CN115143937A - Building engineering straightness detection device that hangs down - Google Patents

Abstract

The invention relates to a detection device, in particular to a device for detecting the perpendicularity of constructional engineering. The invention provides a building engineering verticality detection device which can be used for conveniently distinguishing whether the device is in a horizontal state or not by people. A perpendicularity detection device for construction engineering comprises a frame body; the left side and the right side of the bottom of the frame body are connected with wheels in a front-back symmetrical and rotating mode; the left upper side of the frame body is provided with two first handles; the right side of the bottom in the frame body is connected with the first bracket; the upper part of the first bracket is rotatably provided with the mounting block; the left side of the top of the mounting block is connected with the level gauge; the swinging block is rotatably arranged on the right side of the mounting block. The building engineering verticality detection device is provided with the level gauge, so that people can conveniently distinguish whether the building engineering verticality detection device is in a horizontal state, and then people can conveniently adjust the building engineering verticality detection device, and detection errors are reduced.

Description

Building engineering straightness detection device that hangs down

Technical Field

The invention relates to a detection device, in particular to a device for detecting the perpendicularity of constructional engineering.

Background

When the building is built, the perpendicularity of each floor needs to be detected, and then data obtained through detection are provided for professionals, so that the wall body which does not reach the perpendicularity standard can be adjusted in time, and the construction period is prevented from being delayed.

The patent publication is CN210922599U, a building engineering straightness detection device that hangs down is disclosed, belong to building engineering measuring equipment technical field, which comprises a column, the one end perpendicular to stand of stand is provided with the horizontal pole, the tip that the stand was kept away from to the horizontal pole has seted up the cavity, it is connected with the live-rollers to rotate along the length direction of horizontal pole in the cavity, around being equipped with the connecting wire on the live-rollers, offer the through-hole that is used for supplying the connecting wire to pass on the horizontal pole, the one end of connecting wire is connected to on the live-rollers, the other end is worn out to set up outside the cavity in the through-hole, the connecting wire tip outside the cavity is provided with the line and weighs down. The device makes the detection rope straighten under the pulling of balancing weight, and then measures the straightness that hangs down of wall body, and this measuring method is difficult to guarantee device itself when measuring the wall body, and whether device itself is in the horizontality, and then leads to the data of measuring to have the error easily.

Therefore, a device for detecting the verticality of the building engineering, which can be used for conveniently distinguishing whether the device is in a horizontal state or not, needs to be developed.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides the building engineering verticality detection device which can be used for conveniently distinguishing whether the device is in a horizontal state or not by people, so as to overcome the defect that whether the device is in the horizontal state or not is difficult to ensure by the conventional device.

In order to realize the purpose, the invention is realized by the following scheme: the utility model provides a building engineering straightness detection device that hangs down, including:

a frame body;

the left side and the right side of the bottom of the frame body are rotationally connected with wheels which are convenient for moving the construction perpendicularity detection device in a front-back symmetrical manner;

the left upper side of the frame body is provided with two first handles which are convenient for people to push the construction perpendicularity detection device;

the right side of the bottom in the frame body is connected with the first bracket;

the upper part of the first bracket is rotatably provided with the mounting block;

the left side of the top of the mounting block is connected with a level gauge which is convenient for people to distinguish whether the building engineering verticality detection device is in a horizontal state;

the swinging block is rotatably arranged on the right side of the mounting block;

the lower side inside the swinging block is connected with a sliding block in a sliding way;

the display lamp is arranged on the left side of the sliding block;

the right lower side of the swinging block is provided with a support;

the inner part of the right side of the strut is movably connected with a universal ball;

the right side of the sliding block is provided with a first distance sensor;

the clamping mechanism is arranged on the right side in the frame body and used for limiting the swinging block, and the clamping mechanism is connected with the mounting block;

stop gear, the inside left side of framework is equipped with and is used for carrying on spacing stop gear to this building engineering straightness detection device that hangs down.

