CN114837441A - Wall positioning device for assembly type building - Google Patents

Abstract

The invention relates to a positioning device, in particular to a wall positioning device for an assembly type building. The invention provides a wall positioning device for an assembly type building, which can be positioned in place in one step without secondary adjustment. The utility model provides a wall body positioner for assembly type structure, includes bottom plate, mounting panel, spacing and elevator etc. and the mounting panel bilateral symmetry is equipped with the bottom plate, and two bottom plate top rear sides all are equipped with spacing, and two equal slidingtype elevator that are used for supporting wall body of spacing upside are equipped with. The motor is used as a power source to enable the threaded shaft to rotate, so that the pointer and the pushing block move away from each other, the moving distance of the pushing block is obtained through the graduated scale, the position of the steel bar pushing device is measured out through the obtained data and the thickness of the wall, the wall can be directly inserted into a steel bar without being adjusted again, and a relatively accurate positioning effect is achieved.

Description

Wall positioning device for assembly type building

Technical Field

The invention relates to a positioning device, in particular to a wall positioning device for an assembly type building.

Background

The prefabricated building is a building which is assembled and formed on a site by using prefabricated components, so that the assembled and formed building has the advantages of short construction time and small weather restriction, but the defect of unstable wall connection exists in practical application, so that the prefabricated building is generally applied to the field of short-time use, and the prefabricated building generally needs manpower or a positioning device to position the prefabricated components in the construction process so as to ensure that the components can be accurately aligned to the assembled positions.

The utility model discloses a publication number is CN215055520U, and application number is CN 202120825981.9's an energy-concerving and environment-protective type's for assembly type building wall body positioner, the device include the bottom plate, the inside of bottom plate is provided with the spout, and the inside of spout is provided with the slider, the top of slider is connected with the connecting block, and the top of connecting block is connected with the spliced pole, the motor is installed on the top of spliced pole, and the output of motor is connected with the lead screw, one side of lead screw is connected with the loop bar. According to the wallboard clamping device, the wallboard is clamped by the two groups of clamping plates through the arranged bottom plate, the sliding groove, the sliding block, the connecting block, the motor, the lead screw, the sleeve rod, the moving block, the clamping plates, the pulley, the connecting column, the rotating shaft and the detection mirror, the mechanical energy of the wallboard is assisted to descend, the descending stability is kept, the two groups of clamping plates which are arranged oppositely can move relatively by starting the motor, so that the wallboard is clamped, the thickness of the wallboard is not limited, the positioning is convenient, and the labor intensity is reduced. Although the above patent reduces artifical intensity of labour when convenient location, the assembled wall body bottom will generally open the hole groove to the adapting unit such as reinforcing bar or bolt can pass through the hole groove and insert in the wall body when the wall body falls, in order to guarantee the stability of wall body, also consequently still need the operation slider in order to guarantee that the wall body can fix a position appointed position after above patent is with the wall body centre gripping, in order to guarantee that the hole groove can aim at the reinforcing bar and insert when descending, so the operation is comparatively loaded down with trivial details, and the wall body is general all comparatively heavy, in the in-process of location, it is also comparatively difficult to remove, consequently still there are some defects in the positioning work of wall body.

In view of the above, there is a need to design a wall positioning device for prefabricated buildings that can be positioned in place in one step without readjustment.

Disclosure of Invention

In order to overcome the defect that the existing positioning device needs to operate a sliding block after clamping a wall body so as to ensure that the wall body can be positioned to an appointed position, the operation is more complicated, the technical problem of the invention is as follows: the wall positioning device for the fabricated building is capable of being positioned in place in one step without readjustment.

The technical implementation scheme of the invention is as follows: the utility model provides an assembly type is wall body positioner for building, comprising a base plate, the mounting panel, spacing, the elevator, the guide bar, measuring mechanism, positioning mechanism and push mechanism, the mounting panel bilateral symmetry is equipped with the bottom plate, two bottom plate top rear sides all are equipped with spacing, two equal slidingtype lifters that are used for supporting the wall body of spacing upside, two bottom plate top rear sides all are equipped with the guide bar, two lifters all link to each other with the guide bar slidingtype of homonymy, be equipped with measuring mechanism on the lifter, the last positioning mechanism that is equipped with of measuring mechanism, be equipped with push mechanism in the measuring mechanism.

More preferably, the measuring mechanism comprises protective covers, triangular shells, connecting rings, motors, belt pulleys, flat belts, threaded shafts, pointers, pushing blocks, graduated scales and pressure sensors, the protective covers are arranged on the upper portions of the two lifting blocks, the triangular shells are connected between the front sides of the lower portions of the two protective covers, the connecting rings are arranged in the middle of the triangular shells, the motors are arranged on the connecting rings, the threaded shafts are rotatably arranged on the left side and the right side of the triangular shells respectively, grooves in the threaded shafts are bidirectional threaded grooves, the belt pulleys are arranged on the front sides of the two threaded shafts and on the output shaft of the motors, the flat belts are sleeved between the three belt pulleys, the graduated scales are arranged on the inner side walls of the two protective covers, the pushing blocks are arranged on the rear sides of the two threaded shafts in a threaded mode, the two protective covers can limit the pushing blocks on the same side, the pointers are arranged on the front sides of the two threaded shafts in a threaded mode, and are connected with the protective covers on the same side in a sliding mode, and the rear sides of the lower parts of the two pushing blocks are respectively provided with a pressure sensor, and the pressure sensors are electrically connected with the motor.

