslip, thereby melt out a comparatively crooked line segment to hot melt plate 527 surface, and the crooked range of hot melt plate 527 surface line segment is the range of building body wall slope just, and the line segment is the position of building body wall slope just.
Meanwhile, a thread groove 532 is arranged on the surface of the transverse frame 521, which is positioned above the fixed sliding groove 522, so that the square pipe 523 can slide in the fixed sliding groove 522 to change the position, and the fixing bolt 533 penetrates through the thread groove 532 and abuts against the surface of the square pipe 523, so that the square pipe 523 can be fixed, the surface of the heater 524 is connected with a position sensor B531, the lower end surface of the fixing frame 526 is positioned at the center and is connected with a position sensor B530, before the verticality detection mechanism 5 is tested, the position of the square pipe 523 in the fixed sliding groove 522 is adjusted, so that the positions of the position sensor B531 and the position sensor B530 are overlapped, further, the initial position of the hot melting rod 525 is positioned at the lower center of the hot melting plate 527, so that the verticality detection mechanism 5 is tested, if the building wall surface is vertical, lines are melted and cut on the hot melting plate 527 vertically upwards, if the building wall surface has an inclination, the distance from the hot melting rod to the two side surfaces of the hot melting plate 527 is the same, so that the hot melting rod 525 inclines to the side, and the hot melting plate 527 can form complete lines on the surface of the hot melting plate 527;
the surface of the square pipe 523 is provided with the heat dissipation holes 534 which are uniformly distributed, so that the heat dissipation of the hot melt rod 525 in long-time operation is facilitated;
meanwhile, through the position adjustment of the position sensor a529 and the position sensor a528, the translation table 511 is in the initial position that the lead screw 503 is just inserted into the center of the through groove 515, and further the translation table 511 has enough stroke no matter which side slides.
The vertical ruler 535 connected to the surface of the fixing frame 526 is located on one side of the hot melting plate 527, so that when the hot melting rod 525 finishes the melting and cutting of the surface of the hot melting plate 527, the vertical ruler 535 can judge the line segment formed after the surface of the hot melting plate 527 is melted and cut, and the inclined height position of the building wall surface is accurately positioned;
and mount 526 sets up to "L" form, and the side of mount 526 is provided with fluting 536, fluting 536 interpolation is equipped with movable block 537, the surface of movable block 537 is connected with connecting rod 538, and connecting rod 538's surface articulates there is horizontal ruler 539, after hot melt pole 525 accomplished the melt-out to hot melt plate 527, slide and be perpendicular with movable block 537 on connecting rod 538 surface through square pipe 523, make horizontal ruler 539 can judge the line segment after the melt-out of hot melt plate 527 surface, thereby accurate calculation building body wall slope amplitude, and then combine the movable block 537 to slide from top to bottom in fluting 536, can be to the vertical complete measurement and calculation of going on of building body wall, and the precision is high.
Meanwhile, the lower end surface of the horizontal plate 1 is connected with a horizontal adjusting seat 2, so that after the horizontal plate 1 is placed on the ground, the horizontal plate 1 can be adjusted to be in a horizontal state through the horizontal adjusting seat 2, and further, after the verticality detection mechanism 5 is erected on the horizontal plate 1, the vertical state can be ensured, so that the accuracy of a measurement result is improved, and the verticality detection mechanism 5 is exactly abutted against the surface of the U-shaped frame 3 after being erected vertically, so that the angular deviation of the verticality detection mechanism 5 is avoided;