As a further preferable mode, the detent mechanism includes:

the right side of the top of the mounting block is connected with a color sensor;

the front side and the rear side of the lower side of the mounting block are both connected with clamping wheels;

the right side of the bottom in the frame body is connected with two first slide bars;

the second support is connected between the left sides of the two first sliding rods;

the upper part in the second bracket is provided with a first electric push rod;

the left sides of the two first sliding rods are connected with the right side of the telescopic rod of the first electric push rod in a sliding manner;

the front side and the rear side in the first sliding block are connected with clamping strips in a sliding manner, and the clamping strips are matched with the clamping wheels to limit the swinging block;

the first spring is connected between the left sides of the two clamping strips and the first sliding block;

and the upper left side of the frame body is provided with a touch switch.

As a further preferable scheme, the limiting mechanism comprises:

the upper left side of the inner wall of the frame body is connected with a third support;

the second electric push rod is arranged on the right side inside the third bracket;

the left side of the bottom in the frame body is provided with a first sliding sleeve;

the hollow sleeve is connected with the inside of the first sliding sleeve in a sliding manner, and the top of the hollow sleeve is connected with the bottom of the telescopic rod of the second electric push rod;

the second sliding block is connected with the inside of the hollow sleeve in a sliding manner and used for limiting the building engineering verticality detection device;

the second spring is connected between the top of the second sliding block and the top of the hollow sleeve;

the front side of the top of the first sliding block is provided with a first baffle;

and a second distance sensor is arranged on the right side of the top of the first sliding rod on the front side.

As a further preferable scheme, the device further comprises a driving mechanism for driving the sliding block to move, and the driving mechanism comprises:

the third distance sensor is arranged on the right side of the third bracket;

the bottom of the swinging block is connected with a fourth bracket;

the double-shaft motor is arranged in the fourth bracket;

the output shafts on the front side and the rear side of the double-shaft motor are provided with reels;

the two winding wheels are respectively wound with a pull rope;

the front side and the rear side of the sliding block are respectively provided with a fixed column, and one end of each of the two pull ropes is connected with the fixed column on the same side;

and the elastic piece is connected between the top of the sliding block and the inner top of the swinging block.

As a further preferable mode, the detection device further includes a swing mechanism for enlarging a detection range, and the swing mechanism includes:

the right side of the mounting block is connected with a fifth bracket;

the speed reducing motor is arranged in the fifth bracket;

the right side of an output shaft of the speed reducing motor is connected with a first gear;

the left side of the swinging block is connected with a second gear, and the first gear is meshed with the second gear;

and a fourth distance sensor is arranged on the lower side of the swinging block.

As a further preferable aspect, the present invention further includes a marking mechanism for marking the tilted position, the marking mechanism including:

the front side and the rear side of the upper part of the sliding block are both provided with a second sliding sleeve;

a sixth support is connected between the outer sides of the two second sliding sleeves;

the left side inside the sixth bracket is provided with a third electric push rod;

a second sliding rod is connected between the interiors of the two second sliding sleeves in a sliding manner, and the left side of the second sliding rod is connected with the right side of a telescopic rod of a third electric push rod;

and a marking block for marking the inclined position is arranged on the right side of the second sliding rod.

As a further preferable aspect, the color sensor further includes a shielding mechanism for shielding the color sensor, and the shielding mechanism includes:

the top of the frame body is connected with a slide rail;

the right side inside the sliding rail is connected with a second handle in a sliding manner;

the bottom of the second handle is provided with a second baffle plate used for shielding the color sensor;

and the left side of the sliding rail is provided with a magnet for adsorbing the second handle.

As a further preferable scheme, the device also comprises a control box, the control box is arranged on the left upper side of the frame body, the control box comprises a switching power supply, a power supply module and a control module, the switching power supply supplies power to the whole building engineering verticality detection device, the output end of the switching power supply is electrically connected with the power supply module, the power supply module is connected with a power supply main switch through a circuit, and the power supply module is electrically connected with the control module; the control module is connected with a DS1302 clock circuit and a 24C02 circuit; first distance sensor, second distance sensor, third distance sensor, fourth distance sensor, color sensor and touch switch all pass through electric connection with control module, and first electric putter, second electric putter, third electric putter and display lamp all pass through relay control module with control module and are connected, and gear motor and biax motor all pass through direct current motor with control module and just reverse the module and be connected.

The invention has the following advantages: 1. the building engineering verticality detection device is provided with the level gauge, so that people can conveniently distinguish whether the building engineering verticality detection device is in a horizontal state, and then people can conveniently adjust the building engineering verticality detection device, and detection errors are reduced.

