CN211740143U - Calibrating installation of building engineering detector group - Google Patents

Abstract

The utility model relates to an engineering detects technical field, discloses a calibrating installation of building engineering detector group, for the examination ability of improvement to the building engineering wall body, the front side embedding block that detects the box has examination box, the top that detects the box is located one side position department and is provided with the computer, and the top that detects the box is located one side of computer and is provided with horizontal adjustment mechanism, horizontal adjustment mechanism's top is fixed with lift adjustment mechanism. The utility model discloses a horizontal adjustment mechanism's adjustment, under the combination of balance staff, can be convenient for the staff with calibrating installation adjustment to horizontality, and then ensure laser measurement's horizontality, can be accurate carry out the work of examining and determine to building wall, ensure whether the construction of wall body is in the vertical state, and in the verification process, through lift adjustment mechanism, can improve calibrating installation's flexibility, and then can examine and determine the building wall body of co-altitude.

Description

Calibrating installation of building engineering detector group

Technical Field

The utility model relates to an engineering detects technical field, specifically is a calibrating installation of building engineering detector group.

Background

Through retrieval, the Chinese patent network discloses a building engineering verticality detection ruler calibrating device (publication No. CN205748238U), an upper spherical measuring head is arranged at a position close to the top of a main body, the upper spherical measuring head is a fixed measuring head, the root at the lowest part of the main body is disconnected with the main body and can slide along with an upper sliding block at the bottom, a lower sliding block is fixed on a bottom plate, one side of the bottom plate is provided with a driving screw to enable the upper sliding block to slide along a guide rail, a displacement sensor is also arranged at the same side, the measuring head is contacted with the upper sliding block to detect the moving distance of the upper sliding block and upload the measured data to a computer, the utility model has the advantages of accurately determining the zero position of the building engineering verticality detection ruler, being more accurate in calibrating the indicating error, but the device has a single structure, cannot accurately measure the wall body and can not measure the wall body in the measuring process, the operation is inconvenient, and the detection efficiency of detection personnel is easily influenced. Accordingly, one skilled in the art provides an apparatus for calibrating a detector set for construction engineering to solve the problems set forth in the background art.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a calibrating installation of building engineering detector group to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: a calibrating device of a building engineering detector group comprises a detection box body, wherein rollers are rotatably connected to the front end and the rear end of the lower part of the detection box body, a calibrating box is embedded and clamped in the front side of the detection box body, a computer is arranged at the position of one side of the upper part of the detection box body, a horizontal adjusting mechanism is arranged at the position of one side of the computer above the detection box body, and a lifting adjusting mechanism is fixed above the horizontal adjusting mechanism;

the horizontal adjusting mechanism comprises a supporting bottom plate fixed on one side above the detection box body, a damping spring is fixed below the supporting bottom plate at one side, a transmission screw B is fixed below the detection box body at the middle position of the other side, a transmission screw sleeve is sleeved below the transmission screw B, a transmission screw A is sleeved below the transmission screw sleeve, a balance ruler is fixed above the supporting bottom plate at the front side, and a laser measurer A is fixed above the balance ruler at the middle position;

the lifting adjusting mechanism comprises a positioning main rod fixed at the middle position above the supporting base plate, a telescopic branch rod is embedded into the top end of the positioning main rod and connected with the telescopic branch rod in a screwing mode through a knob, a laser measurer B is fixed at the position, located at the front side, of the top end of the telescopic branch rod, and a positioning top plate is fixed at the position, located at the middle position, of the top end of the telescopic branch rod.

As a further aspect of the present invention: two sets ofly are no less than to the quantity of examination box, and the inboard block of examining the box has dampproofing the pad, and dampproofing the pad adopts the polyurethane material component.

As a further aspect of the present invention: the number of the damping springs is 2, and the damping springs are symmetrically arranged relative to the longitudinal center line of the support base plate.

As a further aspect of the present invention: the length of the transmission screw A is the same as that of the transmission screw B, and the length of the transmission screw B is half of that of the transmission screw sleeve.

As a further aspect of the present invention: the number of the telescopic supporting rods is not less than 3, and the length of each telescopic supporting rod is not less than 1 m.

