CN113808488B

CN113808488B - Progress analysis device and method for project management through BIM model

Info

Publication number: CN113808488B
Application number: CN202111105756.9A
Authority: CN
Inventors: 李佳颐
Original assignee: Shanghai New Construction Engineering Consulting Co ltd
Current assignee: Shanghai New Construction Engineering Consulting Co ltd
Priority date: 2021-09-22
Filing date: 2021-09-22
Publication date: 2023-05-16
Anticipated expiration: 2041-09-22
Also published as: CN113808488A

Abstract

The invention discloses a progress analysis device and a progress analysis method for project management through a BIM model, wherein the progress analysis device comprises the following steps: the functional mechanism, the functional component is provided with two altogether, and every functional mechanism all includes rotatory frame, supporting part and fixed part, and the mounting groove has been seted up near a corner at top to rotatory frame rear surface, and supporting part and fixed part all set up on rotatory frame. According to the invention, the first connecting groove and the second connecting groove are communicated by the rotary coil, one rotary frame can be effectively and firmly connected with the limiting rod through the clamping strip at the top of the connecting block, meanwhile, the other rotary frame is firmly connected with the coil through the connecting block, the clamping strip and the first connecting groove, the two rotary frames can be mutually stacked through the rotary frames, the positioning cap is screwed to fix the position of the coil, and further, the two transparent display screen bodies can display the bitmaps of the same part in an overlapping manner, so that a user can conveniently compare and analyze the content of the building model graph.

Description

Progress analysis device and method for project management through BIM model

Technical Field

The invention belongs to the technical field of progress analysis devices, and particularly relates to a progress analysis device and a progress analysis method for project management through a BIM model.

Background

BIM technology is proposed by Autodesk company in 2002, has been widely accepted in industry in the world, and can help to integrate building information, from design, construction and operation of building to the end of the whole life cycle of building, various information is always integrated in a three-dimensional model information database, and personnel of design team, construction unit, facility operation department and owner can work cooperatively based on BIM, thus effectively improving working efficiency, saving resources, reducing cost and realizing sustainable development.

However, in the prior art, the building model diagram is improved continuously, so that the engineering progress is analyzed and judged, the follow-up building model diagram cannot be displayed and compared in the original diagram at the same time, the actual comparison observation effect is poor, the progress analysis is affected, the actual use effect of the BIM is poor, and the actual analysis efficiency is affected.

Disclosure of Invention

The invention aims at: the rotatory coil makes first spread groove and second spread groove intercommunication, and then can effectively carry out firm connection with one of them rotatory frame in the gag lever post through the draw-in bar at connecting block top, simultaneously pass through the connecting block with another rotatory frame, draw-in bar and first spread groove are in coil firm connection, and then through rotatory frame, can make two rotatory frames pile up each other, the fixed coil position of location cap of screwing again, and then make two transparent display screen bodies can overlap the same bitmap of BIM and show, and then the user carries out the comparison analysis of building model diagram content, or when first spread groove is in the inside intercommunication of third spread groove, portable rotatory frame makes the draw-in bar can effectively move into inside the third spread groove, and then rotatory coil, make first spread groove unable and second spread groove and third spread groove intercommunication, and then the fixed coil position of location cap, and then make two select the frame to place side by side, adjust two transparent display screen bodies and place the position, and then make two transparent display screen bodies show that the content can splice, and then effectively improve use actual analysis treatment efficiency, and then effective use effect.

The technical scheme adopted by the invention is as follows: a progress analysis apparatus for project management by a BIM model, comprising: the device comprises a rotary frame, a supporting part and a fixing part, wherein the rear surface of the rotary frame is provided with a mounting groove near one corner of the top, the supporting part and the fixing part are arranged on the rotary frame, and the outer surface of one side of the rotary frame is provided with a placing opening;

the rotating mechanism comprises a limiting frame, two groups of connecting parts and limiting parts, wherein the limiting frame is fixedly connected inside one of the mounting grooves, a limiting groove is formed in the front surface of the limiting frame, which is close to the center of the top edge, a limiting rod is fixedly connected to the center of the rear inner wall of the limiting frame, the two groups of connecting parts are respectively arranged on the corresponding rotating frame, and the limiting parts are arranged on the limiting rod; and

the transparent display screen comprises transparent display screen bodies, wherein two transparent display screen bodies are arranged in total, and the two transparent display screen bodies are respectively arranged in the corresponding rotating frames.

Each group of supporting parts comprises two fixed limiting blocks, the two fixed limiting blocks are respectively and fixedly connected to opposite corners on two sides of the rear inner wall of the rotary frame, and threaded holes are formed in the center of the front surface of each fixed limiting block.

