CN112082458A

CN112082458A - Building engineering construction monitor

Info

Publication number: CN112082458A
Application number: CN202011027865.9A
Authority: CN
Inventors: 杨桂英
Original assignee: 杨桂英
Current assignee: Zhongnan power project management consulting (Hubei) Co.,Ltd.
Priority date: 2020-09-26
Filing date: 2020-09-26
Publication date: 2020-12-15
Anticipated expiration: 2040-09-26
Also published as: CN112082458B

Abstract

The invention discloses a construction monitor for building engineering, which comprises a top frame, wherein a penetrating cavity is arranged in the top frame, symmetrical parallel rods are arranged in the end wall of the penetration containing cavity, a sliding platform plate is arranged on the outer surface of each parallel rod in a sliding manner, a moving device which enables the sliding platform plate to move back and forth is arranged between the sliding platform plate and the parallel rod, the sliding platform plate is selectively provided with a middle box body, a telescopic sliding device which changes the distance between the sliding platform plate and the middle box body is arranged between the middle box body and the sliding platform plate, be provided with in the middle box and be used for adorning the card with the gap and in order to realize measuring flexible measuring device, this equipment can be measured and can take notes corresponding dimensional change along the gap is continuous, and can not influence equipment and carry out stable removal in the measurement process.

Description

Building engineering construction monitor

Technical Field

The invention relates to the technical field of constructional engineering construction monitoring equipment, in particular to a constructional engineering construction monitor.

Background

The most common of the existing engineering detection equipment is the detection and measurement of the gap, the existing equipment can directly obtain the whole length and the distribution range of the gap by measuring at a plurality of positions for a plurality of times by personnel, this results in a large amount of time required for personnel to take adequate measurements of different positions of the gap, in the process, due to the defects of the design, the use of the device is inconvenient, the measurement result needs to be manually recorded by a person during measurement, the labor of the person is inconvenient, and since some numerical problems such as recording errors and the like also occur to personnel during the recording process, this results in that the personnel need to perform multiple measurements to accurately record the corresponding data, which would make the measurement process extremely inaccurate and unreliable.

Disclosure of Invention

The invention aims to solve the technical problem of providing a construction engineering construction monitor, which can solve the problems in the prior art.

The invention is realized by the following technical scheme: the invention discloses a construction monitoring instrument for building engineering, which comprises a top frame, wherein a penetrating cavity is arranged in the top frame, symmetrical parallel rods are arranged in the end walls of the penetrating cavity, a sliding platform plate is arranged on the outer surface of each parallel rod in a sliding manner, a moving device for enabling the sliding platform plate to move back and forth is arranged between the sliding platform plate and the parallel rods, the sliding platform plate is selectively provided with a middle box body, a telescopic sliding device for changing the distance between the sliding platform plate and the middle box body is arranged between the middle box body and the sliding platform plate, and a telescopic measuring device for clamping a gap to realize measurement is arranged in the middle box body.

Further technical scheme, mobile device including set up in the platform board that slides pierces through the cooperation inner chamber, pierce through cooperation inner chamber symmetry and set up, it is provided with rotating power machine to pierce through cooperation inner chamber top, rotating power machine downside power is connected and is provided with cooperation rolling gear, parallel bar one side is provided with open-ended tooth's socket, the tooth's socket with cooperation rolling gear passes through the gear and rack mode meshing.

Further technical scheme, flexible displacement means include with displacement platform board fixed fit is connected. The middle box body is internally provided with an internal sliding groove, a lifting sliding plate is arranged in the internal sliding groove in a sliding mode, a bottom connecting rod is arranged on the lower side of the lifting sliding plate and is fixedly matched and connected with the middle box body, and a lifting driving assembly enabling the lifting sliding plate to slide in a telescopic mode is arranged in the internal sliding groove.

Further technical scheme, the lift drive assembly including set up in the motor is connected to the power of inside spout top and symmetry, power is connected motor one side power and is connected and be provided with the output lifter, the output lifter with lift sliding plate screw-thread fit connects.

According to the technical scheme, the telescopic measuring device comprises an inner sliding cavity arranged in the middle box body, a symmetrical scale plate is arranged in the inner sliding cavity, a supporting plate is arranged on one side of the scale plate and connected with the inner sliding cavity in a sliding fit mode, the scale plate penetrates through the middle box body in a sliding mode, reading assemblies used for reading readings on the scale plate are arranged on two sides of the middle box body, and a telescopic measuring assembly used for driving the scale plate to be abutted against a gap is arranged between the middle box body and the abutting plate.

According to a further technical scheme, the reading assembly comprises a side shell fixedly matched and connected with the middle box body, a recording camera is arranged in the side shell, the scale plate penetrates through the side shell, and the recording camera and the scale plate are arranged oppositely.