More preferably, the positioning mechanism comprises fixed rods, sliding tubes, extension springs, rotating plates, guide blocks, sliding shafts, extrusion springs, limiting blocks, wedge-shaped plates, limiting rods, push-pull boxes and limiting shafts, the push-pull boxes are arranged on the rear sides of the two protective covers in a sliding manner, the fixed rods are arranged between the two lifting blocks, the sliding tubes are arranged on the two fixed rods in a sliding manner, the two sliding tubes are connected with the interiors of the push-pull boxes on the same side, the extension springs are connected between the two sliding tubes and the fixing rods on the same side, the rotating plates are arranged on the outer sides of the two sliding tubes in a rotating manner, the limiting shafts are arranged on the outer sides of the two sliding tubes, the guide blocks are arranged on the two limiting shafts in a sliding manner, the sliding shafts are arranged on the two guide blocks in a sliding manner and in a rotating manner, the two sliding shafts are connected with the middles of the rotating plates on the same side, the extrusion springs are connected between the two guide blocks and the sliding tubes on the same side, two guide block top front sides all are equipped with the stopper, and two equal rotary types of rotor plate upside are equipped with the gag lever post, and two gag lever posts all link to each other with the stopper slidingtype of homonymy, and two gag lever posts inboards all are equipped with the wedge board that is used for the location.

More preferably, push mechanism is including the connecting block, the dwang, torsion spring, the push rod, the Z-shaped piece, positive magnet and negative magnet, the upside all is equipped with the connecting block in two protection casings, equal rotary type is equipped with the dwang on two connecting blocks, equal slidingtype and rotary type in two dwang outsides are equipped with the push rod, all be connected with torsion spring between the connecting block of two dwang and homonymy, equal slidingtype is equipped with the Z-shaped piece on two push rods, two Z-shaped piece rear sides all are equipped with positive magnet, two sliding shaft inboards all are equipped with negative magnet, two sliding shaft homoenergetic can produce magnetic force with positive magnet through negative magnet, and then contact with the Z-shaped piece of homonymy, two pointer upper portions all cooperate with the dwang of homonymy.

More preferably, still including the screens mechanism of being convenient for height-adjusting, screens mechanism is including the locating lever, the fixture block, reset spring, protecting tube and coupling spring, two elevator lower parts all evenly open there are six screens grooves, two spacing upper portion left and right sides all are equipped with the locating lever, all slidingtype is equipped with the fixture block on four locating levers, every fixture block all cooperates with the screens groove joint of homonymy, all be connected with reset spring between the locating lever of every fixture block and homonymy, all be connected with the protecting tube between the elevator downside of two guide bar upper portions and homonymy, the protecting tube is scalable, all be connected with coupling spring between the guide bar upside of two elevator lower parts and homonymy, two coupling spring all are located inside the protecting tube of homonymy.

More preferably, the lifting device comprises a lifting mechanism, the lifting mechanism comprises a fixed frame, electric push rods, a guide frame, mounting blocks, rotating shafts, connecting rods, bolts and compression springs, the fixed frame is arranged at the rear side of the tops of the two bottom plates, the electric push rods are arranged on the two fixed frames, the guide frame is arranged at the front side of the tops of the two bottom plates, the mounting blocks are arranged at the front parts of the two lifting blocks, two electric push rod telescopic rods are connected with the guide frame at the same side in a sliding manner, the rotating shafts are arranged at the front sides of the two electric push rod telescopic rods in a rotating manner, the connecting rods are arranged at the upper sides of the two rotating shafts in a sliding manner, the upper sides of the two connecting rods are connected with the mounting blocks at the same side in a rotating manner, the bolts are arranged at the lower parts of the two connecting rods in a threaded manner, and pass through the upper sides of the rotating shafts at the same side, and is connected with the axis of rotation slidingtype of homonymy, all is connected with compression spring between the axis of rotation top of two connecting rods and homonymy.

More preferably, still including being used for detecting this assembly type for building wall body positioner's detection mechanism whether firm, detection mechanism is including the mounting bracket, the spirit level, the guiding axle, sliding ball and return spring, the mounting panel top is equipped with the mounting bracket, be equipped with the spirit level in the middle of the mounting bracket, the mounting bracket left and right sides all is equipped with the guiding axle, the equal slidingtype of two guiding axles is equipped with the sliding ball, two sliding balls homoenergetic can be at the inside slip of mounting bracket, all be connected with return spring between the guiding axle of both sides and homonymy around two sliding balls.

More preferably, the two push-pull boxes are provided with handles at the sides far away from each other.

Compared with the prior art, the invention has the following advantages: 1. the motor is used as a power source to rotate the threaded shaft, so that the pointer and the pushing block move away from each other, the moving distance of the pushing block is obtained through the graduated scale, the position of the steel bar pushing device is measured through the obtained data and the thickness of the wall body, the wall body can be directly inserted into the steel bar without being adjusted again, and a relatively accurate positioning effect is achieved;

2. under the matching action of the pushing mechanism, the wedge-shaped plate can automatically move backwards and downwards at the same time so as to keep a vertical state, and the distance between the wedge-shaped plate and the pushing block is opposite to the moving distance of the pushing block, so that a wall body can conveniently move downwards along the wedge-shaped plate so as to be inserted into a steel bar without manual operation;

3. the lifting block is clamped by the clamping block, so that the stability of the device can be improved, and the electric push rod can enable the rotating shaft and the connecting rod to rotate, so that the overall height of the device can be automatically adjusted to be suitable for walls with different heights;

4. the rotating shaft, the connecting rod, the bottom frame, the limiting frame and the lifting block form a triangular state, so that the device is more stable, and the wall body is prevented from inclining due to deviation;

5. when this device propelling movement to reinforcing bar the place ahead, when pressing the stone appearance tilt state to this device below, people through looking over the spirit level alright learn, and then in time clear up the rubble of this device below to guarantee the stability of this device, avoid wall body location inaccuracy to influence.