As a further aspect of the present invention: the laser measuring instrument A and the laser measuring instrument B are on the same horizontal line relative to the longitudinal direction of the supporting bottom plate.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model discloses a horizontal adjustment mechanism's adjustment, under the combination of balance staff, the staff of can being convenient for adjusts calibrating installation to horizontality, and then ensures laser measurement's horizontality, can be accurate carry out the work of examining and determine to building wall, ensure whether the construction of wall body is in the vertical state, and at the verification process, through lift adjustment mechanism, can improve calibrating installation's flexibility, and then can examine and determine the building wall body of co-altitude not, easily receive and release simultaneously, can make things convenient for measurement personnel's carrying.

Drawings

FIG. 1 is a schematic diagram of a calibration device for a construction engineering detector set;

FIG. 2 is a schematic diagram of a horizontal adjustment mechanism in the calibrating apparatus of the detector set for construction engineering;

fig. 3 is a schematic structural diagram of a lifting adjusting mechanism in the calibrating device of the building engineering detector group.

In the figure: 1. detecting the box body; 2. a computer; 3. a roller; 4. a verification box; 5. a damping spring; 6. a balance scale; 7. a laser measurer A; 8. a support base plate; 9. positioning the main rod; 10. a knob; 11. a telescopic strut; 12. a laser measurer B; 13. positioning a top plate; 14. a drive screw A; 15. a transmission threaded sleeve; 16. and a drive screw B.

Detailed Description

Please refer to fig. 1-3, in the embodiment of the utility model, an calibrating installation of building engineering detector group, including detecting box 1, both ends are all rotated around the below of detecting box 1 and are connected with gyro wheel 3, and the front side embedding block that detects box 1 has examination box 4, the quantity of examining and determine box 4 is no less than two sets ofly, and the inboard block of examining and determining box 4 has dampproofing pad, dampproofing pad adopts polyurethane material component, through placing the detection instrument in examining and determining box 4 inside, can improve calibrating installation's examination ability, and then save the time that the measurement personnel made a round trip to get and put the examination instrument, improve measurement personnel's examination efficiency.

The computer 2 is arranged at a position on one side above the detection box body 1, the horizontal adjusting mechanism is arranged at one side of the computer 2 above the detection box body 1 and comprises a supporting bottom plate 8 fixed at one side above the detection box body 1, a damping spring 5 is fixed at a position on one side below the supporting bottom plate 8, a transmission screw B16 is fixed at a position on the middle part of the other side below the detection box body 1, a transmission threaded sleeve 15 is sleeved below the transmission screw B16, a transmission screw A14 is sleeved below the transmission threaded sleeve 15, a balance ruler 6 is fixed at a position on the front side above the supporting bottom plate 8, laser measurers A7 are fixed at a position on the middle part above the balance ruler 6, the damping springs 5 are 2 in number, the damping springs 5 are symmetrically arranged relative to the longitudinal center line of the supporting bottom plate 8, the transmission screw A14 is the same as the transmission screw B16 in length, and the lengths of the transmission screw B16 and the transmission screw B16 are half of the length of the transmission screw sleeve 15, when the building wall is detected, a detector rotates the transmission screw sleeve 15, so that the transmission screw sleeve 15 symmetrically rotates on the transmission screw A14 and the transmission screw B16, and further, through the balance direction of the balance ruler 6, under the elastic reset of the damping spring 5, the inclination angle of the supporting bottom plate 8 is adjusted, the supporting bottom plate 8 is in the horizontal direction, the levelness of the laser measurer is ensured, the laser measurer can accurately detect the building wall, and whether the building of the wall is in the vertical state or not is detected.

A lifting adjusting mechanism is fixed above the horizontal adjusting mechanism, the lifting adjusting mechanism comprises a positioning main rod 9 fixed at the middle position above the supporting base plate 8, a telescopic branch rod 11 is embedded into the top end of the positioning main rod 9, the positioning main rod 9 is screwed with the telescopic branch rod 11 through a knob 10, a laser measurer B12 is fixed at the position of the top end of the telescopic branch rod 11 at the front side, a positioning top plate 13 is fixed at the position of the top end of the telescopic branch rod 11 at the middle position, the number of the telescopic branch rods 11 is not less than 3, the length of the telescopic branch rods 11 is not less than 1m, the laser measurer A7 and the laser measurer B12 are positioned on the same horizontal line relative to the longitudinal direction of the supporting base plate 8, the telescopic branch rods 11 are drawn out from the positioning main rod 9 in the process of calibrating the wall, when the positioning top plate 13 is attached to the top of the building wall, the knob 10, and operating the computer 2 to enable the laser measurer A7 and the laser measurer B12 to emit laser to the building wall, wherein the computer 2 detects whether the verticality of the building wall meets the standard by comparing the difference between the laser emission lengths of the laser measurer A7 and the laser measurer B12.