2. According to the invention, the pull rope is wound and released through the winding wheel, and the sliding block can be driven to move up and down automatically under the matching of the elastic part, so that the sliding block does not need to be controlled to move manually by people, and the operation trouble of people is reduced.

3. According to the invention, the output shaft of the speed reducing motor drives the first gear and the second gear to rotate forward and backward, so that the swinging block, the sliding block, the display lamp and the first distance sensor are driven to swing back and forth, thus the detection range of the wall body can be enlarged, and the detection result is more accurate.

4. According to the invention, the marking block is contacted with the wall body, so that the marking block marks the position on the wall body, which is not vertical to the wall body, and thus people can know the position of the wall body in the inclined state more clearly.

5. The color sensor is blocked by the second baffle plate, so that the influence on the operation of the color sensor caused by the shaking of the level meter in the transportation process of the building engineering verticality detection device can be avoided, and the influence on the normal operation of the building engineering verticality detection device can be further avoided.

Drawings

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

Fig. 2 is a schematic perspective view of a first part of the present invention.

Fig. 3 is a schematic perspective view of a second part of the present invention.

Fig. 4 is a schematic perspective view of a first locking mechanism of the present invention.

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

Fig. 6 is a schematic perspective view of the spacing mechanism of the present invention.

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

Fig. 8 is a schematic perspective view of a second part of the spacing mechanism of the invention.

Fig. 9 is a schematic perspective view of a first driving mechanism according to the present invention.

Fig. 10 is a schematic perspective view of a second driving mechanism according to the present invention.

Fig. 11 is a schematic perspective view of a first swing mechanism according to the present invention.

Fig. 12 is a schematic perspective view of a second swing mechanism according to the present invention.

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

FIG. 14 is a schematic perspective view of a first shielding mechanism according to the present invention.

FIG. 15 is a schematic perspective view of a second shielding mechanism according to the present invention.

Fig. 16 is a circuit block diagram of the present invention.

Fig. 17 is a circuit schematic of the present invention.

Wherein: 1-wheels, 2-frame, 3-first handle, 4-control box, 5-first support, 6-swinging block, 61-mounting block, 7-level gauge, 8-slide block, 9-display lamp, 10-first distance sensor, 11-pillar, 12-universal ball, 13-clamping mechanism, 131-color sensor, 132-clamping wheel, 133-first slide bar, 134-second support, 135-first electric push rod, 136-first slide block, 137-clamping bar, 138-first spring, 139-touch switch, 14-limit mechanism, 141-third support, 142-second electric push rod, 143-first slide sleeve, 144-hollow sleeve, 145-second slide block, 146-first baffle, 147-second distance sensor, 148-second spring, 15-drive mechanism, 151-third distance sensor, 152-fourth support, 153-double-shaft motor, 154-reel, 155-pull rope, 156-fixed column, 157-elastic element, 16-swing mechanism, 161-fifth support, 162-reduction motor, 163-first gear, 164-second gear, 165-fourth distance sensor, 17-marking mechanism, 171-sixth support, 172-third electric push rod, 173-second sliding sleeve, 174-second sliding rod, 175-marking block, 18-shielding mechanism, 181-sliding rail, 182-second handle, 183-magnet, 184-second baffle.

Detailed Description

The invention will be further described with reference to the accompanying drawings and the detailed description below:

example 1

Referring to fig. 1-8, a building engineering verticality detection device, including wheel 1, frame 2, first handle 3, first support 5, swing block 6, installation block 61, level gauge 7, slider 8, display lamp 9, first distance sensor 10, pillar 11, universal ball 12, clamping mechanism 13 and stop gear 14, frame 2 upper left side is equipped with two first handles 3, first handle 3 is convenient for people to promote this building engineering verticality detection device, frame 2 bottom left and right sides all front and back symmetry is connected with wheel 1 through the bearing, wheel 1 is convenient for remove this building engineering verticality detection device, frame 2 bottom right side has first support 5 through the bolt rigid coupling, first support 5 upper portion is equipped with installation block 61 through the rotation axis rotation type, installation block 61 top left side has level gauge 7 through the bolt rigid coupling, level gauge 7 people is convenient for distinguishing whether this building engineering verticality detection device is in the horizontality, installation block 61 right side rotation type is equipped with swing block 6, the inside downside of swing block 6 is connected with slider 8, slider 8 is equipped with the display lamp 9 on the left side of slider 8, swing block 6 is equipped with right side pillar 11, frame 6 is equipped with right side and right side is equipped with clamping ball 11, this building engineering verticality detection device is connected with stop gear 13, frame 2, this mobile spacing mechanism for the detection device, frame 2 internal connection, this building engineering verticality detection device, 13, this detection device, 13 is used for the left side and the detection mechanism, frame 2.

