CN114608532A - Intelligent engineering cost construction levelness detector - Google Patents

Abstract

The application discloses intelligent engineering cost construction levelness detector relates to level detection appearance 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 leaded light subassembly on the mount table, leaded light subassembly 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 reflector panel is vertical to be set up and to make the reflector panel horizontal direction rotate in the output of driving piece and driving piece, the reflector panel is located laser emitter's laser irradiation route. This application can be more accurate when measuring the levelness, and it is more convenient to operate.

Description

Intelligent engineering cost construction levelness detector

Technical Field

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

Background

The project cost is the construction price of the project, and the main task of the project cost is to calculate the direct fee, enterprise management fee, measure fee, profit, tax and the like contained in the project according to drawings, quota and list specifications. When the construction cost of a project is calculated, various measuring devices are often used, and an instrument for measuring the levelness of building construction is one of the most common devices.

The existing measuring instruments mainly have two types, one is that the straight ruler is directly adopted for testing, the structure is simple, but the measuring precision is low. The other group adopts an electronic levelness measuring instrument, uses infrared rays for levelness detection, has accurate measurement, uses the levelness detecting instrument which is the most used in the prior engineering cost, has smaller measurement range when measuring the wall indoors, needs to rotate the measuring instrument when measuring other walls, is easy to cause the measuring instrument to have measurement errors in the rotating process, and has troublesome operation.

Disclosure of Invention

In order to reduce the error that the levelness measuring apparatu produced in the measurement process, this application provides an intelligent engineering cost construction levelness detector.

The application provides a pair of 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 the reflector panel and the driving piece of the one side reflection of light, the driving piece sets up on the mount table along vertical direction, the reflector panel is vertical to be set up in the output of driving piece and the driving piece makes the 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 irradiation who sends is on the reflector panel, other directions are reflected with laser to the pivoted reflector panel, make the light beam of laser can be three hundred sixty degrees and encircle to indoorly, form light on the wall body, can make measuring range wider, it need not to rotate the instrument to change the wall body when measuring simultaneously, can reduce measuring error, it is more convenient also to make measurement operation.

Optionally, a mounting groove is formed in the mounting table, the light guide assembly is located in the mounting groove, a butting block is arranged in the mounting groove in a vertical sliding mode, the driving piece is fixedly arranged on the butting block, a pushing assembly is arranged in the mounting table and comprises a pushing rod arranged in the mounting table in a sliding mode along the horizontal direction and a pushing piece used for pushing the pushing rod to move, the pushing piece is arranged in the mounting table along the horizontal direction, the output end of the pushing piece is connected with one end of the pushing rod, one end, far away from the pushing piece, of the pushing rod is abutted to the butting block, and the position where the pushing rod is connected with the butting block is obliquely arranged towards the light guide assembly.

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

Optionally, the mounting table is provided with a limit groove along the vertical direction on the groove walls on the two sides of the mounting groove, and sliding blocks are arranged on the two sides of the abutting block and slidably arranged in the limit groove.

Through adopting above-mentioned technical scheme, slide the slider with butt piece both sides and set up in spacing inslot, can be spacing with the butt piece in the mounting groove, can avoid the leaded light subassembly to break away from the mounting groove for the leaded light subassembly is installed more firmly in the mounting groove.

Optionally, a first return spring is connected between each of the two sliding blocks and the bottom of each of the two limiting grooves.

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

Optionally, a storage battery is arranged on one side, located in the mounting groove, of the mounting table, a conducting strip is arranged on the wall, located in the mounting groove, of the mounting table, the positive and negative electrodes of the storage battery are in contact with the conducting strip, a conducting block is arranged on one side of the abutting block, the conducting block is communicated with the positive and negative electrodes of the driving piece, and the conducting strip is located on the moving route of the conducting block.

Through adopting above-mentioned technical scheme, when measuring, make leaded light subassembly rebound, the driving piece is when removing highest position, and the conducting block 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, and the operation is more convenient during the feasible measurement.

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

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

Optionally, the position that the mount table is located the mount table is equipped with the butt groove, the notch of mounting groove is located the tank bottom in butt groove, the shrouding is contradicted in the butt inslot and flushes with the mount table, the slot bottom that the mount table is located the butt groove encircles the notch of mounting groove and is equipped with many buffer spring along vertical direction, the shrouding is contradicted on buffer spring.

Through adopting above-mentioned technical scheme, when the shrouding was sealed the mounting groove, the shrouding was contradicted at the butt inslot for the shrouding flushes with the surface of mount table, and the shrouding can contradict when the downstream on buffer spring, and buffer spring can play the effect of buffering to the shrouding, reduces the shrouding and receives the impact force and the possibility of damaging when the whereabouts.

