CN211651541U - U-shaped rod alignment device - Google Patents

Abstract

The utility model discloses a U type pole aligning device, include: a support bar; the first laser emitter is fixedly connected to the supporting rod and is vertical to the supporting rod; the second laser emitter is fixedly connected to the supporting rod, the second laser emitter and the first laser emitter are located on the same horizontal plane, the laser emitting direction of the second laser emitter is the same as that of the first laser emitter, and the distance between the second laser emitter and the first laser emitter is matched with the diameter of the U-shaped rod. The utility model discloses utilize the sharp characteristic of laser, whether more accurate at same straight line to detecting U type lever arm, the testing result uniformity is higher.

Description

U-shaped rod alignment device

Technical Field

The utility model relates to a construction equipment technical field especially relates to a U type pole aligning device.

Background

Referring to fig. 1, during construction of a photovoltaic power station, a bar base 6 needs to be manufactured, the bar base 6 is used for mounting a photovoltaic panel, and when the bar base 6 is mounted, 2 pairs of U-shaped rods 601 need to be fixed on the bar base 6 through a prefabrication process, so that two arms of each U-shaped rod 601 protrude out of the upper surface of the bar base 6, and the front and the rear of each U-shaped rod 601 are respectively matched with a photovoltaic panel connecting piece. The lever arm of 2 pairs of U type pole 601 must guarantee on a straight line around this for can align with the connecting piece on the photovoltaic board when installing the photovoltaic board, otherwise will lead to the photovoltaic board not to install, need the position of the U type pole 601 on the school base 6 of training, pour strip base 6 again even, rework has leaded to taking a lot of work hard problem.

The existing method for ensuring that the lever arms of the 2 pairs of U-shaped levers 601 are on the same straight line is a visual method, and the method has the problems that visual results are different due to the fact that the eyesight of people is good or bad, people with good eyesight can obtain accurate results, people with poor eyesight can obtain poor result accuracy, results obtained by different people through eyesight observation are difficult to quantify, standards are difficult to unify, and results obtained by different people are greatly influenced by main observation. Therefore, the prior art has the problems of poor accuracy and poor consistency of detection results.

Disclosure of Invention

In order to overcome the disadvantages and shortcomings of the prior art, the present invention provides a U-shaped rod alignment device.

The technical scheme of the utility model is that: a U-bar alignment device comprising:

a support bar;

the first laser emitter is fixedly connected to the supporting rod and is vertical to the supporting rod;

the second laser emitter is fixedly connected to the supporting rod, the second laser emitter and the first laser emitter are located on the same horizontal plane, the laser emitting direction of the second laser emitter is the same as that of the first laser emitter, and the distance between the second laser emitter and the first laser emitter is matched with the diameter of the U-shaped rod.

Further, still include:

the third laser transmitter is fixedly connected to the supporting rod, and the laser transmitting direction of the third laser transmitter is the same as that of the second laser transmitter;

the fourth laser emitter is fixedly connected to the supporting rod, the fourth laser emitter and the third laser emitter are located on the same horizontal plane, the laser emitting direction of the fourth laser emitter is the same as that of the third laser emitter, the distance between the fourth laser emitter and the third laser emitter is matched with the diameter of the U-shaped rod, and the horizontal distance between the middle point of the connecting line of the third laser emitter and the fourth laser emitter and the middle point of the connecting line of the first laser emitter and the second laser emitter is matched with the distance between the two arms of the U-shaped rod.

Furthermore, the first laser emitter, the second laser emitter, the third laser emitter and the fourth laser emitter are horizontally and slidably connected to the supporting rod through guide groove structures.

Further, still include:

the cradle head, the guide slot structure passes through the cradle head and connects on the bracing piece.

Further, the guide groove structure includes:

the body is connected to the supporting rod;

the sliding chute is arranged on the front surface of the body, and the length direction of the sliding chute is parallel to the horizontal plane;

the slider, slider and spout phase-match, slider sliding connection are on the spout, and the slider includes 4, and 4 slider fixed connection respectively are on first laser emitter, second laser emitter, third laser emitter and fourth laser emitter.

Further, still include:

the scales are arranged at the upper edge of the sliding groove on the front surface of the body;

and the indicating needle is fixedly connected to the upper surface of the front surface of the sliding block protruding out of the body.

Furthermore, the supporting rod is a telescopic rod.

Further, still include:

the supporting disk, supporting disk fixed connection is in the bracing piece lower part.

Furthermore, the lower end of the support rod is pointed, and threads are arranged at the lower part of the support rod.

Further, still include:

the spiral arm is fixedly connected to the side portion of the supporting plate.

