CN114608532B - Intelligent engineering cost construction levelness detector - Google Patents

Abstract

The application discloses intelligent engineering cost construction levelness detector relates to level detector technical field, including support frame and laser emitter, be equipped with the mount table on the support frame, laser emitter is located the mount table, be equipped with light guide assembly on the mount table, light guide assembly includes reflector panel and the driving piece of one side reflection of light, the driving piece sets up in the mount table along vertical direction, the vertical output that sets up in the driving piece of reflector panel and driving piece make reflector panel horizontal direction rotate, the reflector panel is located laser emitter's laser irradiation route. This application can be more accurate when measuring the levelness, and the operation is more convenient.

Description

Intelligent engineering cost construction levelness detector

Technical Field

The application relates to the technical field of level detectors, in particular to an intelligent engineering cost construction levelness detector.

Background

The engineering cost refers to the construction price of the engineering, and the main task of the engineering cost is to calculate the direct fee, enterprise management fee, measure fee, profit and tax contained in the engineering according to the drawing, quota and list specification. In accounting for construction costs, various measuring devices are often used, and an instrument for measuring levelness of building construction is one of the most commonly used devices.

The existing measuring instrument mainly has two types, namely, the straight ruler is directly adopted for testing, the structure is simple, and the measuring precision is low. The other group adopts an electronic levelness measuring instrument, uses infrared rays to detect levelness, has accurate measurement, is the levelness detecting instrument with the most use in the current engineering cost, has smaller measurement range when measuring the wall indoors, needs to rotate the measuring instrument when measuring other walls, easily causes the measuring instrument to have measurement errors in the rotation process, and is more troublesome to operate.

Disclosure of Invention

In order to reduce errors generated in the measuring process of the levelness measuring instrument, the application provides an intelligent engineering cost construction levelness detecting instrument.

The application provides an intelligent engineering cost construction levelness detector adopts following technical scheme.

The utility model provides an intelligent engineering cost construction levelness detector, includes support frame and laser emitter, be equipped with the mount table on the support frame, laser emitter is located the mount table, be equipped with light guide assembly on the mount table, light guide assembly includes reflector panel and the driving piece of one side reflection of light, the driving piece sets up on the mount table along vertical direction, the vertical output that sets up in the driving piece of reflector panel and driving piece make reflector panel horizontal direction rotate, the reflector panel is located laser emitter's laser irradiation route.

Through adopting above-mentioned technical scheme, when indoor to wall body measurement levelness, open the driving piece and make the reflector panel rotate, open laser emitter, the laser that sends shines on the reflector panel, pivoted reflector panel is with laser reflection to other directions for the light beam of laser can be three hundred sixty degrees and encircle indoor, forms light on the wall body, can make measuring range wider, need not to rotate the instrument when changing the wall body measurement simultaneously, can reduce measuring error, also can make measuring operation more convenient.

Optionally, be equipped with the mounting groove on the mount table, light guide assembly is located the mounting groove, vertical slip is equipped with the butt piece in the mounting groove, the driving piece sets firmly on the butt piece, be equipped with pushing component in the mount table, pushing component includes to slide along the horizontal direction to establish with the push rod in the mount table and be used for promoting the impeller that the push rod removed, the impeller sets up in the mount table along the horizontal direction and the output is connected with the one end of push rod, the one end that the impeller was kept away from to the push rod is contradicted in the butt piece, the position that push rod and butt piece meet the department is towards light guide assembly slope setting.

Through adopting above-mentioned technical scheme, when measuring, start the impeller, the impeller makes the push rod remove, and the push rod promotes the butt piece and makes the butt piece upwards move for the reflector panel removes to the irradiation route of laser on, guides the light, and the back impeller makes the push rod remove to the normal position after measuring, and the butt piece removes the tank bottom of mounting groove under the action of gravity, and light guide assembly removes to the mounting groove in, can reduce the light guide assembly and receive the possibility of damage when not using.

Optionally, the mount pad is located and is equipped with the spacing groove along vertical direction on the both sides cell wall of mounting groove, the both sides of butt piece are equipped with the slider, the slider slides and sets up in the spacing inslot.