Referring to fig. 4-5, the locking mechanism 13 includes a color sensor 131, a locking wheel 132, a first sliding rod 133, a second bracket 134, a first electric push rod 135, a first sliding block 136, a locking bar 137, a first spring 138 and a touch switch 139, the locking wheel 132 is connected to the rotating shafts on the front and rear sides of the lower side of the mounting block 61 through keys, the color sensor 131 is fixedly connected to the right side of the top of the mounting block 61 through a bolt, two first sliding rods 133 are fixedly connected to the right side of the bottom of the frame 2 through bolts, the second bracket 134 is welded between the left sides of the two first sliding rods 133, the first electric push rod 135 is arranged on the upper portion of the second bracket 134, the first sliding block 136 is slidably connected between the left sides of the two first sliding rods 133, the left side of the first sliding rod 136 is connected to the right side of the telescopic rod 135, the locking bar 137 is connected to the front and rear sides of the inside of the first sliding block 136, the two sliding locking bars 137 are both in contact with the locking wheel 132 on the same side, the left side of the two locking bars 137 is connected to the first sliding block 138, and the sliding block 136, and the upper side of the frame 2 is provided with the first sliding block 139.

Referring to fig. 6-8, the limiting mechanism 14 includes a third bracket 141, a second electric push rod 142, a first sliding sleeve 143, a hollow sleeve 144, a second sliding block 145, a first baffle 146, a second distance sensor 147 and a second spring 148, the third bracket 141 is welded on the upper left side of the inner wall of the frame 2, the first sliding sleeve 143 is disposed on the left side of the inner bottom of the frame 2, the hollow sleeve 144 is slidably connected inside the first sliding sleeve 143, the second electric push rod 142 is disposed on the right side inside the third bracket 141, the top of the hollow sleeve 144 is connected with the bottom of the telescopic rod of the second electric push rod 142, the second sliding block 145 is slidably connected inside the hollow sleeve 144, the second sliding block 145 is used for limiting the building engineering verticality detection device, the second spring 148 is connected between the top of the second sliding block 145 and the inner top of the hollow sleeve 144, the first baffle 146 is disposed on the front side of the top of the first sliding block 136, and the second distance sensor 147 is disposed on the right side of the top of the first sliding rod 133 on the front side.