The utility model has the advantages that: compared with the prior art, the method has the advantages that,

1) the utility model discloses a first laser emitter and second laser emitter launch two bundles of laser that are parallel to each other, and two bundles of laser are at same horizontal plane, the lever arm phase-match of two bundles of laser intervals and U type pole, whether the arm of inspection 2 to U type pole is when a straight line, make two bundles of laser from the lever arm clamp of 6 one end with U type poles in the middle of strip base, then observe U type lever arm and the 6 other ends of strip base, whether look over laser and just pass through all lever arm side surface way and say the 6 other ends of strip base, if then can judge 2 arms to U type pole be on a straight line, if then prove that laser is not on same straight line by U type lever arm. The utility model utilizes the linear characteristic of laser, which is more accurate to detect whether the U-shaped lever arm is on the same straight line, and the consistency of the detection result is higher;

2) the utility model discloses a first laser emitter, second laser emitter, third laser emitter and fourth laser emitter can be simultaneously to 2 rows of U type lever arms whether in the same straight line inlet wire detection, detection efficiency is higher;

3) the utility model discloses a first laser emitter, second laser emitter, third laser emitter and fourth laser emitter pass through guide slot structure horizontal sliding connection on the bracing piece for first laser emitter, second laser emitter, third laser emitter and fourth laser emitter interval are adjustable, thereby can detect the U type pole lever arm of different diameters and the U type pole of different arm intervals, detect the flexibility ratio higher;

4) the utility model has the advantages that the sliding block is connected on the sliding groove in a sliding way, so that the distance between the first laser emitter, the second laser emitter, the third laser emitter and the fourth laser emitter can be adjusted, the U-shaped rod arms with different diameters and the U-shaped rods with different arm distances can be detected, the detection flexibility is higher, and the structure is simple;

5) the utility model enables the laser beam emitted by the first laser emitter, the second laser emitter, the third laser emitter and the fourth laser emitter to be adjustable in direction through the cradle head, thereby enabling the device to adapt to different terrains and having wider use scenes;

6) the utility model indicates the relative position among the first laser transmitter, the second laser transmitter, the third laser transmitter and the fourth laser transmitter through the scales and the indicating needles, so that the adjustment of the distance between the first laser transmitter, the second laser transmitter, the third laser transmitter and the fourth laser transmitter is more convenient;

7) the utility model adopts the support rod as the telescopic rod, so that the heights of the first laser transmitter, the second laser transmitter, the third laser transmitter and the fourth laser transmitter can be adjusted, thereby adapting to the strip bases 6 with different heights and leading the use scene of the device to be more extensive;

8) the utility model makes the upper surface of the soil, into which the supporting plate is inserted, contact with the upper surface of the soil, so that the upper surface of the soil exerts supporting force on the lower surface of the supporting plate, thereby avoiding the problem that the supporting rod is unstable due to the expansion of the jack caused by vibration or the inclination of the force application direction when the lower end of the supporting rod is inserted into the soil, making the direction of the laser beam more stable, and increasing the stability of measurement;

9) the utility model has the advantages that the lower end of the support rod is designed to be pointed and the lower part of the support rod is provided with the thread, so that the support rod can be easily inserted into the soil layer and can be inserted into the soil layer in a rotating way when the soil is hard, thereby increasing the convenience of fixing the support rod;

10) the utility model discloses a spiral arm rotation support pole rotates, and through the screw thread on the bracing piece in the soil layer of revolving for rotation moment is bigger, and rotation support pole is light laborsaving more.

Drawings

FIG. 1 is a schematic view of a measuring strip base according to an embodiment of the present invention;

fig. 2 is a schematic perspective view of an embodiment 1 of the present invention;

FIG. 3 is a partial schematic view of FIG. 2A;

FIG. 4 is an exploded view of example 1 of the present invention

Fig. 5 is a partial schematic view of fig. 4C.

Detailed Description

The invention will be further described with reference to the accompanying drawings and specific embodiments:

example 1: referring to fig. 1 to 5, a U-shaped bar aligning apparatus includes: a support rod 1; the first laser emitter 201 is fixedly connected to the support rod 1, and the first laser emitter 201 is perpendicular to the support rod 1; the second laser emitter 202 is fixedly connected to the supporting rod 1, the second laser emitter 202 and the first laser emitter 201 are located on the same horizontal plane, the laser emitting direction of the second laser emitter 202 is the same as that of the first laser emitter 201, and the distance between the second laser emitter 202 and the first laser emitter 201 is matched with the diameter of the U-shaped rod 601.