Through adopting above-mentioned technical scheme, slide the slider that sets up the butt piece both sides in the spacing inslot, can be spacing in the mounting groove with the butt piece, can avoid the light guide component to break away from the mounting groove for the light guide component installs more firmly in the mounting groove.

Optionally, a first reset spring is connected between the two sliding blocks and the bottoms of the two limiting grooves respectively.

Through adopting above-mentioned technical scheme, after the measurement finishes, the push rod leaves the bottom of butt piece, and the butt piece removes to the tank bottom of mounting groove under first reset spring's effect, makes the light guide component remove to the mounting groove in, can avoid the butt piece card at the cell wall of mounting groove, leads to the light guide component unable condition that gets back to the mounting groove to appear.

Optionally, one side that is located the mounting groove in the mount pad is equipped with the battery, the mount pad is located and is equipped with the conducting strip on the cell wall of mounting groove, the positive negative pole and the conducting strip contact of battery, one side of butt piece is equipped with the conducting block, the conducting block communicates with the positive negative pole of driving piece, the conducting strip is located the removal route of conducting block.

Through adopting above-mentioned technical scheme, when measuring, make light guide component upwards move, when the driving piece is moving to the highest position, the conducting shoe on the butt piece contacts with the conducting strip for the positive negative pole of driving piece and the positive negative pole intercommunication of battery can make the driving piece start, make the reflector panel rotate, can make the driving piece open automatically, make the operation more convenient during the measurement.

Optionally, the top of reflector panel is provided with along the horizontal direction and is used for the confined shrouding of mounting groove, the shrouding is contradicted in the mount table.

Through adopting above-mentioned technical scheme, after the measurement, the light guide component removes to the mounting groove in, and the shrouding on the reflector panel is contradicted on the mount table, seals the mounting groove, plays the effect of protection to the light guide component, can reduce the light guide component and receive the possibility that outside striking damaged, also can play dirt-proof effect simultaneously.

Optionally, the mount pad is located the position of mounting groove and is equipped with the butt groove, the notch of mounting groove is located the tank bottom of butt groove, the shrouding is contradicted in the butt inslot and is flush with the mount pad, the mount pad is located the tank bottom of butt groove and encircles the notch of mounting groove and be equipped with many buffer springs along vertical direction, the shrouding is contradicted on buffer spring.

Through adopting above-mentioned technical scheme, when the shrouding seals the mounting groove, the shrouding is contradicted in the butt inslot for the shrouding flushes with the surface of mount table, and the shrouding can be contradicted on buffer spring when the downwardly moving, and buffer spring can play the effect of buffering to the shrouding, reduces the shrouding and receives the impact force and damage when the whereabouts possibility.

Optionally, the mount table is located the position of laser emitter and is equipped with movable groove, the bottom of laser emitter is equipped with the switch, the switch is located movable inslot, the cell wall in movable groove is equipped with the ejector pin along vertical direction slip, the top of ejector pin is located the below of switch, the bottom of ejector pin is located the push rod top, be equipped with the lug that is used for promoting the ejector pin and reciprocates on the push rod.

Through adopting above-mentioned technical scheme, when measuring, make the push rod remove, the lug on the push rod of push rod at the removal in-process makes the push rod upwards move, and the push rod upwards moves the switch that the in-process was pushed up to laser emitter, makes laser emitter open, makes the push rod reset after measuring, and the push rod removes the in-process lug and makes the push rod upwards move the top and move the switch, makes laser emitter close for operation convenient more simple when measuring.

Optionally, a second reset spring is sleeved on the ejector rod, and two ends of the second reset spring are respectively connected with the ejector rod and the groove wall of the movable groove.

Through adopting above-mentioned technical scheme, make second reset spring be in tensile or compression state when the ejector pin removes, the ejector pin can make the ejector pin reset after opening or closing the switch, can avoid the ejector pin card on the cell wall of movable groove.