Drawings

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

Fig. 2 is a partial perspective view of the present invention.

Fig. 3 is a first partial cross-sectional view of the measuring device according to the invention.

Fig. 4 is a second partial cross-sectional view of the measuring mechanism of the present invention.

Fig. 5 is a schematic perspective view of the positioning mechanism of the present invention.

Fig. 6 is a partial cross-sectional view of the positioning mechanism of the present invention.

Fig. 7 is a schematic perspective view of a part of the positioning mechanism of the present invention.

Fig. 8 is a schematic perspective view of the pushing mechanism of the present invention.

Fig. 9 is a schematic perspective view of a part of the pushing mechanism of the present invention.

Fig. 10 is a partial cross-sectional view of the detent mechanism of the present invention.

Fig. 11 is an enlarged view of the invention at a.

Fig. 12 is a schematic perspective view of the lifting mechanism of the present invention.

Fig. 13 is a partial cross-sectional view of the lift mechanism of the present invention.

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

Fig. 15 is a partial cross-sectional view of the detection mechanism of the present invention.

The parts are labeled as follows: 1. a bottom plate, 2, a mounting plate, 3, a limiting frame, 4, a lifting block, 5, a guide rod, 6, a measuring mechanism, 601, a protective cover, 60, a triangular shell, 61, a connecting ring, 62, a motor, 63, a belt pulley, 64, a flat belt, 65, a threaded shaft, 66, a pointer, 67, a pushing block, 68, a graduated scale, 69, a pressure sensor, 7, a positioning mechanism, 70, a fixing rod, 71, a sliding tube, 72, a tension spring, 73, a rotating plate, 74, a guide block, 75, a sliding shaft, 76, an extrusion spring, 77, a limiting block, 78, a wedge plate, 79, a limiting rod, 710, a push-pull box, 711, a limiting shaft, 8, a pushing mechanism, 80, a connecting block, 81, a rotating rod, 82, a torsion spring, 83, a pushing rod, 84, a Z-shaped block, 85, a positive magnet, 86, a negative magnet, 9, a clamping mechanism, 90, a positioning rod, a clamping block, 92, a reset spring, 93. the device comprises a protective pipe, 94, a connecting spring, 95, a clamping groove, 10, a lifting mechanism, 100, a fixing frame, 101, an electric push rod, 102, a guide frame, 103, an installation block, 104, a rotating shaft, 105, a connecting rod, 106, a bolt, 107, a compression spring, 11, a detection mechanism, 110, an installation frame, 111, a level gauge, 113, a guide shaft, 114, a sliding ball, 115 and a return spring.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

Example 1

The utility model provides a wall body positioner for assembly type structure, show in fig. 1-2, including bottom plate 1, mounting panel 2, spacing 3, elevator 4, guide bar 5, measuring mechanism 6, positioning mechanism 7 and push mechanism 8, 2 bilateral symmetry welding of mounting panel has bottom plate 1, spacing 3 has all been welded to two 1 top rear sides of bottom plate, two 3 upside sliding type of spacing are equipped with elevator 4, two 1 top rear sides of bottom plate all are equipped with and are used for spacing guide bar 5, two elevator 4 all link to each other with the 5 sliding type of guide bar of homonymy, be equipped with the measuring mechanism 6 that can measure the distance between this device and the reinforcing bar on the elevator 4, be equipped with positioning mechanism 7 that can fix a position the wall body on measuring mechanism 6, be equipped with push mechanism 8 in the measuring mechanism 6.

As shown in fig. 1, 3 and 4, the measuring mechanism 6 includes a protective cover 601, a triangular shell 60, a connecting ring 61, a motor 62, a belt pulley 63, a flat belt 64, a threaded shaft 65, a pointer 66, a pushing block 67, a scale 68 and a pressure sensor 69, the protective cover 601 is arranged on the upper portion of each of the two lifting blocks 4, the triangular shell 60 is connected between the front sides of the lower portions of the two protective covers 601, the connecting ring 61 is connected to the middle of the triangular shell 60 through a bolt, the motor 62 is mounted on the connecting ring 61, the threaded shafts 65 are rotatably arranged on the left and right sides of the triangular shell 60, the grooves on the threaded shafts 65 are bidirectional threaded grooves, the belt pulley 63 is arranged on the front sides of the two threaded shafts 65 and the output shaft of the motor 62, the flat belt 64 is sleeved between the three belt pulleys 63, the scale 68 is arranged on the inner side walls of the two protective covers 601, the pushing block 67 is threadedly arranged on the rear sides of the two threaded shafts 65, two protection casings 601 all can be spacing to the propelling movement piece 67 of homonymy, and the equal screw thread formula in two threaded shaft 65 front sides is equipped with pointer 66, and two pointers 66 all are connected with the protection casing 601 sliding connection of homonymy, and pressure sensor 69 is all installed to two propelling movement piece 67 lower part rear sides, and pressure sensor 69 links to each other with motor 62 electrical property.