the horizontal adjusting seat 2 comprises a bottom plate 201 connected to the lower end surface of a horizontal plate 1, the bottom plate 201 is triangular, three corners of the bottom plate 201 extend out of the lower portion of the horizontal plate 1, horizontal adjustment of the horizontal adjusting seat 2 is facilitated, the three corners of the lower end surface of the bottom plate 201 are connected with an inner threaded rod 202, the inner threaded rod 202 is inserted into a sleeve 203, the inner threaded rod 202 can slide in the sleeve 203, an adjusting sleeve 205 is sleeved on the upper end of the sleeve 203, the adjusting sleeve 205 is matched with the inner threaded rod 202, when the adjusting sleeve 205 rotates on the sleeve 203, the inner threaded rod 202 can be meshed with the inner threaded rod to rotate, the lower portion of the inner threaded rod 202 is limited in the sleeve 203, the inner threaded rod 202 cannot rotate in the sleeve 203, the inner threaded rod 202 can further slide up and down from the sleeve 203, further adjustment is achieved through the rotating direction of the inner threaded rod 202, one corner of the bottom plate 201 can be controlled by the inner threaded rod 202 to conduct height adjustment, adjustment is achieved through adjustment of three groups of adjusting sleeves 205, the horizontal adjusting seat 2 can adjust the surface of the horizontal plate 1 to be in a horizontal state, the lower end surface of the sleeve 203, and the horizontal adjusting seat 2 is placed on the ground to be more stable.
The surface of horizontal plate 1 is connected with horizontal bubble 6 for horizontal adjustment seat 2 can judge the horizontality of horizontal plate 1 according to horizontal bubble 6 when carrying out horizontal adjustment, thereby makes things convenient for horizontal adjustment seat 2 to carry out more accurate horizontal adjustment to horizontal plate 1.
The surface of one side, facing the verticality detection mechanism 5, of the U-shaped frame 3 is connected with two groups of water spraying ports 7, the two groups of water spraying ports 7 are located on two sides of the verticality detection mechanism 5, meanwhile, the surface of one side, facing away from the verticality detection mechanism 5, of the U-shaped frame 3 is connected with a water bag 9, the water bag 9 is connected with the water spraying ports 7 in a hollow mode through water pipes 8, water in the water bag 9 can be transmitted to the water spraying ports 7 through the water pipes 8 and is sprayed out of the water spraying ports 7, the water spraying ports 7 are obliquely opposite to the surface of one side, facing the verticality detection mechanism 5, of the U-shaped frame 3, when the water in the water spraying ports 7 is sprayed out, the surface of the U-shaped frame 3 can be cleaned, one side surface, facing the verticality detection mechanism 5, is cleaner and smoother, and after the verticality detection mechanism 5 abuts against the surface of the U-shaped frame 3, the whole angle of the verticality detection mechanism 5 cannot be blocked due to the dust on the surface of the U-shaped frame 3, and the measurement result is further inaccurate;
meanwhile, the surface of the horizontal plate 1 is provided with a clamping groove 10, a rack 11 is inserted into the clamping groove 10, one end of a hinged shaft 4 penetrates through the U-shaped frame 3 and is connected with a gear 12, the gear 12 and the rack 11 are meshed with each other, when the verticality detection mechanism 5 needs vertical measurement, the verticality detection mechanism 5 can drive the hinged shaft 4 to rotate clockwise on the U-shaped frame 3, the hinged shaft 4 is further enabled to be meshed with the rack 11 to slide in the clamping groove 10, one end of the rack 11 is connected with a pressing plate 13 and is located on one side of the water bag 9, when the rack 11 is driven by the gear 12 to move clockwise, the rack 11 is controlled to be connected to the pressing plate 13 to press the surface of the water bag 9, water in the water bag 9 is further enabled to be extruded, a water spraying port 7 is used for automatically cleaning the surface of the U-shaped frame 3 before the verticality detection mechanism 5 is erected, when the verticality detection mechanism 5 is put down after being used, the hinged shaft 4 can be connected to drive the gear 12 to rotate anticlockwise, the gear 12 is further enabled to slide reversely, and the rack 11 is enabled to slide reversely, and the pressing plate 13 is reset and is contacted to extrude water in the water bag 9, so that the water can be stored again and the water can be conveniently used for the next time.