In summary, the present application comprises at least one of the following beneficial effects:

1. the driving piece enables the reflecting plate to rotate, laser irradiates the reflecting plate, the rotating reflecting plate reflects the laser to other directions, so that a beam of the laser can be three hundred sixty degrees to encircle the room, light is formed on the wall, the measuring range is wider, meanwhile, an instrument does not need to be rotated when the wall is replaced for measurement, the measuring error can be reduced, and the measuring operation is more convenient;

2. the light guide assembly is arranged in the mounting groove, so that the possibility that the light guide assembly is damaged when not in use can be reduced, and the reflector is moved to a laser irradiation route by the pushing assembly when in use;

3. when the driving piece moves to the highest position, the conductive block on the abutting block is in contact with the conductive sheet, so that the anode and the cathode of the driving piece are communicated with the anode and the cathode of the storage battery, the driving piece can be started, the reflecting plate can be rotated, the driving piece can be automatically started, and the operation is more convenient and faster during measurement.

Drawings

Fig. 1 is a schematic structural diagram of an intelligent construction cost construction levelness detector in an embodiment of the application.

Fig. 2 is an enlarged view of a portion a in fig. 1.

Fig. 3 is a cross-sectional view taken along line B-B of fig. 1.

Fig. 4 is an enlarged view of a portion C in fig. 3.

Fig. 5 is an enlarged view of the portion D in fig. 3.

Reference numerals illustrate:

1. a support frame; 11. support legs; 2. a laser emitter; 21. a switch; 3. a mounting table; 31. a mounting groove; 311. a limit groove; 312. a conductive sheet; 32. an abutment block; 321. a slide block; 322. a first return spring; 323. a conductive block; 33. a storage battery; 34. an abutment groove; 35. a buffer spring; 36. a movable groove; 37. a push rod; 371. a second return spring; 38. a power supply slot; 381. a cover plate; 4. a light guide assembly; 41. a light reflecting plate; 42. a driving member; 43. a sealing plate; 5. a pushing assembly; 51. a push rod; 511. a bump; 52. a pushing member.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-5.

The embodiment of the application discloses an intelligent engineering cost construction levelness detector. Referring to fig. 1 and 2, the levelness detector for construction of the energy engineering cost comprises a support frame 1 and a laser transmitter 2, wherein the support frame 1 comprises three support legs 11 with adjustable heights, an installation table 3 is installed at the top of the support frame 1, and the laser transmitter 2 is fixedly installed on the installation table 3. The mounting table 3 is provided with the light guide assembly 4, the light guide assembly 4 comprises a reflecting plate 41 with one reflecting surface and a driving piece 42, in the embodiment, the reflecting plate 41 adopts a rectangular reflecting mirror, the driving piece 42 adopts a micro motor, the driving piece 42 is vertically arranged on the mounting table 3, the output end of the driving piece 42 is positioned above, the central line of the back side of the reflecting plate 41 is fixed at the output end of the driving piece 42, and the reflecting plate 41 is positioned on the laser irradiation path emitted by the laser emitter 2. The driving piece 42 makes reflector panel 41 rotate, and the laser shines on the reflector panel 41, and pivoted reflector panel 41 reflects other directions with the laser for the light beam of laser can be three hundred sixty degrees and encircle indoor, forms light on the wall body, can make measuring range wider, need not to rotate the instrument when changing the wall body simultaneously and measure, can reduce measuring error, also can make measuring operation more convenient.

Referring to fig. 3 and 4, the mounting base 3 is provided with a mounting groove 31 in a vertical direction, the bottom of the mounting groove 31 is provided with an abutment block 32 in a vertical direction in a sliding manner, and the driving member 42 is fixed to the abutment block 32. Install the promotion subassembly 5 in mount table 3, the promotion subassembly 5 includes to slide along the horizontal direction and sets up push rod 51 and the impeller 52 in mount table 3, and the impeller 52 uses miniature electricity to push away the jar in this embodiment, and impeller 52 sets up in mount table 3 along the horizontal direction, and the one end of push rod 51 sets firmly in the flexible end of impeller 52, and the one end that push rod 51 kept away from impeller 52 is passed the cell wall of mounting groove 31 and is contradicted in the lateral wall that the butt piece 32 is close to the bottom.