As shown in fig. 1, 5, 6 and 7, the positioning mechanism 7 includes a fixing rod 70, a sliding tube 71, an extension spring 72, a rotating plate 73, a guide block 74, a sliding shaft 75, an extrusion spring 76, a limiting block 77, a wedge plate 78, a limiting rod 79, a push-pull box 710 and a limiting shaft 711, the push-pull box 710 is slidably disposed at the rear side of each of the two protective covers 601, a handle is disposed at one side of each of the two push-pull boxes 710 away from each other, so that a user can pull the handle to control the push-pull box 710, the fixing rod 70 is disposed between the two lifting blocks 4, the sliding tube 71 is slidably disposed on each of the two fixing rods 70, the two sliding tubes 71 are connected with the insides of the push-pull boxes 710 at the same side, the extension spring 72 is connected between each of the two sliding tubes 71 and the fixing rod 70 at the same side, the rotating plate 73 is rotatably disposed at the outsides of the two sliding tubes 71, the limiting shaft 711 is disposed at the outsides of the two sliding tubes 71, all slidingtype is equipped with guide block 74 on two spacing axles 711, all slidingtype and rotary type are equipped with sliding shaft 75 on two guide block 74, link to each other in the middle of two sliding shaft 75 all with the rotor plate 73 of homonymy, all be connected with extrusion spring 76 between the sliding tube 71 of two guide block 74 and homonymy, two guide block 74 top front sides all are equipped with stopper 77, two equal rotary types of rotor plate 73 upside are equipped with gag lever post 79, two gag lever posts 79 all link to each other with the stopper 77 slidingtype of homonymy, two gag lever post 79 inboards all are equipped with and carry out spacing wedge 78 to the wall body.

As shown in fig. 1, 8 and 9, the pushing mechanism 8 includes a connecting block 80, a rotating rod 81, a torsion spring 82, a pushing rod 83, Z-shaped blocks 84, a positive magnet 85 and a negative magnet 86, the connecting block 80 is disposed on the upper side of the two shields 601, the rotating rod 81 is disposed on the two connecting blocks 80, the pushing rod 83 is disposed on the outer side of the two rotating rods 81 in a sliding and rotating manner, the torsion spring 82 is connected between the two rotating rods 81 and the connecting block 80 on the same side, the Z-shaped blocks 84 are disposed on the two pushing rods 83 in a sliding manner, the positive magnet 85 is disposed on the rear side of the two Z-shaped blocks 84, the negative magnet 86 is disposed on the inner side of the two sliding shafts 75, the two sliding shafts 75 can generate magnetic force with the positive magnet 85 through the negative magnet 86 and then contact with the Z-shaped blocks 84 on the same side, the positive magnet 85 and the negative magnet 86 can enable the sliding shafts 75 and the Z-shaped blocks 84 to be tightly attached, the upper parts of the two pointers 66 are matched with the rotating rod 81 at the same side.