When people need to detect the verticality of the wall of the building engineering, the device is powered on by pressing a power supply main switch, the first handle 3 is manually grasped and pushed, the device is driven to move under the action of the wheels 1, when the universal ball 12 moves to be in contact with the wall needing to be detected, the first handle 3 stops being pushed, the color sensor 131 is provided with two preset values, when the level gauge 7 is inclined and bubbles are positioned at any one of the left side and the right side of the level gauge 7, the color sensor 131 is the first preset value at the moment, when the level gauge 7 is in a horizontal state, the bubbles are positioned in the middle of the level gauge 7, the color sensor 131 is the second preset value at the moment, when the ground is slightly inclined, the positions of the bubbles in the level gauge 7 can deviate along with the deviation, the color sensor 131 cannot send signals when the color reaches the first preset value, and people manually rotate the swinging block 6, the swinging block 6 drives the mounting block 61 to rotate, the mounting block 61 drives the clamping wheel 132 to rotate, the clamping wheel 132 drives the clamping strip 137 to continuously move left and right under the action of the first spring 138, at the moment, the first spring 138 is continuously compressed and reset, when bubbles in the spirit level 7 are centered, the spirit level 7 is in a horizontal state, then people stop rotating the swinging block 6, the color sensor 131 detects that the color reaches a second preset value, the control module controls the first electric push rod 135 telescopic rod to extend for one second, the first electric push rod 135 telescopic rod drives the first sliding block 136 and the clamping strip 137 to move right, so that the clamping strip 137 completely clamps the clamping wheel 132, at the moment, the first spring sliding block 138 is compressed, the first sliding block 136 moves right to drive the first baffle 146 to move right, the second distance sensor 147 detects that the distance between the first distance sensor 146 and the preset value is reached, the control module controls the telescopic rod of the second electric push rod 142 to extend for three seconds, the telescopic rod of the second electric push rod 142 drives the hollow sleeve 144 to move downwards and further drives the second sliding block 145 to move downwards, when the second sliding block 145 moves downwards to be in contact with the ground, the second sliding block 145 can limit the building engineering verticality detection device, the position of the building engineering verticality detection device is prevented from being deviated when the building engineering verticality detection device detects a wall body, the detection error can be prevented, at the moment, the second spring 148 plays a buffering role, after the preparation work is finished, people manually control the sliding block 8 to move upwards, the sliding block 8 drives the display lamp 9 and the first distance sensor 10 to move upwards, when the first distance sensor 10 detects that the distance between the first distance sensor 10 and the wall body is greater than a preset value or less than the preset value, the control module controls the display lamp 9 to light a red light, so, the detected wall body does not belong to a vertical state, when the first distance sensor 10 detects that the distance between the first distance sensor 10 and the wall body is equal to the preset value, the first distance sensor 10 controls the display lamp 9 to light on a green light, so, the first telescopic rod 142 and the second telescopic rod 146 move back to a reset switch 135, the second telescopic rod 146, the second telescopic rod 142, the second telescopic rod drives the second telescopic rod to move, the first telescopic rod to retract control module to retract, the second telescopic rod 146 to retract control module to retract, when not needing to use, press the power master switch once more and break off the power supply of this device, people seize first handle 3 afterwards, with this building engineering straightness detection device that hangs down push away can.

Example 2

On the basis of embodiment 1, please refer to fig. 9-10, further comprising a driving mechanism 15, wherein the driving mechanism 15 comprises a third distance sensor 151, a fourth bracket 152, a dual-shaft motor 153, reels 154, a pull rope 155, a fixing post 156 and an elastic member 157, the fourth bracket 152 is welded at the bottom of the swing block 6, the dual-shaft motor 153 is arranged inside the fourth bracket 152, the reels 154 are arranged on output shafts at the front and rear sides of the dual-shaft motor 153, the pull rope 155 is wound around two of the reels 154, the third distance sensor 151 is arranged at the right side of the third bracket 141, the fixing posts 156 are arranged at the front and rear sides of the slider 8, one end of each of the two pull ropes 155 is connected with the fixing post 156 at the same side, and the elastic member 157 is connected between the top of the slider 8 and the inner top of the swing block 6.

When the hollow sleeve 144 moves downwards, the third distance sensor 151 detects that the distance between the third distance sensor and the hollow sleeve 144 reaches a preset value, the control module controls the double-shaft motor 153 to start for one minute, the output shaft of the double-shaft motor 153 drives the reel 154 to rotate, so that the reel 154 releases the pull rope 155, the elastic part 157 in the stretching state in the initial state is reset at the moment, and the slide block 8 is driven to move upwards, so that the slide block 8 does not need to be manually controlled to move by people, the operation trouble of people is reduced, when the hollow sleeve 144 moves upwards to reset, the third distance sensor 151 detects that the distance between the third distance sensor 151 and the hollow sleeve 144 returns to the preset value, the control module controls the output shaft of the double-shaft motor 153 to rotate backwards for one minute Zhong Fuwei, the output shaft of the double-shaft motor 153 drives the reel 154 to rotate backwards, so that the reel 154 winds the pull rope 155, and then drives the slide block 8 to move downwards to reset, and the elastic part 157 is stretched at the moment.

Referring to fig. 11 to 12, the swing mechanism 16 further includes a swing mechanism 16, the swing mechanism 16 includes a fifth bracket 161, a speed reduction motor 162, a first gear 163, a second gear 164 and a fourth distance sensor 165, the fourth distance sensor 165 is disposed on the lower side of the swing block 6, the fifth bracket 161 is fixedly connected to the right side of the mounting block 61 through a bolt, the speed reduction motor 162 is disposed inside the fifth bracket 161, the right side of the output shaft of the speed reduction motor 162 is connected to the first gear 163 through a key, the left side of the swing block 6 is connected to the second gear 164 through a key, and the first gear 163 is meshed with the second gear 164.