The push rod 51 is abutted against the end face of the abutting block 32 to form an inclined plane inclined towards the light guide assembly 4, the abutting block 32 is provided with an inclined plane with the same inclination direction and angle as those of the push rod 51, and the two inclined planes are attached to each other. When the measurement is carried out, the pushing piece 52 is started, the pushing piece 52 enables the push rod 51 to move, the push rod 51 pushes the abutting block 32 to enable the abutting block to move upwards, the reflecting plate 41 moves to the irradiation route of laser to guide light, after the measurement is finished, the pushing piece 52 enables the push rod 51 to move to the original position, the abutting block 32 moves to the bottom of the mounting groove 31 under the action of gravity, the light guide assembly 4 moves into the mounting groove 31, and the possibility that the light guide assembly 4 is damaged when not in use can be reduced.

Referring to fig. 3 and 4, in order to prevent the light guide assembly 4 from moving out of the installation groove 31 during the moving process, the installation table 3 is located on the groove walls at two sides of the installation groove 31 and is provided with a limiting groove 311 along the vertical direction, two sides of the abutting block 32 are provided with sliding blocks 321, the sliding blocks 321 are clamped in the limiting groove 311, the sliding blocks 321 vertically move in the limiting groove 311, the limiting groove 311 enables the abutting block 32 to move only in the installation groove 31, the light guide assembly 4 can be prevented from falling out of the installation groove 31, meanwhile, the limiting groove 311 can also play a role in guiding the abutting block 32, and the situation that the abutting block 32 is obliquely clamped in the installation groove 31 when pushed can be avoided.

After the measurement is completed, the abutting block 32 moves to the bottom of the mounting groove 31 under the action of gravity, but the abutting block 32 is easy to be clamped at the groove wall of the mounting groove 31 during the movement, so that the light guide assembly 4 cannot completely enter the mounting groove 31, and in order to enable the light guide assembly 4 to more easily enter the mounting groove 31, a first reset spring 322 is connected between the sliding block 321 and the groove wall at the bottom of the limiting groove 311. During measurement, the abutting block 32 moves upwards, so that the first return spring 322 is in a stretched state, after measurement is completed, the push rod 51 leaves the abutting block 32, so that the abutting block 32 can move to the bottom of the mounting groove 31 under the action of the first return spring 322, the light guide assembly 4 can move into the mounting groove 31, the situation that the abutting block 32 is clamped on the wall of the mounting groove 31, and the light guide assembly 4 cannot return to the mounting groove can be avoided.

In order to avoid the condition that light guide assembly 4 received outside striking and damaged when being located mounting groove 31 to appear, be provided with along the horizontal direction at the top of reflector panel 41 and be circular shape shrouding 43, the diameter of shrouding 43 is greater than the length of reflector panel 41, shrouding 43 contradicts on mount table 3 when reflector panel 41 removes to in the mounting groove 31, seals mounting groove 31, plays the effect of protection to light guide assembly 4, can reduce light guide assembly 4 and receive the possibility that outside striking damaged, shrouding 43 also can play dirt-proof effect simultaneously.

The mounting table 3 is provided with a circular abutting groove 34, the mounting groove 31 is formed in the groove bottom of the abutting groove 34, the centers of the mounting groove 31 and the abutting groove 34 are located on the same vertical line, when the reflecting plate 41 is located in the mounting groove 31, the sealing plate 43 abuts against the inside of the abutting groove 34, and the peripheral side of the sealing plate 43 is flush with the groove wall of the abutting groove 34, so that the surface of the sealing plate 43 is flush with the mounting table 3.

The shrouding 43 can receive the impact force when contradicting on mount table 3 with the removal, use for a long time and make shrouding 43 damage easily, in order to reduce shrouding 43 and receive the possibility of striking and damaging, the notch that encircles mounting groove 31 at the tank bottom of butt groove 34 is provided with many buffer springs 35, buffer springs 35 set up along vertical direction, shrouding 43 can be contradicted on buffer springs 35 when moving down, buffer springs 35 can play the effect of buffering to shrouding 43, reduce shrouding 43 receive the impact force and damage when the whereabouts possibility, can increase shrouding 43's life.