When a wall body needs to be installed, in order to ensure the accuracy of wall body installation, people need to firstly drill a plurality of steel bars on a building plane and then match the steel bars with the wall body, then push the device to the side of the steel bars, then start the motor 62, rotate the output shaft of the motor 62 to drive the middle belt pulley 63 to rotate, further drive the flat belt 64 to rotate, drive the other two belt pulleys 63 to rotate by the flat belt 64, drive the threaded shaft 65 to rotate by the belt pulleys 63 on the left side and the right side, because the threaded grooves on the threaded shaft 65 are bidirectional, the threaded shaft 65 can drive the pointer 66 to move towards the front side, simultaneously drive the pushing block 67 to move towards the rear side, the pushing block 67 further drives the pressure sensor 69 to move towards the rear side, the pointer 66 moves towards the front side to push the rotating rod 81 to rotate, the torsion spring 82 deforms along with the threaded groove, the rotating rod 81 rotates to drive the pushing rod 83 and the Z-shaped block 84 to rotate, the Z-shaped block 84 drives the positive magnet 85 to rotate, the Z-shaped block 84 pushes the sliding shaft 75 to rotate backward along the guide block 74, the sliding shaft 75 drives the rotating plate 73 to rotate along the sliding tube 71, the rotating plate 73 further drives the sliding shaft 75 and the guide block 74 to move downward, the extrusion spring 76 compresses therewith, the negative magnet 86 rotates along with the sliding shaft 75, the Z-shaped block 84 is driven to move downward along the pushing rod 83 by the magnetic force of the negative magnet 86 and the positive magnet 85, the Z-shaped block 84 is driven to keep contact with the sliding shaft 75, the positioning mechanism 7 is further smoothly completed, the guide block 74 moves downward to drive the limit block 77 to move downward, the rotation of the rotating plate 73 drives the limit rod 79 to move backward, and the limit rod 79 moves downward under the synchronous influence of the downward movement of the limit block 77 and the rotation of the rotating plate 73 because the limit rod 79 is limited by the limit block 77, thus, the wedge plate 78 will move downward while moving to the rear side, and will remain in a vertical state, when the pressure sensor 69 moves to contact with the steel bar, the motor 62 will continue to operate, so that the pressure sensor 69 senses the pressure, and further the motor 62 will be controlled to stop operating, at this time, people can check the value of the pointer 66 aligned with the graduated scale 68, and compare the value with the wall thickness through calculation, if the distance of the initial pointer 66 is inconsistent with the wall thickness, at this time, people can move the whole device to the front side, so that the pressure sensor 69 is not in contact with the steel bar, and then pull the distance apart, people can continue to operate the motor 62, after the pointer 66 moves to be aligned with the value of half of the wall thickness on the graduated scale 68, people can turn off the motor 62, if the pressure sensor 69 is not in contact with the steel bar at this time, people can directly move the whole device to the rear side, the pressure sensor 69 is contacted with the steel bar, so that the distance between the rear wall of the device and the steel bar is adjusted, the sliding shaft 75 is positioned right above the steel bar, the distance between the wedge-shaped plate 78 and the push-pull box 710 is the thickness of the wall surface, then people can use a crane to lift the wall body, so that the wall body moves downwards from the upper part of the device, the wall body is moved to the position between the wedge-shaped plate 78 and the lifting block 4, the wall body moves downwards along the wedge-shaped plate 78 and the lifting block 4, in the moving process of the wall body, people can control the motor 62 to run reversely, the output shaft of the motor 62 rotates reversely to drive the belt pulley 63 in the middle to rotate reversely, further the flat belt 64 is driven to rotate reversely, the belt pulley 63 on the left side and the belt pulley on the right side and the threaded shaft 65 rotate reversely, the threaded shaft 65 can drive the pushing block 67 to move forwards to reset, further the pointer 66 to move backwards to reset, the pointer 66 moves towards the rear side, the rotating rod 81 is not blocked any more, the rotating rod 81 can reversely rotate and reset under the resetting action of the torsion spring 82, the rotating rod 81 further drives the push rod 83 and the Z-shaped block 84 to reversely rotate, so that the Z-shaped block 84 drives the positive magnet 85 to reversely rotate and reset, the positive magnet 85 does not generate magnetic force with the negative magnet 86 any more, after the pointer 66 resets, people can close the motor 62, then the wall body is continuously attached to the wedge-shaped plate 78 and the lifting block 4 to move downwards to penetrate into the steel bar, under the action of the device, the phenomenon that the wall body is toppled due to inaccurate position installation can be avoided, after the steel bar is pricked into the wall body, people pour cement into the wall body, the wall body and the ground are fixed together, after the cement is poured into the wall body, people can move the lifting block 4, the lifting block 4 can move along the guide rod 5 and the limiting frame 3, and the overall height of the device can be adjusted, so that people can conveniently adjust the height of the wall body, after the height of the device is adjusted, the lifting block 4 and the wall body can be fixed together by using screws, the limiting frame 3 and the wall body are fixed, the mounting plate 2 can be inserted with screws, the mounting plate 2 and the ground are fixed, people only need to wait for cement solidification, when the cement solidified wall body is completely fastened, people can firstly dismount the screws for fixing the lifting block 4, the limiting frame 3 and the mounting plate 2, then can pull the push-pull box 710 outwards to drive the sliding tube 71 to move outwards, the stretching spring 72 is stretched accordingly, the sliding tube 71 can move outwards to drive the rotating plate 73, the limiting shaft 711, the guide block 74 and the sliding shaft 75 to move outwards, the sliding shaft 75 further drives the anode magnet 85 to move outwards, the rotating plate 73 and the guide block 74 further drive the limiting block 77, The limiting rod 79 and the wedge plate 78 move outwards, after the wedge plate 78 is no longer in contact with the wall surface, the guide block 74 drives the sliding shaft 75 and the positive magnet 85 to move upwards and slide forwards for resetting under the resetting action of the extrusion spring 76, and simultaneously drives the limiting block 77 to move upwards, the sliding shaft 75 drives the rotating plate 73 to rotate reversely along the sliding tube 71, the rotating plate 73 further drives the limiting rod 79 to slide forwards along the limiting block 77 and move upwards for resetting, the limiting rod 79 drives the wedge plate 78 to move forwards and move upwards for resetting at the same time, so that after the wedge plate 78 is separated from the wall body, people can move the whole device forwards to make the whole device positioned in front of the wall body, then people loosen the push-pull box 710 to make the sliding tube 71 drive the rotating plate 73 and the limiting shaft 711 to move inwards for resetting under the resetting action of the tension spring 72, the rotating plate 73 and the limiting shaft 711 further drive the positive magnet 85, the sliding shaft 75, the guide block 74, the limiting block 77 and the limiting rod 79 to move inwards for resetting, the limiting rod 79 drives the wedge-shaped plate 78 to move inwards for resetting, when the positive magnet 85 and the negative magnet 86 approach each other, the positive magnet 85 can absorb the negative magnet 86 to move upwards through magnetic force between the positive magnet 85 and the negative magnet, so that the negative magnet 86 drives the Z-shaped block 84 to move upwards along the pushing rod 83 for resetting, and the Z-shaped block 84 and the sliding shaft 75 are contacted with each other again, so that the installation of a wall body is completed, the moving distances of the pushing block 67 and the wedge-shaped plate 78 are consistent under the action of the pushing mechanism 8, and meanwhile, the sliding shaft 75 is moved to be right above a reinforcing steel bar, so that the center of the wall body is inserted downwards into the reinforcing steel bar, the accuracy is improved, and manual control is not needed.