Further technical scheme, flexible measuring subassembly including set up in the inside chamber of sliding in the intermediate box, the gliding slide plate that is provided with the symmetry of inside intracavity that slides, slide plate one side is provided with the promotion connecting rod, promote the gliding running through of connecting rod inside chamber and stretching out of sliding intermediate box, slide plate with elasticity is provided with buffer spring between the inside chamber end wall that slides, promotion connecting rod one side is provided with the fixed box of side, the fixed box internal rotation of side is provided with the driving wheel soon, revolve the driving wheel with be provided with between the scale plate revolve the driving wheel and rotate the in-process and do not influence the scale plate carries out the rolling slot structure that stretches out and draws back.

According to the technical scheme, the rolling groove structure comprises a clamping groove formed in an inner cutting opening of the rotating wheel, a clamping round block is arranged in the clamping groove in a clamping mode, a vertical rod is arranged on the top side of the clamping round block and is connected with the clamping round block in a rotating fit mode, and the vertical rod is connected with the scale plate in a fixed fit mode.

The invention has the beneficial effects that:

the device has simple structure, can continuously measure along the gap and record corresponding size change, and does not influence the stable movement of the device in the measuring process.

When the equipment works, the top frame is erected on the upper side of the gap to be measured, the rotating wheel extends into the gap and is fully abutted against the two sides of the gap by utilizing the rotating wheel, in the process, the power connection motor can be used for driving the output lifting rod to rotate after working, so that the output lifting rod drives the lifting sliding plate to move downwards along the inner sliding groove, the lifting sliding plate drives the bottom connecting rod and the middle box body to move downwards, the rotating wheel rolls downwards along the gap, and the equipment can measure the gap distance value of a lower layer, in the measuring process, the rotating power motor drives the matching rotating gear to rotate after working, the matched rotating gear rolls on one side of the tooth groove, so that the sliding platform plate slides on the outer surface of the parallel rod, and the structure for measuring the gap is indirectly moved back and forth to realize a continuous measuring function.

When the rotatory driving wheel offsets with the both sides gap, buffer spring plays a role and makes the sliding plate move promote connecting rod and the fixed box of side and slide the intracavity and slide inside, make the rotatory driving wheel offsets with the gap both sides, and scale plate and support plate are in inside slides and holds intracavity slip and stretch out and draw back, just the rolling in-process of rotatory driving wheel can not because the flexible stop roll of scale plate, this is because the dress card circle piece with the effect that the dress card groove dress card set up and realize.

When the scale plate is subjected to data reading, the record camera continuously measures and records the data of the scale plate when the record camera works due to the fact that the scale plate moves, and follow-up personnel can collect and arrange the data in a unified mode.

Drawings

For ease of illustration, the invention is described in detail by the following specific examples and figures.

FIG. 1 is a schematic view of the internal structure of a monitor for construction engineering according to the present invention;

FIG. 2 is a schematic view of the direction A in FIG. 1;

FIG. 3 is a schematic view at B of FIG. 1;

FIG. 4 is a schematic view at C of FIG. 1;

FIG. 5 is a schematic view at D of FIG. 1;

FIG. 6 is a schematic view of the detection of the apparatus of FIG. 1;

in the figure, a sliding plate 11, a buffer spring 12, an internal sliding cavity 13, a pushing connecting rod 14, a side fixing box body 15, a rotating wheel 16, a clamping groove 17, a vertical rod 18, a middle box body 19, a top frame 21, a power connecting motor 22, a lifting sliding plate 23, a sliding platform plate 24, a bottom connecting rod 25, an output lifting rod 26, an internal sliding groove 27, an abutting plate 28, a scale plate 29, an internal sliding cavity 31, a penetrating cavity 32, a middle box body 33, a parallel rod 41, a tooth socket 42, a matching rotating gear 43, a penetrating matching inner cavity 44, a rotating power motor 45, a side shell 51, a recording camera 52 and a clamping round block 53.

Detailed Description

As shown in fig. 1 to 6, the present invention is explained in detail, and for convenience of description, the following orientations are defined as follows: hereinafter, the up-down, left-right, and front-back directions are the same as the up-down, left-right, and front-back directions of the projection relation of fig. 1 itself, and the monitor for construction work of the present invention includes a top frame 21, a penetrating through cavity 32 is arranged in the top frame 21, symmetrical parallel rods 41 are arranged in the end wall of the penetrating cavity 32, a sliding platform plate 24 is arranged on the outer surface of the parallel rod 41 in a sliding manner, a moving device for enabling the sliding platform plate 24 to move back and forth is arranged between the sliding platform plate 24 and the parallel rod 41, the sliding platform plate 24 is selectively provided with a middle box body 19, a telescopic sliding device which can change the distance between the sliding platform plate 24 and the middle box body 19 is arranged between the middle box body 19 and the sliding platform plate 24, and a telescopic measuring device used for clamping the gap to realize measurement is arranged in the middle box body 19.