When the slider 8 drives the display lamp 9 to move upwards, the fourth distance sensor 165 detects that the distance between the fourth distance sensor 165 and the display lamp 9 reaches a preset value, the control module controls the output shaft of the reducing motor 162 to rotate forwards for three seconds and then rotate backwards for three seconds and then rotate forwards for three seconds and then reset, the process circulates, the output shaft of the reducing motor 162 drives the first gear 163 to rotate and further drives the second gear 164 to rotate, the second gear 164 drives the swing block 6, the slider 8, the display lamp 9 and the first distance sensor 10 to rotate backwards, the output shaft of the reducing motor 162 drives the first gear 163 to rotate backwards after three seconds, the output shaft of the reducing motor 162 drives the first gear 163 to rotate backwards continuously after three seconds, the second gear 164, the swing block 6, the slider 8, the display lamp 9 and the first distance sensor 10 to rotate backwards continuously, the output shaft of the reducing motor 162 drives the first gear 163 to drive the second gear 163, the swing block 6, the slider 8, the display lamp 9 and the first distance sensor 10 to rotate backwards continuously, the swing lamp 9 and the display lamp 9 and the detection result of the rotating around the display lamp 165 can be accurately detected, and the reset module can be reset when the detecting that the distance between the fourth distance between the display lamp 9 and the display lamp 9 is accurately detected, the display lamp 9 and the reset module is accurately detected, and the reset module is accurately increased, and the reset module.

Referring to fig. 13, the marking mechanism 17 further includes a marking mechanism 17, the marking mechanism 17 includes a sixth bracket 171, a third electric push rod 172, a second sliding sleeve 173, a second sliding rod 174 and a marking block 175, the second sliding sleeve 173 is disposed on both the front and rear sides of the upper portion of the sliding block 8, the sixth bracket 171 is connected between the outer sides of the two second sliding sleeves 173, the second sliding rod 174 is slidably connected between the inner portions of the two second sliding sleeves 173, the third electric push rod 172 is disposed on the left side of the inner portion of the sixth bracket 171, the left side of the second sliding rod 174 is connected with the right side of the telescopic rod of the third electric push rod 172, the marking block 175 is disposed on the right side of the second sliding rod 174, and the marking block 175 is used for marking an inclined position.

When first distance sensor 10 detects that the distance between the wall body is greater than the default or is less than the default, control module still can control third electric putter 172 telescopic link extension one second and contract one second again and reset, third electric putter 172 telescopic link drives second slide bar 174 and mark block 175 and moves to the right for mark block 175 and wall body contact, and then mark the position of out of plumb on the wall body, the mark finishes, third electric putter 172 telescopic link drives second slide bar 174 and mark block 175 and moves to the left and resets, so, make that people can be more clear know that this wall body is which position is the tilt state.

Referring to fig. 14 to 15, the color sensor shading device 18 further includes a shading mechanism 18, the shading mechanism 18 includes a slide rail 181, a second handle 182, a magnet 183, and a second baffle 184, the top of the frame 2 is fixedly connected to the slide rail 181 through a bolt, the magnet 183 is disposed on the left side of the slide rail 181, the second handle 182 is slidably connected to the right side inside the slide rail 181, the magnet 183 is used for adsorbing the second handle 182, the second baffle 184 is disposed on the bottom of the second handle 182, and the second baffle 184 is used for shading the color sensor 131.

Blocking the color sensor 131 through the second baffle 184, so that the construction perpendicularity detecting device can avoid affecting the operation of the color sensor 131 due to the shaking of the level gauge 7 in the transportation process, further avoid affecting the normal operation of the construction perpendicularity detecting device, when the color sensor 131 needs to be used, manually grasping the second handle 182, pulling the second handle 182 to the left, the second handle 182 drives the second baffle 184 to move to the left, when the second handle 182 moves to contact with the magnetic stone 183, the magnetic stone 183 adsorbs the second handle 182, so that the second baffle 184 and the second handle 182 can be prevented from automatically moving and resetting under external factors, the second baffle 184 blocks the color sensor 131, further affect the normal operation of the color sensor 131, and when the use is not needed, the second handle 182 and the second baffle 184 can be manually reset.