Example 2

On the basis of embodiment 1, as shown in fig. 1, 10 and 11, the device further comprises a locking mechanism 9, wherein the locking mechanism 9 comprises a positioning rod 90 and a latch 91, reset spring 92, protective tube 93 and connecting spring 94, two 4 lower parts of elevator block have all evenly opened six screens groove 95, locating lever 90 has all been welded to two 3 upper portion left and right sides on spacing frame, all slidingtype is equipped with the fixture block 91 that can stabilize elevator block 4 on four locating levers 90, every fixture block 91 all cooperates with the 95 joint in screens groove of homonymy, all be connected with reset spring 92 between every fixture block 91 and the locating lever 90 of homonymy, all be connected with the protective tube 93 that is used for the protection between the 4 downside of elevator block of two 5 upper portions of guide bar and homonymy, protective tube 93 is scalable, all be connected with connecting spring 94 between the 5 upsides of guide bar of two 4 lower parts of elevator block and homonymy, two connecting spring 94 all are located inside the protective tube 93 of homonymy.

As shown in fig. 1, 12 and 13, the lifting device 10 further comprises a lifting mechanism 10, the lifting mechanism 10 comprises a fixing frame 100, an electric push rod 101, a guide frame 102, a mounting block 103, a rotating shaft 104, a connecting rod 105, a bolt 106 and a compression spring 107, the fixing frame 100 is connected to the rear side of the top of each bottom plate 1 through a screw connection mode, the electric push rod 101 is arranged on each fixing frame 100, the guide frame 102 is arranged on the front side of the top of each bottom plate 1, the mounting block 103 is arranged on the front portion of each lifting block 4, the telescopic rods of the electric push rods 101 are slidably connected with the guide frame 102 on the same side, the rotating shaft 104 is rotatably arranged on the front side of each telescopic rod of the electric push rods 101, the connecting rod 105 is slidably arranged on the upper side of each rotating shaft 104, the upper sides of the connecting rods 105 are rotatably connected with the mounting block 103 on the same side, the lower portions of the connecting rods 105 are respectively provided with the bolt 106 in a threaded mode, and the two bolts 106 pass through the upper sides of the rotating shafts 104 on the same side, and is connected with the rotating shaft 104 at the same side in a sliding way, and a compression spring 107 is connected between the two connecting rods 105 and the top of the rotating shaft 104 at the same side.

After the wall is pricked into the steel bar, if the height of the whole device needs to be adjusted, people can firstly pull the clamping block 91 outwards, the return spring 92 is compressed along with the clamping block 91, the clamping block 91 does not clamp the clamping groove 95 when moving outwards, then people can start the electric push rod 101, the telescopic rod of the electric push rod 101 is in an extending state initially, after the electric push rod 101 is started, the telescopic rod of the electric push rod 101 is shortened to drive the rotating shaft 104 to move backwards, the rotating shaft 104 rotates along the telescopic rod of the electric push rod 101, the rotating shaft 104 rotates to drive the connecting rod 105 and the bolt 106 to rotate, the connecting rod 105 rotates along the mounting block 103 to further push the mounting block 103 and the lifting block 4 to move upwards, the connecting spring 94 is compressed along with the connecting rod, the lifting block 4 pulls the lower end of the protective pipe 93 to move upwards, so that the protective pipe 93 is folded and shortened, and the distance along with the shortening of the electric push rod 101 is shortened, the connecting rod 105 is gradually rotated, the height of the lifting block 4 is further increased, the measuring mechanism 6, the positioning mechanism 7 and the pushing mechanism 8 are integrally moved upwards, people can adjust according to the height of the wall body, after the height of the lifting block 4 is adjusted, people can close the electric push rod 101, then loosen the clamping block 91, enable the clamping block 91 to move inwards to reset under the resetting action of the reset spring 92, and further clamp into the corresponding clamping groove 95, so that the lifting block 4 is fixed, the initial state rotating shaft 104, the rotating rod 81, the lifting block 4, a right-angled triangle state is formed between the limiting frame 3 and the bottom plate 1, the rotating shaft 104 and the rotating rod 81 are triangular inclined planes, the bottom plate 1 is a triangular bottom edge, the limiting frame 3 and the lifting block 4 are triangular edges, and the right-angle of the triangle changes after the rotating shaft 104 moves backwards, in order to ensure the stability, the angle between the rotating shaft 104 and the rotating rod 81 can be adjusted to ensure the stability of the lifting block 4 and the limiting frame 3, during the specific operation, one can firstly rotate the bolt 106 to loosen the bolt 106, then control the reverse operation of the electric push rod 101, so that the telescopic rod of the electric push rod 101 extends to push the rotating shaft 104 to move towards the rear side and rotate, and simultaneously slide downwards along the rotating shaft 104 and the bolt 106, the return spring 115 is stretched along with the bolt, the rotating shaft 104 also drives the connecting rod 105 to rotate reversely, thus the angle between the rotating shaft 104 and the bottom plate 1 is reduced, the triangular state formed with the limiting frame 3 is more stable, after the position of the rotating shaft 104 is adjusted, one can close the electric push rod 101, then tighten the bolt 106 to enable the bolt 106 to cling to the rotating shaft 104 through the connecting rod 105, thereby fixing the rotating shaft 104, thus, the angle between the rotating shaft 104 and the bottom plate 1 can be adjusted by loosening the bolt 106 to ensure the stability of the device, after the bolt 106 is tightened, the height of the lifting block 4 can be adjusted by the electric push rod 101 to conform to the walls with different heights, and similarly, when the height of the lifting block 4 needs to be reduced, whether the bolt 106 is tightened or not is determined, then the above operation is repeated to prevent the clamping block 91 from clamping the clamping groove 95, then the electric push rod 101 is controlled to run reversely, so that the telescopic rod of the electric push rod 101 extends to drive the rotating shaft 104 to move forwards, the rotating shaft 104 rotates along the telescopic rod and simultaneously drives the connecting rod 105 to rotate, the connecting rod 105 pulls the mounting block 103 and the lifting block 4 to move downwards, the lifting block 4 carries the measuring mechanism 6, the positioning mechanism 7 and the pushing mechanism 8 to move downwards integrally, and the connecting spring 94 resets accordingly, the lifting block 4 moves downwards to drive the lower end of the protection tube 93 to move downwards, after the lifting block 4 is adjusted downwards, people can close the electric push rod 101, then the clamping block 91 is reset to clamp the clamping groove 95, if the angle between the rotating shaft 104 and the bottom plate 1 needs to be increased, the bolt 106 is unscrewed by firstly repeating the operation, then the rotating shaft 104 is moved backwards and rotates backwards through the electric push rod 101, meanwhile, the connecting rod 105 is driven to rotate backwards, the bolt 106 slides upwards along with the connecting rod 105, the compression spring 107 resets accordingly, the angle between the rotating shaft 104 and the bottom plate 1 is enlarged, and the finally formed triangular state is more stable.