Claims (10)

1. The utility model provides a municipal works are managed with straightness detection device that hangs down, includes horizontal plate (1), its characterized in that: the surface of the horizontal plate (1) is connected with a U-shaped frame (3), the surface of the U-shaped frame (3) is hinged with a hinged shaft (4), and the surface of the hinged shaft (4) is connected with a verticality detection mechanism (5);
the verticality detection mechanism (5) comprises a vertical frame (501) hinged to a hinged shaft (4), a lead screw (503) is connected to the surface of the vertical frame (501), a motor (502) is connected to the surface of the upper end of the vertical frame (501), an output shaft of the motor (502) is in transmission connection with the lead screw (503), a sliding block (504) matched with the surface of the lead screw (503) is sleeved on the surface of the lead screw (503), a limiting block (505) is connected to the rear end of the sliding block (504) and inserted into a limiting sliding groove (506) formed in the surface of the vertical frame (501), a floating plate (508) is sleeved on the surface of the lead screw (503) and located above the sliding block (504), an electromagnet A (507) is connected to the upper surface of the sliding block (504), an electromagnet B (509) is connected to the lower surface of the floating plate (508), the electromagnets A (507) and the electromagnets B (509) are opposite in magnetism, an opening (519) is formed in the surface of the floating plate (508), limiting rods (510) are connected to the two sides of the opening (519), two sets of the limiting rods (510) are sleeved on the surface, two sets of translation platforms (511) and through grooves (512) are formed in the surfaces of two sets of translation platforms (511), the surface of gag lever post (510) all overlaps and has reset spring (513), the surface at floating plate (508) is connected to the one end of reset spring (513) and the surface at translation platform (511) is connected to the other end, the front end of translation platform (511) is connected with lug (516), it has pulley (518) to articulate through connecting axle (517) on lug (516).
2. The municipal engineering prison is with straightness detection device that hangs down according to claim 1, characterized in that: the front end of the translation table (511) is connected with a limit stop (514), the length of the limit stop (514) is larger than the diameter of the limit hole (512), the floating plate (508) is L-shaped, and the rear end of the floating plate (508) is inserted into the limit sliding groove (506).
3. The municipal works are prised up and are used straightness detection device that hangs down according to claim 1, its characterized in that: a position sensor A (528) is connected to the surface of the floating plate (508), a side rod (520) is connected to the side surface of the translation table (511), and a position sensor a (529) is connected to the surface of the side rod (520).
4. The municipal works are prised up and are used straightness detection device that hangs down according to claim 1, its characterized in that: the side of perpendicular frame (501) is connected with mount (526), the surface of mount (526) is connected with hot melt plate (527), side lever (520) of translation platform (511) surface connection is towards hot melt plate (527) one side, the outside that the surface of side lever (520) is located hot melt plate (527) is connected with crossbearer (521), the surface of crossbearer (521) is provided with fixed spout (522), fixed spout (522) interpolation is equipped with square pipe (523), square pipe (523) set up to the rear end of cavity form and square pipe (523) and are connected with heater (524), heater (524) are connected with hot melt pole (525) towards one side surface of hot melt plate (527), hot melt pole (525) run through square pipe (523) towards hot melt plate (527) one side, hot melt pole (525) are greater than hot melt plate (527) in the interval of square pipe (523) from the one end length that square pipe (523) were worn out.
5. The municipal engineering prison is with straightness detection device that hangs down according to claim 4, characterized in that: a thread groove (532) is formed in the surface of the transverse frame (521) above the fixed sliding groove (522), and a fixing bolt (533) is inserted into the thread groove (532) and abuts against the surface of the square pipe (523).
6. The municipal engineering prison is with straightness detection device that hangs down according to claim 4, characterized in that: the surface of heater (524) is connected with position sensor B (531), the lower extreme surface of mount (526) is located the center and is connected with position sensor B (530).
7. The municipal engineering prison is with straightness detection device that hangs down according to claim 4, characterized in that: the surface of the square pipe (523) is provided with heat dissipation holes (534) which are uniformly distributed.
8. The municipal works are prised up and are used straightness detection device that hangs down according to claim 4, characterized in that: the surface of the fixing frame (526) is connected with a vertical ruler (535) positioned on one side of the hot melting plate (527), the fixing frame (526) is arranged in an L shape, a slot (536) is formed in the side surface of the fixing frame (526), a moving block (537) is inserted into the slot (536), a connecting rod (538) is connected to the surface of the moving block (537), and a transverse ruler (539) is hinged to the surface of the connecting rod (538).
9. The municipal works are prised up and are used straightness detection device that hangs down according to claim 1, its characterized in that: the lower extreme surface of horizontal plate (1) is connected with horizontal regulation seat (2), horizontal regulation seat (2) are including connecting bottom plate (201) at horizontal plate (1) lower extreme surface, bottom plate (201) set up to three horn shapes, the three edges of lower extreme surface of bottom plate (201) all are connected with internal thread pole (202), internal thread pole (202) are inserted and are established in sleeve pipe (203), the upper pot head of sleeve pipe (203) has adjusting collar (205), adjusting collar (205) and internal thread pole (202) looks adaptation, the lower part of internal thread pole (202) is spacing in sleeve pipe (203), the lower extreme surface of sleeve pipe (203) is connected with callus on the sole (204), the surface of horizontal plate (1) is connected with horizontal bubble (6).
10. The municipal engineering prison is with straightness detection device that hangs down according to claim 1, characterized in that: the surface of one side of the U-shaped frame (3) facing the verticality detection mechanism (5) is connected with two groups of water spraying ports (7), the two groups of water spraying ports (7) are located on two sides of the verticality detection mechanism (5), one side surface of the U-shaped frame (3) facing away from the verticality detection mechanism (5) is connected with a water bag (9), a water passing pipe (8) and the water spraying ports (7) are connected in the water bag (9) in a hollow mode, a clamping groove (10) is formed in the surface of the horizontal plate (1), a rack (11) is inserted into the clamping groove (10), one end of the articulated shaft (4) penetrates through the U-shaped frame (3) and is connected with a gear (12), the gear (12) is meshed with the rack (11), and one end of the rack (11) is connected with a pressing plate (13) and located on one side of the water bag (9).
CN202211541871.5A 2022-12-02 2022-12-02 Municipal works are managed with straightness detection device that hangs down Withdrawn CN115790552A (en)

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CN202211541871.5A CN115790552A (en) 2022-12-02 2022-12-02 Municipal works are managed with straightness detection device that hangs down

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Application Number Priority Date Filing Date Title
CN202211541871.5A CN115790552A (en) 2022-12-02 2022-12-02 Municipal works are managed with straightness detection device that hangs down

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN117516476A (en) * 2023-11-23 2024-02-06 山西清泰恒环保科技有限公司 Verticality detector for quality detector of building energy-saving engineering

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN117516476A (en) * 2023-11-23 2024-02-06 山西清泰恒环保科技有限公司 Verticality detector for quality detector of building energy-saving engineering
CN117516476B (en) * 2023-11-23 2024-03-22 山西清泰恒环保科技有限公司 Verticality detector for quality detector of building energy-saving engineering

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