Referring to fig. 2, 16-17, the device further comprises a control box 4, the control box 4 is arranged on the upper left side of the frame body 2, the control box 4 comprises a switching power supply, a power supply module and a control module, the switching power supply supplies power to the whole building engineering perpendicularity detection device, the output end of the switching power supply is electrically connected with the power supply module, the power supply module is connected with a power supply main switch through a circuit, and the power supply module is electrically connected with the control module; the control module is connected with a DS1302 clock circuit and a 24C02 circuit; the first distance sensor 10, the second distance sensor 147, the third distance sensor 151, the fourth distance sensor 165, the color sensor 131 and the touch switch 139 are electrically connected with the control module, the first electric push rod 135, the second electric push rod 142, the third electric push rod 172 and the display lamp 9 are connected with the control module through the relay control module, and the speed reducing motor 162 and the double-shaft motor 153 are connected with the control module through the direct current motor forward and reverse rotation module.

Various other modifications and changes may be made by those skilled in the art based on the above-described technical solutions and concepts, and all such modifications and changes should fall within the scope of the claims of the present invention.

Claims (8)

1. The utility model provides a building engineering straightness detection device that hangs down which characterized in that: comprises the following steps:

a frame body (2);

the left side and the right side of the bottom of the frame body (2) are respectively connected with the wheels (1) in a front-back symmetrical and rotating manner, so that the construction engineering verticality detection device can be conveniently moved;

the left upper side of the frame body (2) is provided with two first handles (3) which are convenient for people to push the building engineering verticality detection device;

the right side of the bottom in the frame body (2) is connected with a first bracket (5);

the mounting block (61), the upper portion of the first support (5) is rotatably provided with the mounting block (61);

the left side of the top of the mounting block (61) is connected with the level gauge (7) which is convenient for people to distinguish whether the construction perpendicularity detection device is in a horizontal state or not;

the swinging block (6) is rotatably arranged on the right side of the mounting block (61);

the sliding block (8) is connected with the lower side inside the swinging block (6) in a sliding way;

the display lamp (9) is arranged on the left side of the sliding block (8);

a support column (11), wherein the support column (11) is arranged at the lower right side of the swinging block (6);

the inner part of the right side of the strut (11) is movably connected with a universal ball (12);

the first distance sensor (10) is arranged on the right side of the sliding block (8);

the clamping mechanism (13) is arranged on the right side in the frame body (2) and used for limiting the swinging block (6), and the clamping mechanism (13) is connected with the mounting block (61);

stop gear (14), the inside left side of framework (2) is equipped with and is used for carrying on spacing stop gear (14) to this building engineering straightness detection device that hangs down.

2. The building engineering verticality detection device according to claim 1, characterized in that: the position-limiting mechanism (13) comprises:

the color sensor (131) is connected to the right side of the top of the mounting block (61);

the clamping wheels (132) are connected to the front side and the rear side of the lower side of the mounting block (61);

the right side of the bottom in the frame body (2) is connected with two first sliding rods (133);

a second bracket (134), wherein the second bracket (134) is connected between the left sides of the two first sliding rods (133);

the first electric push rod (135) is arranged at the upper part in the second bracket (134);

the first sliding blocks (136) are connected between the left sides of the two first sliding rods (133) in a sliding manner, and the left sides of the first sliding blocks (136) are connected with the right sides of the telescopic rods of the first electric push rods (135);

the front side and the rear side of the interior of the first sliding block (136) are connected with the clamping strips (137) in a sliding mode, and the clamping strips (137) are matched with the clamping wheels (132) to limit the swinging block (6);

the first spring (138) is connected between the left sides of the two clamping strips (137) and the first sliding block (136);

a touch switch (139), and the upper left side of the frame body (2) is provided with the touch switch (139).