Shown in fig. 1, 14 and 15, still including detection mechanism 11, detection mechanism 11 is including mounting bracket 110, spirit level 111, guiding axle 113, sliding ball 114 and return spring 115, mounting panel 2 top is equipped with mounting bracket 110, be equipped with in the middle of mounting bracket 110 and detect whether smooth spirit level 111 is placed to this device, the mounting bracket 110 left and right sides all is equipped with guiding axle 113, all slidingtype is equipped with sliding ball 114 in the middle of two guiding axle 113, two sliding ball 114 all can be inside the sliding of mounting bracket 110, all be connected with return spring 115 between the guiding axle 113 of both sides and homonymy around two sliding ball 114.

When people promote this device to go appointed position, when pressing the stone like the below of mounting panel 2, the slope will appear in this device wholly, make sliding ball 114 slide to the department of slope, return spring 115 will sliding ball 114 play the buffering and effect that resets, the water level in this device slope spirit level 111 will also take place the slope, people's accessible is looked over spirit level 111 and is learnt the degree of slope of this device, alright clear up rubble and debris to this device below, make this device keep the horizontality, the inside water level of spirit level 111 will be in normal condition, simultaneously along with the stability of this device, sliding ball 114 also will rebound intermediate position, so can avoid this device to place unstable influence to the location of wall body under detection mechanism 11's effect.

While the disclosure has been described with respect to a limited number of embodiments, those skilled in the art, having benefit of this disclosure, will appreciate that various other embodiments can be devised which do not depart from the scope of the invention as disclosed herein. Accordingly, the scope of the invention should be limited only by the attached claims.

Claims (8)

1. The utility model provides a wall body positioner for assembly type structure, characterized by, including bottom plate (1), mounting panel (2), spacing (3), elevator (4), guide bar (5), measuring mechanism (6), positioning mechanism (7) and push mechanism (8), mounting panel (2) bilateral symmetry is equipped with bottom plate (1), two bottom plate (1) top rear sides all are equipped with spacing (3), two equal slidingtype of spacing (3) upside are equipped with elevator (4) that are used for supporting the wall body, two bottom plate (1) top rear sides all are equipped with guide bar (5), two elevator (4) all link to each other with guide bar (5) slidingtype of homonymy, be equipped with measuring mechanism (6) on elevator (4), be equipped with positioning mechanism (7) on measuring mechanism (6), be equipped with push mechanism (8) in measuring mechanism (6).

2. The assembly type wall positioning device for the building as claimed in claim 1, wherein the measuring mechanism (6) comprises a protective cover (601), a triangular shell (60), a connecting ring (61), a motor (62), a belt pulley (63), a flat belt (64), a threaded shaft (65), a pointer (66), a pushing block (67), a graduated scale (68) and a pressure sensor (69), the protective cover (601) is arranged on the upper portion of each of the two lifting blocks (4), the triangular shell (60) is connected between the front sides of the lower portions of the two protective covers (601), the connecting ring (61) is arranged in the middle of the triangular shell (60), the motor (62) is arranged on the connecting ring (61), the threaded shafts (65) are rotatably arranged on the left side and the right side in the triangular shell (60), the grooves on the threaded shafts (65) are bidirectional threaded grooves, the belt pulleys (63) are arranged on the front sides of the two threaded shafts (65) and the output shaft of the motor (62), the cover has flat belt (64) between three belt pulley (63), two protection casing (601) inside walls all are equipped with scale (68), the equal screw thread formula of two screw thread axle (65) rear sides is equipped with propelling movement piece (67), two protection casings (601) homoenergetic are spacing to propelling movement piece (67) of homonymy, the equal screw thread formula of two screw thread axle (65) front sides is equipped with pointer (66), two pointer (66) all with protection casing (601) sliding connection of homonymy, two propelling movement piece (67) lower part rear sides all are equipped with pressure sensor (69), pressure sensor (69) link to each other with motor (62) electrical property.