Wherein, every equal threaded connection in screw hole has fixing bolt, every the equal slip cap of fixing bolt surface is equipped with spacing, every the equal fixedly connected with in table wall center department supports the piece in spacing one side.

Each group of fixing parts comprises a supporting bar and a jacking block, the supporting bars are fixedly connected to one side edge of the bottom of the rotary frame, a supporting frame is fixedly connected to one side edge of the bottom of each supporting bar, a supporting bolt is connected to the center of the bottom of each supporting frame in a threaded mode, and the jacking blocks penetrate through the bottom of the rotary frame in a sliding mode.

Wherein, every the support bolt top all extends to corresponding support bar top, and every support bolt top all rotates and is connected with the top sheet, every top sheet top and the equal fixed connection of corresponding kicking block bottom.

The clamping grooves are formed in the centers of the tops of the jacking blocks, the sliding grooves are formed in the centers of the front surfaces of the jacking blocks, adjusting threaded bolts are connected in a rotating mode to the centers of the rear inner walls of the sliding grooves, and clamping plates are connected to the outer surfaces of the adjusting threaded bolts in the corresponding sliding grooves in a threaded mode.

Each group of connecting components comprises connecting blocks, two connecting blocks are respectively and fixedly connected to one corner of the top of the corresponding rotating frame, and clamping strips are fixedly connected to the center of the outer surface of one side of each connecting block.

The limiting component comprises a coil and a positioning cap, the coil is sleeved on the limiting rod in a sliding mode, a positioning strip is fixedly connected to the top of the coil near the center of the rear side edge, one end of the positioning strip extends into the limiting groove, and the positioning cap is connected to the front end of the limiting rod in a threaded mode.

The bottom of the coil is provided with a first connecting groove, and two sides of the center of the bottom of the limiting rod are respectively provided with a second connecting groove and a third connecting groove.

A method of using a progress analysis device managed by a BIM model engineering project, comprising the steps of:

s1, overlapping use: the rotary coil is used for enabling the first connecting groove to be communicated with the second connecting groove, one rotary frame is firmly connected with the limiting rod through the clamping strip at the top of the connecting block, meanwhile, the other rotary frame is firmly connected with the coil through the connecting block, the clamping strip and the first connecting groove, the two rotary frames can be mutually stacked through the rotary frames, the positioning cap is screwed to fix the position of the coil, and further, the two transparent display screen bodies can display bitmaps of the same part of the BIM in an overlapping mode;

s2, parallel use: when first spread groove is in the inside intercommunication of third spread groove, but movable rotating frame makes the card strip move into inside the third spread groove, and then rotatory coil, makes first spread groove unable and second spread groove and third spread groove intercommunication, and then screws the fixed coil position of location cap, and then makes two select the frame to place side by side, adjusts two transparent display screen body placement positions simultaneously, and then makes two transparent display screen body demonstration contents can splice the show.

In summary, due to the adoption of the technical scheme, the beneficial effects of the invention are as follows:

(1) According to the invention, the first connecting groove and the second connecting groove are communicated by the rotary coil, one rotary frame can be effectively and firmly connected with the limiting rod through the clamping strip at the top of the connecting block, meanwhile, the other rotary frame is firmly connected with the coil through the connecting block, the clamping strip and the first connecting groove, the two rotary frames can be mutually stacked through the rotary frames, the positioning cap is screwed to fix the position of the coil, and further, the two transparent display screen bodies can display the bitmaps of the same part in an overlapping manner, so that a user can conveniently compare and analyze the content of the building model graph.

(2) According to the invention, when the first connecting groove is communicated with the inside of the third connecting groove, the movable rotary frame enables the clamping strip to effectively move into the inside of the third connecting groove, so that the rotary pipe is rotated, the first connecting groove cannot be communicated with the second connecting groove and the third connecting groove, the positioning cap is screwed to fix the position of the rotary pipe, the two selecting frames are placed side by side, and meanwhile, the placing positions of the two transparent display screen bodies are adjusted, so that the display contents of the two transparent display screen bodies can be spliced and displayed, the practical analysis and treatment efficiency is effectively improved, and the practical use effect of equipment is effectively improved.

(3) According to the invention, the rotation adjusting threaded bolt can enable the clamping plate to be matched with the jacking block to clamp the transparent display screen body, and further the position between the two transparent display screen bodies can be effectively adjusted through the rotation supporting bolt, so that a user can conveniently install, detach and adjust the position of the transparent display screen according to actual use conditions, and further the device can realize due functions efficiently.