Advantageously, the moving device comprises a through fit inner cavity 44 arranged in the sliding platform plate 24, the through fit inner cavity 44 is symmetrically arranged, a rotating power motor 45 is arranged on the top of the through fit inner cavity 44, a fit rotating gear 43 is arranged on the lower side of the rotating power motor 45 in a power connection mode, an open tooth socket 42 is arranged on one side of the parallel rod 41, and the tooth socket 42 is meshed with the fit rotating gear 43 in a gear-and-rack mode.

Advantageously, the telescopic sliding device comprises a fixed fit connection with the sliding platform plate 24. Middle box 33, be provided with inside spout 27 in the middle box 33, the gliding lift slide 23 that is provided with in inside spout 27, lift slide 23 downside is provided with bottom connecting rod 25, bottom connecting rod 25 with middle box 19 fixed fit is connected, be provided with in the inside spout 27 and make lift slide 23 carries out the lift drive assembly that the flexible slided.

Advantageously, the lifting driving assembly comprises a power connection motor 22 symmetrically arranged on the top of the internal chute 27, an output lifting rod 26 is arranged on one side of the power connection motor 22 in a power connection mode, and the output lifting rod 26 is in threaded fit connection with the lifting sliding plate 23.

Beneficially, wherein, flexible measuring device including set up in the inside in the middle box 19 is slided and is held chamber 31, inside slides and holds the gliding scale 29 that is provided with of chamber 31, scale 29 one side is provided with and supports board 28 mutually, support board 28 with inside slides and holds chamber 31 sliding fit and is connected, the gliding running through of scale 29 middle box 19, middle box 19 both sides are provided with and are used for reading the reading subassembly of reading on the scale 29, be provided with between middle box 19 and the board 28 and be used for driving scale 29 and gap carry out the flexible measuring subassembly that offsets the measurement.

Advantageously, the reading assembly comprises a side housing 51 fixedly and fittingly connected with the middle box 19, a recording camera 52 is arranged in the side housing 51, the scale plate 29 penetrates through the side housing 51, and the recording camera 52 is arranged opposite to the scale plate 29.

Beneficially, wherein, flexible measuring subassembly including set up in the inside chamber 13 that slides in the middle box 19, the gliding slide plate 11 that is provided with the symmetry that slides in inside chamber 13 that slides, slide plate 11 one side is provided with and promotes connecting rod 14, what promote connecting rod 14 is gliding runs through inside chamber 13 that slides and stretches out middle box 19, slide plate 11 with elasticity is provided with buffer spring 12 between the inside chamber 13 end wall that slides, it is provided with side fixed box 15 to promote connecting rod 14 one side, the internal rotation of side fixed box 15 is provided with rotatory wheel 16, rotatory wheel 16 with be provided with between the scale plate 29 rotatory wheel 16 rotates the in-process and does not influence the roll groove structure that scale plate 29 carries out the flexible.

Beneficially, the rolling slot structure comprises a clamping slot 17 arranged in the rotary wheel 16 and internally cut into an opening, a clamping round block 53 is arranged in the clamping slot 17, a vertical rod 18 is arranged on the top side of the clamping round block 53, the vertical rod 18 is connected with the clamping round block 53 in a rotating fit mode, and the vertical rod 18 is connected with the scale plate 29 in a fixed fit mode.

In the initial state, the device, the components and the structure are in the working stop state, the equipment can continuously measure along the gap and record corresponding dimension change, and the equipment is not influenced to stably move in the measuring process.

When equipment carries out the during operation, will top frame 21 erects the upside in the gap that awaits measuring, makes rotatory driving wheel 16 stretch into in the gap and utilize rotatory driving wheel 16 carries out abundant counterbalance with the gap both sides, can utilize at this in-process power connection motor 22 work back drive output lifter 26 rotates, makes output lifter 26 drives lift shifting board 23 along inside spout 27 downstream makes lift shifting board 23 drive bottom connecting rod 25 and middle box 19 downstream make rotatory driving wheel 16 rolls down along the gap, makes equipment can measure the gap interval numerical value of lower floor, in the measurement process rotation power motor 45 work back drive cooperation rotating gear 43 rotates, cooperation rotating gear 43 is in tooth's socket 42 one side rolls, makes sliding platform board 24 is in the surface of parallel bar 41 slides, the structure for measuring the gap is indirectly moved back and forth to realize a continuous measuring function.