3. The construction verticality detection device according to claim 2, characterized in that: the limiting mechanism (14) comprises:

the third support (141) is connected to the upper left side of the inner wall of the frame body (2);

the second electric push rod (142) is arranged on the right side inside the third bracket (141);

the first sliding sleeve (143), the left side of bottom in the frame (2) is equipped with the first sliding sleeve (143);

the hollow sleeve (144) is connected inside the first sliding sleeve (143) in a sliding mode, and the top of the hollow sleeve (144) is connected with the bottom of the telescopic rod of the second electric push rod (142);

the second sliding block (145) is connected with the second sliding block (145) used for limiting the construction perpendicularity detection device in a sliding manner inside the hollow sleeve (144);

a second spring (148), wherein the second spring (148) is connected between the top of the second sliding block (145) and the inner top of the hollow sleeve (144);

the front side of the top of the first sliding block (136) is provided with a first baffle (146);

and a second distance sensor (147) is arranged at the right side of the top of the first sliding rod (133) at the front side.

4. The construction perpendicularity detecting device as claimed in claim 3, wherein: still including being used for driving actuating mechanism (15) that slider (8) removed, actuating mechanism (15) including:

a third distance sensor (151), wherein the right side of the third bracket (141) is provided with the third distance sensor (151);

the bottom of the swinging block (6) is connected with the fourth bracket (152);

the double-shaft motor (153) is arranged inside the fourth bracket (152);

the reels (154) are arranged on output shafts on the front side and the rear side of the double-shaft motor (153);

the pull ropes (155) are wound on the two reels (154);

the fixing columns (156) are arranged on the front side and the rear side of the sliding block (8), and one ends of the two pull ropes (155) are connected with the fixing columns (156) on the same side;

the elastic piece (157) is connected between the top of the sliding block (8) and the inner top of the swinging block (6).

5. The building engineering verticality detection device according to claim 4, wherein: still include swing mechanism (16) that is used for increaseing detection range, swing mechanism (16) include:

the right side of the mounting block (61) is connected with a fifth bracket (161);

the speed reducing motor (162) is arranged in the fifth support (161);

the right side of the output shaft of the speed reducing motor (162) is connected with a first gear (163);

a second gear (164), the left side of the swinging block (6) is connected with the second gear (164), and the first gear (163) is meshed with the second gear (164);

a fourth distance sensor (165), and a fourth distance sensor (165) is arranged on the lower side of the swinging block (6).

6. The construction verticality detection device according to claim 5, wherein: also include the mark mechanism (17) that is used for carrying on the mark to the position of slope, mark mechanism (17) includes:

the front side and the rear side of the upper part of the sliding block (8) are provided with second sliding sleeves (173);

sixth support (171) of the first and second substrates, a sixth bracket (171) is connected between the outer sides of the two second sliding sleeves (173);

a third electric push rod (172), wherein the left side inside the sixth bracket (171) is provided with the third electric push rod (172);

a second sliding rod (174) is connected between the insides of the two second sliding sleeves (173) in a sliding manner, and the left side of the second sliding rod (174) is connected with the right side of a telescopic rod of a third electric push rod (172);

and a marking block (175), wherein the right side of the second sliding rod (174) is provided with the marking block (175) for marking the inclined position.

7. The building engineering verticality detection device according to claim 6, wherein: also include and be used for sheltering from the mechanism (18) that shelters from color sensor (131), shelter from the mechanism (18) including:

the top of the frame body (2) is connected with the sliding rail (181);

the second handle (182) is connected to the right side inside the sliding rail (181) in a sliding manner;

the bottom of the second handle (182) is provided with a second baffle (184) used for shielding the color sensor (131);

the magnet stone (183) is arranged on the left side of the slide rail (181) and used for adsorbing the magnet stone (183) of the second handle (182).

8. The construction verticality detection device according to claim 7, wherein: the device is characterized by further comprising a control box (4), wherein the control box (4) is arranged on the upper left side of the frame body (2), the control box (4) comprises a switching power supply, a power supply module and a control module, the switching power supply supplies power to the whole building engineering verticality detection device, the output end of the switching power supply is electrically connected with the power supply module, the power supply module is connected with a power supply main switch through a circuit, and the power supply module is electrically connected with the control module; the control module is connected with a DS1302 clock circuit and a 24C02 circuit; first distance sensor (10), second distance sensor (147), third distance sensor (151), fourth distance sensor (165), color sensor (131) and touch switch (139) all pass through electric connection with control module, first electric putter (135), second electric putter (142), third electric putter (172) and display lamp (9) all pass through relay control module with control module and are connected, gear motor (162) and biax motor (153) all pass through direct current motor with control module and just reverse the module and be connected.

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