In order to facilitate the operation during the measurement, the power supply groove 38 is provided on one side of the mounting table 3 located in the mounting groove 31, the storage battery 33 for supplying power to the driving member 42 is mounted in the power supply groove 38, and the cover plate 381 is fastened to the mounting table 3 at the position of the power supply groove 38. Two conductive pieces 312 are attached to the wall of the mounting groove 31, and the positive and negative electrodes of the battery 33 are respectively in contact with the two conductive pieces 312. The conductive blocks 323 are mounted on one side of the abutting block 32, two conductive blocks 323 are respectively communicated with the positive and negative poles of the driving piece 42, the two conductive blocks 323 are close to the groove wall of the mounting groove 31, and the conductive sheet 312 is positioned on the moving route of the conductive blocks 323. When the abutting block 32 moves to the highest point, the two conductive blocks 323 are respectively contacted with the two conductive sheets 312, so that the positive electrode and the negative electrode of the driving piece 42 are contacted with the positive electrode and the negative electrode of the storage battery 33, the storage battery 33 can provide power for the driving piece 42, the driving piece 42 can be automatically opened, the reflecting plate 41 is rotated, and the operation is more convenient during measurement.

Referring to fig. 5, in order to make the operation more convenient during the measurement, the movable groove 36 is provided at the position of the mounting table 3 at the laser emitter 2, the laser emitter 2 covers the movable groove 36, the bottom of the laser emitter 2 is provided with the switch 21, the switch 21 is located in the movable groove 36, the groove wall of the movable groove 36 is provided with the ejector rod 37 in a sliding manner along the vertical direction, the top end of the ejector rod 37 is located under the switch 21, the top end of the ejector rod 37 is located above the push rod 51, and the push rod 51 is provided with the arc-shaped protruding block 511.

When the measurement is carried out, the push rod 51 moves, the lug 511 on the push rod 51 pushes the push rod 37 in the moving process of the push rod 51, so that the push rod 37 moves upwards, the push rod 37 pushes the switch 21 of the laser emitter 2 in the moving process of the push rod 37 upwards, the laser emitter 2 is started, the push rod 51 is reset after the measurement is finished, the lug 511 moves the push rod 37 upwards to push the switch 21 in the moving process of the push rod 51, the laser emitter 2 is closed, and the operation is more convenient and simpler during the measurement.

In order to avoid that the ejector rod 37 is clamped in the movable groove 36 after the switch 21 is pushed, the ejector rod 37 cannot be reset, the convex block 511 cannot be pushed to the ejector rod 37, the switch 21 cannot be controlled to be opened or closed, the ejector rod 37 is sleeved with a second reset spring 371, the second reset spring 371 is compressed or stretched when the ejector rod 37 moves, and when the convex block 511 leaves the ejector rod 37, the ejector rod 37 is reset under the action of the second reset spring 371, so that the situation that the ejector rod 37 is clamped in the movable groove 36 can be avoided.

The implementation principle of the intelligent engineering cost construction levelness detector is as follows: when the measurement is performed, the pushing piece 52 is started, the pushing piece 52 pushes the push rod 51 to move, the push rod 51 pushes the abutting block 32 to move, meanwhile, the protruding block 511 on the push rod 51 pushes the ejector rod 37 to move upwards, and the ejector rod 37 pushes the switch 21 of the laser emitter 2 to enable the laser emitter 2 to be started. When the abutting block 32 moves to the highest point, the reflecting plate 41 moves to the mounting table 3, the light beam emitted by the laser emitter 2 irradiates on the reflecting plate 41, and meanwhile, the conductive block 323 on the driving piece 42 contacts with the conductive sheet 312, so that the driving piece 42 is electrified and started, and the reflecting plate 41 rotates to reflect the light beam to other directions. After the measurement is completed, the push rod 51 leaves the abutting block 32, the abutting block 32 moves to the bottom of the mounting groove 31 under the action of the first return spring 322, the reflecting plate 41 moves into the mounting groove 31, the sealing plate 43 abuts against the buffer spring 35, and the mounting groove 31 is closed. During the resetting process of the push rod 51, the lug 511 pushes the push rod 37, and the push rod 37 pushes the switch 21 to close the laser emitter 2.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (6)