When the rotating wheel 16 abuts against the gaps on the two sides, the buffer spring 12 plays a role in enabling the sliding plate 11 to drive the pushing connecting rod 14 and the side fixing box body 15 to slide in the internal sliding cavity 13, so that the rotating wheel 16 abuts against the two sides of the gaps, the scale plate 29 and the abutting plate 28 slide and stretch in the internal sliding cavity 31, and the rotating wheel 16 does not stop rolling due to stretching of the scale plate 29 in the rolling process, which is the effect achieved due to the clamping of the clamping round block 53 and the clamping groove 17.

When the scale plate 29 is subjected to data reading, as the scale plate 29 moves, the recording camera 52 continuously measures and records data of the scale plate 29 during working, and subsequent personnel can perform uniform collection and arrangement.

The above description is only an embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that are not thought of through the inventive work should be included in the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope defined by the claims.

Claims

1. The utility model provides a building engineering construction monitor, includes the top frame, be provided with the penetrating chamber that runs through in the frame of top, penetrate and hold the parallel bar that the intracavity end wall was provided with the symmetry, the gliding platform board that slides that is provided with of parallel bar surface, the platform board that slides with be provided with the messenger between the parallel bar the platform board that slides carries out the mobile device of back-and-forth movement, the platform board that slides elects to be provided with middle box, middle box with be provided with the messenger between the platform board that slides the flexible sliding device of interval change between platform board and the middle box, be provided with in the middle box and be used for adorning the card in order to realize measuring flexible measuring device with the gap.

2. The construction monitor of claim 1, wherein: the mobile device including set up in the platform board that slides pierces through the cooperation inner chamber, pierce through cooperation inner chamber symmetry and set up, it is provided with rotating power machine to pierce through cooperation inner chamber top, rotating power machine downside power is connected and is provided with cooperation rolling gear, parallel bar one side is provided with open-ended tooth's socket, the tooth's socket with cooperation rolling gear passes through the gear and rack mode meshing.

3. The construction monitor of claim 1, wherein: the telescopic sliding device comprises a sliding platform plate which is fixedly matched and connected with the sliding platform plate.

4. The middle box body is internally provided with an internal sliding groove, a lifting sliding plate is arranged in the internal sliding groove in a sliding mode, a bottom connecting rod is arranged on the lower side of the lifting sliding plate and is fixedly matched and connected with the middle box body, and a lifting driving assembly enabling the lifting sliding plate to slide in a telescopic mode is arranged in the internal sliding groove.

5. The construction monitor of claim 3, wherein: the lifting driving assembly comprises a power connection motor arranged at the top of the internal sliding groove and symmetrical to the top of the internal sliding groove, an output lifting rod is arranged on one side of the power connection motor in a power connection mode, and the output lifting rod is in threaded fit connection with the lifting sliding plate.

6. The construction monitor of claim 1, wherein: the telescopic measuring device comprises an inner sliding cavity arranged in the middle box body, a symmetrical scale plate is arranged in the inner sliding cavity, a supporting plate is arranged on one side of the scale plate and connected with the inner sliding cavity in a sliding fit mode, the scale plate penetrates through the middle box body in a sliding mode, reading assemblies used for reading readings on the scale plate are arranged on two sides of the middle box body, and a telescopic measuring assembly used for driving the scale plate to be abutted to a gap is arranged between the middle box body and the abutting plate.

7. The construction monitor of claim 5, wherein: the reading assembly comprises a side shell fixedly matched and connected with the middle box body, a recording camera is arranged in the side shell, the scale plate penetrates through the side shell, and the recording camera and the scale plate are arranged oppositely.

8. The construction monitor of claim 5, wherein: flexible measuring subassembly including set up in the inside chamber of sliding in the intermediate box, the gliding slide plate that is provided with the symmetry of inside intracavity that slides, slide plate one side is provided with the promotion connecting rod, promote the gliding running through of connecting rod inside chamber and stretch out of sliding the intermediate box, slide plate with elasticity is provided with buffer spring between the inside chamber end wall that slides, it is provided with the fixed box of side to promote connecting rod one side, the fixed box internal rotation of side is provided with the driving wheel soon, revolve the driving wheel with be provided with between the scale plate it does not influence to revolve the driving wheel rotation in-process the scale plate carries out the rolling groove structure that stretches out and draws back.

9. The construction monitor of claim 7, wherein: the rolling groove structure comprises a clamping groove arranged in the inner cutting opening of the rotating wheel, a clamping round block is arranged in the clamping groove, a vertical rod is arranged on the top side of the clamping round block, the vertical rod is connected with the clamping round block in a rotating matching mode, and the vertical rod is connected with the scale plate in a fixed matching mode.