3. The assembly type wall positioning device for the building as claimed in claim 2, wherein the positioning mechanism (7) comprises fixing rods (70), sliding tubes (71), extension springs (72), rotating plates (73), guide blocks (74), sliding shafts (75), extrusion springs (76), limiting blocks (77), wedge-shaped plates (78), limiting rods (79), push-pull boxes (710) and limiting shafts (711), the push-pull boxes (710) are arranged on the rear sides of the two protective covers (601) in a sliding manner, the fixing rods (70) are arranged between the two lifting blocks (4), the sliding tubes (71) are arranged on the two fixing rods (70) in a sliding manner, the two sliding tubes (71) are connected with the inner parts of the push-pull boxes (710) on the same side, the extension springs (72) are connected between the two sliding tubes (71) and the fixing rods (70) on the same side, the rotating plates (73) are rotatably arranged on the outer sides of the two sliding tubes (71), two slip tubes (71) outside all is equipped with spacing axle (711), all slidingtype is equipped with guide block (74) on two spacing axles (711), all slidingtype and rotary type are equipped with slip axle (75) on two guide block (74), two slip axle (75) all link to each other in the middle of rotor plate (73) with the homonymy, all be connected with extrusion spring (76) between two guide block (74) and the slip tube (71) of homonymy, two guide block (74) top front side all is equipped with stopper (77), two rotor plate (73) upside all rotary type are equipped with gag lever post (79), two gag lever posts (79) all link to each other with stopper (77) slidingtype of homonymy, two gag lever posts (79) inboard all is equipped with wedge (78) that are used for the location.

4. The assembly type wall positioning device for the building according to claim 3, wherein the pushing mechanism (8) comprises connecting blocks (80), rotating rods (81), torsion springs (82), pushing rods (83), Z-shaped blocks (84), positive magnets (85) and negative magnets (86), the connecting blocks (80) are arranged on the inner upper sides of the two protective covers (601), the rotating rods (81) are arranged on the two connecting blocks (80) in a rotating mode, the pushing rods (83) are arranged on the outer sides of the two rotating rods (81) in a sliding mode in a rotating mode, the torsion springs (82) are connected between the two rotating rods (81) and the connecting blocks (80) on the same side, the Z-shaped blocks (84) are arranged on the two pushing rods (83) in a sliding mode, the positive magnets (85) are arranged on the rear sides of the two Z-shaped blocks (84), and the negative magnets (86) are arranged on the inner sides of the two sliding shafts (75), the two sliding shafts (75) can generate magnetic force through the negative magnet (86) and the positive magnet (85) and further contact with the Z-shaped block (84) on the same side, and the upper parts of the two pointers (66) are matched with the rotating rod (81) on the same side.

5. The assembly type wall positioning device for the building as claimed in claim 4, further comprising a clamping mechanism (9) convenient for height adjustment, wherein the clamping mechanism (9) comprises positioning rods (90), clamping blocks (91), reset springs (92), protective tubes (93) and connecting springs (94), six clamping grooves (95) are uniformly formed in the lower portions of the two lifting blocks (4), the positioning rods (90) are respectively arranged on the left side and the right side of the upper portions of the two limiting frames (3), the clamping blocks (91) are respectively arranged on the four positioning rods (90) in a sliding manner, each clamping block (91) is in clamping fit with the clamping groove (95) on the same side, the reset spring (92) is connected between each clamping block (91) and the positioning rod (90) on the same side, the protective tube (93) is connected between the upper portions of the two guide rods (5) and the lower side of the lifting block (4) on the same side, and the protective tube (93) is telescopic, connecting springs (94) are connected between the lower parts of the two lifting blocks (4) and the upper sides of the guide rods (5) on the same side, and the two connecting springs (94) are located inside the protective tubes (93) on the same side.

6. The assembly type wall positioning device for the building according to claim 5, which further comprises a lifting mechanism (10), wherein the lifting mechanism (10) comprises a fixing frame (100), electric push rods (101), a guide frame (102), mounting blocks (103), a rotating shaft (104), a connecting rod (105), a bolt (106) and a compression spring (107), the fixing frame (100) is arranged on the rear side of the top of each bottom plate (1), the electric push rods (101) are arranged on the fixing frames (100), the guide frame (102) is arranged on the front side of the top of each bottom plate (1), the mounting blocks (103) are arranged on the front portions of the two lifting blocks (4), the telescopic rods of the two electric push rods (101) are slidably connected with the guide frame (102) on the same side, the rotating shafts (104) are arranged on the front sides of the telescopic rods of the two electric push rods (101), the connecting rods (105) are slidably arranged on the upper sides of the two rotating shafts (104), the upside of two connecting rods (105) all links to each other with the installation piece (103) rotary type of homonymy, and the equal screw thread formula in two connecting rods (105) lower parts is equipped with bolt (106), and axis of rotation (104) upside of homonymy is all passed in two bolt (106) to with axis of rotation (104) sliding connection of homonymy, all be connected with compression spring (107) between axis of rotation (104) top of two connecting rods (105) and homonymy.

7. The assembly type wall positioning device for the building as claimed in claim 6, further comprising a detection mechanism (11) for detecting whether the assembly type wall positioning device for the building is stable or not, wherein the detection mechanism (11) comprises a mounting frame (110), a level gauge (111), guide shafts (113), sliding balls (114) and return springs (115), the mounting frame (110) is arranged at the top of the mounting frame (2), the level gauge (111) is arranged in the middle of the mounting frame (110), the guide shafts (113) are arranged on the left side and the right side of the mounting frame (110), the sliding balls (114) are arranged in the middle of the two guide shafts (113) in a sliding manner, the two sliding balls (114) can slide in the mounting frame (110), and the return springs (115) are connected between the front side and the rear side of the two sliding balls (114) and the guide shafts (113) on the same side.

8. A fabricated building wall positioning device as claimed in claim 3, wherein the push-pull box (710) is provided with a handle on the side away from each other.

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