1. The utility model provides an intelligent engineering cost construction levelness detector, includes support frame (1) and laser emitter (2), its characterized in that: the laser device comprises a support frame (1), wherein an installing table (3) is arranged on the support frame (1), a laser emitter (2) is arranged on the installing table (3), a light guide assembly (4) is arranged on the installing table (3), the light guide assembly (4) comprises a reflecting plate (41) with one surface reflecting light and a driving piece (42), the driving piece (42) is arranged on the installing table (3) along the vertical direction, the reflecting plate (41) is vertically arranged at the output end of the driving piece (42) and the driving piece (42) enables the reflecting plate (41) to rotate in the horizontal direction, and the reflecting plate (41) is arranged on a laser irradiation route of the laser emitter (2);

the novel light guide device is characterized in that an installation groove (31) is formed in the installation table (3), the light guide component (4) is located in the installation groove (31), an abutting block (32) is vertically arranged in the installation groove (31) in a sliding mode, the driving piece (42) is fixedly arranged on the abutting block (32), the pushing component (5) is arranged in the installation table (3), the pushing component (5) comprises a push rod (51) and a pushing piece (52) used for pushing the push rod to move, the push piece (52) is arranged in the installation table (3) in a sliding mode along the horizontal direction, the output end of the push rod (52) is connected with one end of the push rod (51), one end of the push rod (51) away from the pushing piece (52) abuts against the abutting block (32), and the position, where the push rod (51) is connected with the abutting block (32), is obliquely arranged towards the light guide component (4).

A storage battery (33) is arranged on one side of the mounting table (3) positioned in the mounting groove (31), a conducting strip (312) is arranged on the groove wall of the mounting table (3) positioned in the mounting groove (31), the positive electrode and the negative electrode of the storage battery (33) are in contact with the conducting strip (312), a conducting block (323) is arranged on one side of the abutting block (32), the conducting block (323) is communicated with the positive electrode and the negative electrode of the driving piece (42), and the conducting strip (312) is positioned on a moving route of the conducting block (323);

the mounting table (3) is located the position of laser emitter (2) and is equipped with movable groove (36), the bottom of laser emitter (2) is equipped with switch (21), switch (21) are located movable groove (36), the cell wall in movable groove (36) is equipped with ejector pin (37) along vertical direction slip, the top of ejector pin (37) is located the below of switch (21), the bottom of ejector pin (37) is located push rod (51) top, be equipped with on push rod (51) and be used for promoting lug (511) of ejector pin (37) reciprocates.

2. The intelligent construction levelness detector for engineering construction according to claim 1, wherein: the mounting table (3) is located on two side groove walls of the mounting groove (31) and is provided with a limiting groove (311) along the vertical direction, two sides of the abutting block (32) are provided with sliding blocks (321), and the sliding blocks (321) are arranged in the limiting groove (311) in a sliding mode.

3. The intelligent engineering construction levelness detector according to claim 2, wherein: a first return spring (322) is connected between the two sliding blocks (321) and the bottoms of the two limiting grooves (311) respectively.

4. The intelligent construction levelness detector for engineering construction according to claim 1, wherein: the top of reflector panel (41) is provided with along the horizontal direction and is used for sealing shrouding (43) of mounting groove (31), shrouding (43) are contradicted on mount table (3).

5. The intelligent construction levelness detector for engineering construction according to claim 4, wherein: the mounting table (3) is located the position of mounting groove (31) and is equipped with butt groove (34), the notch of mounting groove (31) is located the tank bottom of butt groove (34), shrouding (43) conflict in butt groove (34) and flush with mounting table (3), the tank bottom that mounting table (3) are located butt groove (34) encircles the notch of mounting groove (31) and is equipped with many buffer springs (35) along vertical direction, shrouding (43) conflict on buffer spring (35).

6. The intelligent construction levelness detector for engineering construction according to claim 1, wherein: the ejector rod (37) is sleeved with a second reset spring (371), and two ends of the second reset spring (371) are respectively connected with the ejector rod (37) and the groove wall of the movable groove (36).