When the device is used, two beams of laser parallel to each other are emitted through the first laser emitter 201 and the second laser emitter 202, the two beams of laser are on the same horizontal plane, the distance between the two beams of laser is matched with the lever arm of the U-shaped rod 601, whether the arms of 2 pairs of U-shaped rods 601 are on one straight line or not is checked, the two beams of laser clamp the lever arm of the U-shaped rod 601 in the middle from one end of the strip base 6, then the lever arm of the U-shaped rod 601 and the other end of the strip base 6 are observed, whether the laser just passes through the side surfaces of all the lever arms to pass the other end of the strip base 6 or not is checked, if yes, the arms of 2 pairs of U-shaped rods 601 are on one straight line, and if not, the fact that the laser is not on the.

Further, still include: the third laser transmitter 203 is fixedly connected to the support rod 1, and the laser emitting direction of the third laser transmitter 203 is the same as that of the second laser transmitter 202; the fourth laser emitter 204 is fixedly connected to the support rod 1, the fourth laser emitter 204 and the third laser emitter 203 are located on the same horizontal plane, the laser emitting directions of the fourth laser emitter 204 and the third laser emitter 203 are the same, the distance between the fourth laser emitter 204 and the third laser emitter 203 is matched with the diameter of the U-shaped rod 601, and the horizontal distance between the middle point of the connecting line of the third laser emitter 203 and the fourth laser emitter 204 and the middle point of the connecting line of the first laser emitter 201 and the second laser emitter 202 is matched with the distance between the two arms of the U-shaped rod 601.

Whether the lever arm of the 2-row U-shaped rod 601 is detected on the same straight line by the first laser transmitter 201, the second laser transmitter 202, the third laser transmitter 203 and the fourth laser transmitter 204, and the detection efficiency is higher.

Further, the first laser emitter 201, the second laser emitter 202, the third laser emitter 203 and the fourth laser emitter 204 are horizontally and slidably connected to the support rod 1 through the guide groove structure 3.

Through first laser emitter 201, second laser emitter 202, third laser emitter 203 and fourth laser emitter 204 through the horizontal sliding connection of guide slot structure 3 on bracing piece 1 for first laser emitter 201, second laser emitter 202, third laser emitter 203 and fourth laser emitter 204 interval are adjustable, thereby can detect the U type pole 601 lever arm of different diameters and the U type pole 601 of different arm intervals, and it is higher to detect the flexibility ratio.

Further, still include: the cradle head, guide slot structure 3 passes through the cradle head and connects on bracing piece 1.

The utility model discloses a cloud platform makes the laser beam direction of first laser emitter 201, second laser emitter 202, third laser emitter 203 and fourth laser emitter 204 transmission adjustable to make the device can adapt to different topography, use the scene wider.

Further, the channel structure 3 comprises: the body 301, the said body 301 is connected to the support bar 1; the sliding groove 302 is formed in the front surface of the body 301, and the length direction of the sliding groove 302 is parallel to the horizontal plane; the sliding blocks 303, the sliding blocks 303 are matched with the sliding grooves 302, the sliding blocks 303 are slidably connected to the sliding grooves 302, the number of the sliding blocks 303 is 4, and the 4 sliding blocks 303 are fixedly connected to the first laser emitter 201, the second laser emitter 202, the third laser emitter 203 and the fourth laser emitter 204 respectively.

The utility model discloses a slider 303 sliding connection is on spout 302 for first laser emitter 201, second laser emitter 202, third laser emitter 203 and fourth laser emitter 204 interval are adjustable, thereby can detect the U type pole 601 lever arm of different diameters and the U type pole 601 of different arm intervals, and it is higher to detect the flexibility ratio, and simple structure.

Further, still include: a scale 304, the scale 304 being provided at an upper edge of the chute 302 on the front surface of the body 301; and the indicating needle 305 is fixedly connected to the upper surface of the convex front surface of the body 301 of the sliding block 303.

The utility model discloses a scale 304 and pointer 305 indicate the relative position between first laser emitter 201, second laser emitter 202, third laser emitter 203 and fourth laser emitter 204 for it is more convenient to adjust first laser emitter 201, second laser emitter 202, third laser emitter 203 and fourth laser emitter 204 interval.

Further, the support rod 1 is a telescopic rod.

The utility model discloses an establish bracing piece 1 into the telescopic link for first laser emitter 201, second laser emitter 202, third laser emitter 203 and fourth laser emitter 204 height-adjustable, thereby adapt to not co-altitude strip base 6, make the use scene of device more extensive.

Further, still include: and the supporting plate 5 is fixedly connected to the lower part of the supporting rod 1.