Optionally, a movable groove is formed in the position, located on the laser emitter, of the mounting table, a switch is arranged at the bottom of the laser emitter, the switch is located in the movable groove, an ejector rod is arranged on the groove wall of the movable groove in a sliding mode along the vertical direction, the top end of the ejector rod is located below the switch, the bottom end of the ejector rod is located above the push rod, and a protruding block used for pushing the ejector rod to move up and down is arranged on the push rod.

Through adopting above-mentioned technical scheme, when measuring, make the push rod remove, the lug on the push rod is at the removal in-process push rod promotes the ejector pin, makes ejector pin rebound, and the ejector pin rebound in-process pushes up laser emitter's switch, makes laser emitter open, makes the push rod reset after the measurement finishes, and the push rod removes in-process lug and makes ejector pin rebound top switch, makes laser emitter close for the operation is convenient simple more when measuring.

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

Through adopting above-mentioned technical scheme, the ejector pin makes second reset spring be in tensile or compression state when removing, and the ejector pin is opening the switch or is closing back second reset spring and can make the ejector pin reset, can avoid the ejector pin card on the cell wall of activity groove.

In summary, the present application includes at least one of the following advantages:

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

2. the light guide assembly is arranged in the mounting groove, the possibility that the light guide assembly is damaged when not used can be reduced, and the light reflecting plate is moved to an irradiation route of laser by the pushing assembly when the light guide assembly is used;

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

Drawings

FIG. 1 is a schematic structural diagram of an intelligent engineering construction levelness detector in the embodiment of the present 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 a portion D in fig. 3.

Description of reference numerals:

1. a support frame; 11. supporting legs; 2. a laser transmitter; 21. a switch; 3. an installation table; 31. mounting grooves; 311. a limiting groove; 312. a conductive sheet; 32. a butting block; 321. a slider; 322. a first return spring; 323. a conductive block; 33. a storage battery; 34. a butt joint groove; 35. a buffer spring; 36. a movable groove; 37. a top rod; 371. a second return spring; 38. a power supply slot; 381. a cover plate; 4. a light guide assembly; 41. a reflector; 42. a drive member; 43. closing the plate; 5. a pushing assembly; 51. a push rod; 511. a bump; 52. a pusher member.

Detailed Description

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

The embodiment of the application discloses intelligent engineering cost construction levelness detector. Referring to fig. 1 and 2, ability engineering cost construction levelness detector includes support frame 1 and laser emitter 2, and support frame 1 includes three supporting legs 11 that can adjust the height, and mount table 3 is installed at the top of support frame 1, and 2 fixed mounting of laser emitter are on mount table 3. Install light guide assembly 4 on mount table 3, light guide assembly 4 includes reflector panel 41 and the driving piece 42 of one side reflection of light, reflector panel 41 uses the reflector of a rectangle in this embodiment, driving piece 42 uses the micro motor, driving piece 42 is vertical to be installed on mount table 3, and the output of driving piece 42 is located the top, the dorsal central line position of reflector panel 41 is fixed at the output of driving piece 42, and reflector panel 41 is located the laser irradiation route of laser emitter 2 transmission. Driving piece 42 makes reflector panel 41 rotate, and laser irradiation is to reflector panel 41 on, other directions are reflected with laser to pivoted reflector panel 41 for the light beam of laser can be three hundred sixty degrees and encircle to indoorly, 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.

Referring to fig. 3 and 4, in the case of the small light guide assembly 4 which may be damaged by an impact, a mounting groove 31 is formed in the mounting base 3 in the vertical direction, a contact block 32 is slidably disposed at the bottom of the mounting groove 31 in the vertical direction, and a driving member 42 is fixed to the contact block 32. Install pushing assembly 5 in mount table 3, pushing assembly 5 includes and sets up push rod 51 and impeller 52 in mount table 3 along the horizontal direction slip, and impeller 52 uses miniature electric push cylinder in this embodiment, and impeller 52 sets up in mount table 3 along the horizontal direction, and the one end of push rod 51 is fixed in the flexible end of impeller 52, and the one end of push rod 51 is kept away from impeller 52 passes the cell wall of mounting groove 31 and contradicts in the lateral wall that butts piece 32 and be close to the bottom.

The end face of the push rod 51 abutting against the abutting block 32 is set to be an inclined plane inclined towards the light guide assembly 4, the abutting block 32 is provided with an inclined plane which has the same inclination direction and angle with the push rod 51, and the two inclined planes are attached to each other. When the measurement is performed, the pushing piece 52 is started, the pushing piece 52 enables the pushing rod 51 to move, the pushing rod 51 pushes the abutting block 32 to enable the abutting block to move upwards, the light reflection plate 41 is made to move to the irradiation path of the laser light to guide the light, the pushing piece 52 enables the pushing rod 51 to move to the original position after the measurement is completed, 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 used can be reduced.