The utility model discloses a theory of operation is: when a building wall is checked, a tester rotates the transmission threaded sleeve 15, so that the transmission threaded sleeve 15 symmetrically rotates between a transmission screw A14 and a transmission screw B16, and further, through the balance direction of the balance ruler 6, under the elastic reset of the damping spring 5, the inclination angle of the support base plate 8 is adjusted, so that the support base plate 8 is in the horizontal direction, the horizontality of the laser measurer is ensured, and the laser measurer can accurately check the building wall, in the checking process of the wall, the telescopic strut 11 is pulled out from the positioning main rod 9, when the positioning top plate 13 is attached to the top of the building wall, the knob 10 is rotated to fix the telescopic strut 11, and further, the computer 2 is operated, so that the laser measurer A7 and the laser measurer B12 emit laser to the building wall, the computer 2 compares the difference between the laser emission lengths of the laser measurer A7 and the laser measurer B12, so as to detect whether the verticality of the building wall meets the standard or not.

The above-mentioned, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (6)

1. The calibrating device for the building engineering detector group comprises a detection box body (1), and is characterized in that rollers (3) are rotatably connected to the front end and the rear end of the lower part of the detection box body (1), a calibrating box (4) is embedded and clamped in the front side of the detection box body (1), a computer (2) is arranged at one side position above the detection box body (1), a horizontal adjusting mechanism is arranged at one side of the upper part of the detection box body (1) which is located on the computer (2), and a lifting adjusting mechanism is fixed above the horizontal adjusting mechanism;

the horizontal adjusting mechanism comprises a supporting bottom plate (8) fixed on one side above the detection box body (1), a damping spring (5) is fixed at the position of one side below the supporting bottom plate (8), a transmission screw B (16) is fixed at the position of the middle part of the other side below the detection box body (1), a transmission threaded sleeve (15) is sleeved below the transmission screw B (16), a transmission screw A (14) is sleeved below the transmission threaded sleeve (15), a balance ruler (6) is fixed at the position of the front side above the supporting bottom plate (8), and a laser measurer A (7) is fixed at the position of the middle part above the balance ruler (6);

lifting adjusting mechanism is including fixing location mobile jib (9) in supporting baseplate (8) top middle part position department, the top embedding of location mobile jib (9) is provided with flexible branch (11), and location mobile jib (9) twist with flexible branch (11) through knob (10) and close and be connected, the top of flexible branch (11) is located front side position department and is fixed with laser measurement ware B (12), and the top of flexible branch (11) is located middle part position department and is fixed with location roof (13).

2. The calibrating device for the building engineering detector group according to claim 1, wherein the number of the calibrating boxes (4) is not less than two, and a moisture-proof pad is clamped on the inner side of each calibrating box (4), and the moisture-proof pad is made of a polyurethane material component.

3. The calibrating device for the building engineering detector group according to claim 1, characterized in that the number of the damping springs (5) is 2, and the damping springs (5) are arranged symmetrically with respect to the longitudinal center line of the support base (8).

4. The calibrating device for the building engineering detector group as claimed in claim 1, wherein the lengths of the drive screw A (14) and the drive screw B (16) are the same, and the lengths of the drive screw B (16) and the drive screw B (16) are both half of the length of the drive screw sleeve (15).

5. The calibrating device for the building engineering detector group according to claim 1, wherein the number of the telescopic supporting rods (11) is not less than 3, and the length of the telescopic supporting rods (11) is not less than 1 m.

6. The certification device for the building engineering detector group according to claim 1, wherein the laser measurer A (7) and the laser measurer B (12) are on the same horizontal line with respect to the longitudinal direction of the support base plate (8).

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