The utility model discloses a supporting disk 5 and the contact of bracing piece 1 male soil upper surface make the soil upper surface exert the holding power to 5 lower surfaces of supporting disk, because vibration or application of force direction slope make the jack enlarge when having avoided 1 lower extreme of bracing piece to insert soil and lead to the unstable problem of bracing piece 1 for the laser beam direction is more stable, has increased measuring stability.

Furthermore, the lower end of the support rod 1 is pointed, and the lower part of the support rod 1 is provided with a thread 101.

The utility model discloses a establish 1 lower extreme of bracing piece into point form and bracing piece 1 lower part and establish screw thread 101 for in the soil layer can be easily inserted to bracing piece 1, can also insert the soil layer through rotatory mode when meetting the soil property harder, increased the fixed convenience of bracing piece 1.

Further, still include: and the radial arm 501, and the radial arm 501 is fixedly connected to the side part of the support plate 5.

The foregoing is a more detailed description of the present invention, taken in conjunction with the specific preferred embodiments thereof, and it is not intended that the invention be limited to the specific embodiments shown and described. To the utility model belongs to the technical field of ordinary technical personnel, do not deviate from the utility model discloses under the prerequisite of design, can also make a plurality of simple deductions or replacement, all should regard as belonging to the utility model discloses a protection scope.

Claims (10)

1. A U-bar alignment device, comprising:

a support bar (1);

the first laser emitter (201), the first laser emitter (201) is fixedly connected to the support rod (1), and the first laser emitter (201) is perpendicular to the support rod (1);

the second laser emitter (202), second laser emitter (202) fixed connection is on bracing piece (1), and second laser emitter (202) and first laser emitter (201) are in same horizontal plane, and second laser emitter (202) and first laser emitter (201) laser emission direction are the same, and second laser emitter (202) and first laser emitter (201) interval and U type pole (601) diameter phase-match.

2. A U-bar alignment device as defined in claim 1 further comprising:

the third laser emitter (203), the third laser emitter (203) is fixedly connected to the supporting rod (1), and the laser emitting direction of the third laser emitter (203) is the same as that of the second laser emitter (202);

the fourth laser emitter (204) is fixedly connected to the supporting rod (1), the fourth laser emitter (204) and the third laser emitter (203) are located on the same horizontal plane, the laser emitting direction of the fourth laser emitter (204) is the same as that of the third laser emitter (203), the distance between the fourth laser emitter (204) and the third laser emitter (203) is matched with the diameter of the U-shaped rod (601), and the horizontal distance between the middle point of the connecting line of the third laser emitter (203) and the fourth laser emitter (204) and the middle point of the connecting line of the first laser emitter (201) and the second laser emitter (202) is matched with the distance between two arms of the U-shaped rod (601).

3. A U-bar aligning device according to claim 2, characterized in that the first laser transmitter (201), the second laser transmitter (202), the third laser transmitter (203) and the fourth laser transmitter (204) are horizontally slidably connected to the support bar (1) by means of a guide groove structure (3).

4. A U-bar alignment device as defined in claim 3 further comprising:

the cradle head, guide slot structure (3) are connected on bracing piece (1) through the cradle head.

5. A U-shaped bar alignment device according to claim 3 or 4 wherein the channel structure (3) comprises:

the body (301), the body (301) is connected to the support rod (1);

the sliding groove (302) is formed in the front surface of the body (301), and the length direction of the sliding groove (302) is parallel to the horizontal plane;

slider (303), slider (303) and spout (302) phase-match, slider (303) sliding connection are on spout (302), and slider (303) includes 4, and 4 slider (303) are fixed connection respectively on first laser emitter (201), second laser emitter (202), third laser emitter (203) and fourth laser emitter (204).

6. A U-bar alignment device as defined in claim 5 further comprising:

the scale (304), the scale (304) is arranged at the upper edge of the sliding groove (302) on the front surface of the body (301);

the indicating needle (305), the indicating needle (305) is fixedly connected to the upper surface of the front surface of the protruding body (301) of the sliding block (303).

7. A U-shaped bar alignment device according to any of claims 1, 2, 3, 4 or 6 wherein the support bar (1) is a telescopic bar.

8. A U-bar alignment device as defined in claim 7 further comprising:

the supporting plate (5), supporting plate (5) fixed connection is in bracing piece (1) lower part.

9. A U-shaped rod aligning device according to claim 8 wherein the lower end of the support rod (1) is pointed and the lower portion of the support rod (1) is provided with a screw thread (101).

10. A U-bar alignment device as in claim 9 further comprising:

the radial arm (501), the radial arm (501) is fixedly connected with the side part of the supporting disc (5).

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