Referring to fig. 3 and 4, in order to avoid light guide assembly 4 to remove mounting groove 31 at the removal process, mount table 3 has been located and has been seted up spacing groove 311 along vertical direction on the cell wall of mounting groove 31 both sides, both sides at butt piece 32 are provided with slider 321, slider 321 blocks in spacing groove 311, make slider 321 do vertical movement in spacing groove 311, spacing groove 311 makes butt piece 32 only can remove in mounting groove 31, can avoid light guide assembly 4 from falling out mounting groove 31, spacing groove 311 also can play the effect of direction to butt piece 32 simultaneously, can avoid butt piece 32 to appear the condition appearance of slope card in mounting groove 31 when being promoted.

After the measurement finishes, butt piece 32 moves to the tank bottom of mounting groove 31 under the effect of gravity, but butt piece 32 blocks easily at the cell wall of mounting groove 31 when removing, leads to light guide component 4 can not get into the mounting groove 31 completely, in order to make light guide component 4 can get into mounting groove 31 more easily, at slider 321 with, and be connected with first reset spring 322 between the cell wall of spacing groove 311 bottom. During the measurement, butt piece 32 rebound makes first reset spring 322 be in tensile state, and after the measurement finishes, push rod 51 leaves butt piece 32 for butt piece 32 can remove to the tank bottom of mounting groove 31 under first reset spring 322's effect, makes leaded light subassembly 4 remove to the mounting groove 31 in, can avoid butt piece 32 card at the cell wall of mounting groove 31, leads to leaded light subassembly 4 can't get back to the condition appearance of mounting groove.

In order to avoid receiving outside striking and the condition of damaging when light guide assembly 4 is located mounting groove 31 to appear, be provided with at the top of reflector panel 41 along the horizontal direction and be circular shape shrouding 43, the diameter of shrouding 43 is greater than reflector panel 41's length, shrouding 43 conflicts on mount table 3 when reflector panel 41 moves to the mounting groove 31 in, seal mounting groove 31, play the effect of protection to light guide assembly 4, can reduce light guide assembly 4 and receive the possibility of outside striking damage, shrouding 43 also can play dirt-proof effect simultaneously.

Offer on the mount table 3 and be circular shape butt groove 34, the tank bottom at butt groove 34 is seted up to mounting groove 31, and the center of mounting groove 31 and butt groove 34 is located same vertical line, and when reflector panel 41 was located mounting groove 31, shrouding 43 contradicted in butt groove 34, and the week side of shrouding 43 and the cell wall of butt groove 34 for the surface of shrouding 43 flushes with mount table 3.

Shrouding 43 is contradicting on mount table 3 to moving, can receive the impact force, long-time use makes shrouding 43 damage easily, receive the impact and the possibility of damaging in order to reduce shrouding 43, the notch that encircles mounting groove 31 at the tank bottom of butt groove 34 is provided with many buffer spring 35, buffer spring 35 sets up along vertical direction, shrouding 43 is when moving downwards, can contradict on buffer spring 35, buffer spring 35 can play the effect of buffering to shrouding 43, reduce shrouding 43 and receive the impact force and the possibility of damaging when the whereabouts, can increase shrouding 43's life.

In order to facilitate the measurement, a power supply groove 38 is formed in one side of the mounting table 3, which is located at the mounting groove 31, a storage battery 33 for supplying power to the driving member 42 is installed in the power supply groove 38, and a cover plate 381 is buckled at the position of the power supply groove 38 on the mounting table 3. Two conducting strips 312 are adhered to the wall of the mounting groove 31, and the positive and negative poles of the storage battery 33 are respectively contacted with the two conducting strips 312. One side of the abutting block 32 is provided with two conductive blocks 323, the two conductive blocks 323 are respectively communicated with the positive electrode and the negative electrode 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 path 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 and negative poles of the driving piece 42 are contacted with the positive and negative poles of the storage battery 33, the storage battery 33 can provide power for the driving piece 42, the driving piece 42 can be automatically started, the reflecting plate 41 can rotate, and the operation is more convenient and faster during measurement.

Referring to fig. 5, in order to facilitate the operation during the measurement, the mounting table 3 is located at the position of the laser emitter 2 and has been provided with a movable groove 36, the laser emitter 2 covers the movable groove 36, the bottom of the laser emitter 2 is provided with a switch 21, the switch 21 is located in the movable groove 36, the groove wall of the movable groove 36 slides in the vertical direction and is provided with an ejector rod 37, 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 a convex block 511 with an arc shape.

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

In order to avoid ejector pin 37 to block in activity groove 36 behind top action switch 21, can't reset, lead to the unable ejector pin 37 that pushes away of lug 511, the opening and closing of unable control switch 21, the cover is equipped with second reset spring 371 on ejector pin 37, second reset spring 371 can be compressed or tensile when ejector pin 37 removes, leave ejector pin 37 back when lug 511, ejector pin 37 resets under the effect of second reset spring 371, can avoid ejector pin 37 to block the condition appearance in activity groove 36.

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 lug 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 start the laser emitter 2. 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 is in contact with the conductive sheet 312, so that the driving piece 42 is powered on and started, and the reflecting plate 41 rotates to reflect the light to other directions. After the measurement is finished, the push rod 51 leaves the abutting block 32, the abutting block 32 moves to the bottom of the installation groove 31 under the action of the first return spring 322, the reflection plate 41 moves into the installation groove 31, and the sealing plate 43 abuts against the buffer spring 35 to seal the installation groove 31. 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 turn off the laser emitter 2.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (9)

1. The utility model provides an intelligent engineering cost construction levelness detector, includes support frame (1) and laser emitter (2), its characterized in that: be equipped with mount table (3) on support frame (1), laser emitter (2) are located mount table (3), be equipped with leaded light subassembly (4) on mount table (3), leaded light subassembly (4) are including reflector panel (41) and driving piece (42) of one side reflection of light, driving piece (42) set up on mount table (3) along vertical direction, reflector panel (41) are vertical to be set up in the output of driving piece (42) and driving piece (42) make reflector panel (41) horizontal direction rotate, reflector panel (41) are located the laser irradiation route of laser emitter (2).

2. The intelligent engineering cost construction levelness detector of claim 1, characterized in that: the light guide module is characterized in that a mounting groove (31) is formed in the mounting table (3), the light guide module (4) is located in the mounting groove (31), a butt joint block (32) is vertically arranged in the mounting groove (31) in a sliding mode, the driving piece (42) is fixedly arranged on the butt joint block (32), a pushing assembly (5) is arranged in the mounting table (3), the pushing assembly (5) comprises a push rod (51) arranged in the mounting table (3) in a sliding mode along the horizontal direction and a pushing piece (52) used for pushing the push rod to move, the pushing piece (52) is arranged in the mounting table (3) in the horizontal direction, the output end of the pushing piece is connected with one end of the push rod (51), one end, far away from the pushing piece (52), of the push rod (51) abuts against the butt joint block (32), and the position, where the push rod (51) and the butt joint block (32) are connected, is obliquely arranged towards the light guide module (4).

3. The intelligent engineering cost construction levelness detector of claim 2, characterized in that: mounting table (3) are located and are equipped with spacing groove (311) along vertical direction on the both sides cell wall of mounting groove (31), the both sides of butt joint piece (32) are equipped with slider (321), slider (321) slide and set up in spacing groove (311).

4. The intelligent engineering cost construction levelness detector of claim 3, characterized in that: and a first return spring (322) is connected between each of the two sliding blocks (321) and the bottom of each of the two limiting grooves (311).

5. The intelligent engineering cost construction levelness detector of claim 2, characterized in that: one side that is located mounting groove (31) in mount table (3) is equipped with battery (33), mount table (3) are located and are equipped with conducting strip (312) on the cell wall of mounting groove (31), the positive negative pole and the conducting strip (312) contact of battery (33), one side of butt joint piece (32) is equipped with conducting block (323), the positive negative pole intercommunication of conducting block (323) and driving piece (42), conducting strip (312) are located the moving route of conducting block (323).

6. The intelligent engineering cost construction levelness detector of claim 2, characterized in that: the top of reflector panel (41) is provided with along the horizontal direction and is used for mounting groove (31) confined shrouding (43), shrouding (43) are contradicted on mount table (3).

7. The intelligent engineering cost construction levelness detector of claim 6, characterized in that: the position that mount table (3) are located mounting groove (31) is equipped with butt groove (34), the notch of mounting groove (31) is located the tank bottom of butt groove (34), shrouding (43) are contradicted in butt groove (34) and are flushed with mount table (3), the tank bottom that mount table (3) are located butt groove (34) encircles mounting groove (31) is equipped with many buffer spring (35) along vertical direction, shrouding (43) are contradicted on buffer spring (35).

8. The intelligent engineering cost construction levelness detector of claim 2, characterized in that: the utility model discloses a laser emitter, including mount table (3), switch (21), cell wall, ejector pin (37), push rod (51), mounting table (3) are located the position of laser emitter (2) and are 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 of movable groove (36) slides along vertical direction and is equipped with ejector pin (37), 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) that push rod (37) reciprocated.

9. The intelligent engineering cost construction levelness detector of claim 8, characterized in that: the cover is equipped with second reset spring (371) on ejector pin (37), the both ends of second reset spring (371) are connected with the cell wall of ejector pin (37) and activity groove (36) respectively.

Images