Drawings

FIG. 1 is a front perspective view of the present invention;

FIG. 2 is a rear perspective view of the present invention;

FIG. 3 is an expanded front perspective view of the present invention;

FIG. 4 is an adjusted front perspective view of the present invention;

FIG. 5 is an adjusted front expanded perspective view of the present invention;

FIG. 6 is an expanded perspective view in elevation and in section of the rotary mechanism of the present invention;

FIG. 7 is a bottom perspective view of the stop bolt of the present invention;

fig. 8 is an expanded perspective view in elevation and in section of the functional mechanism of the present invention.

The marks in the figure: 1. a rotation mechanism; 101. a limit frame; 102. a limit groove; 103. a limit rod; 104. a connecting block; 105. clamping strips; 106. a coil; 107. a positioning strip; 108. positioning caps; 109. a second connecting groove; 110. a third connecting groove; 2. a functional mechanism; 201. a rotating frame; 202. fixing a limiting block; 203. a fixing bolt; 204. a limit bar; 205. abutting the sheet; 206. a top block; 207. a clamping groove; 208. adjusting the threaded bolt; 209. a clamping plate; 210. a support bar; 211. a support frame; 212. a support bolt; 213. a top sheet; 3. a transparent display screen body.

Description of the embodiments

The present invention will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

Embodiment one, referring to fig. 1-8: a progress analysis apparatus for project management by a BIM model, comprising: functional mechanism 2, functional unit is provided with two altogether, every functional unit 2 all includes rotatory frame 201, supporting part and fixed part, the installation basis that sets up of rotatory frame 201 provides other functional unit settings of equipment, simultaneously can effectively carry out the installation of transparent display screen body 3 and place, the mounting groove has been seted up to a corner that is close to the top in rotatory frame 201 rear surface, the setting up of mounting groove conveniently carries out the installation setting of spacing frame 101, supporting part and fixed part all set up on rotatory frame 201, place the mouth on rotatory frame 201 one side surface, the setting up of placing the mouth conveniently carries out the installation dismantlement of transparent display screen body 3, rotatory mechanism 1 includes spacing frame 101, two sets of connecting parts and spacing part, the setting up of spacing frame 101 conveniently carries out the installation setting up of other functional unit of equipment, spacing frame 101 is inside one of them mounting groove through fixed connection, spacing frame 101 front surface is close to top edge center department has seted up spacing groove 102, the setting up of spacing groove 102 can effectively restrict the range of movement of location strip 107, the inner wall center department fixed connection gag lever 103 behind spacing lever 103 sets up conveniently carries out the setting up equipment setting up on rotatory frame 201 and is corresponding to two sets up on two transparent display screen bodies respectively, two sets up transparent display screen body 3, two sets up corresponding transparent display screen body, two transparent display screen 3 and transparent display screen body are arranged in the transparent display screen body is realized.

Referring to fig. 3-8: each group of supporting parts comprises two fixed limiting blocks 202, the fixed limiting blocks 202 can effectively support and limit the transparent display screen body 3, the two fixed limiting blocks 202 are respectively and fixedly connected to opposite corners on two sides of the rear inner wall of the rotating frame 201, the center of the front surface of each fixed limiting block 202 is provided with a threaded hole, the threaded holes are conveniently provided with fixing bolts 203, the inside of each threaded hole is in threaded connection with the fixing bolts 203, the fixing bolts 203 are conveniently provided with limiting strips 204, the outer surface of each fixing bolt 203 is slidably sleeved with the limiting strips 204, the limiting strips 204 can conveniently carry out rotary splicing of the two rotating frames 201, so that the two transparent display screen bodies 3 can be fully spliced and displayed, and meanwhile, the safety protection of the transparent display screen body 3 can be effectively carried out, the center of the inner surface wall at one side of each limit bar 204 is fixedly connected with a supporting sheet 205, the supporting sheet 205 can be used for effectively limiting the position of the transparent display screen body 3, each group of fixed components comprises a supporting bar 210 and a top block 206, the supporting bar 210 is conveniently used for installing other functional components of the equipment, the top block 206 can be used for effectively limiting the support of the transparent display screen body 3, the supporting bar 210 is fixedly connected with the edge of one side of the bottom of the rotating frame 201, the bottom of the supporting bar 210 is fixedly connected with a supporting frame 211 near the edge of one side, the supporting frame 211 is conveniently used for installing a supporting bolt 212, the center of the bottom of the supporting frame 211 is in threaded connection with the supporting bolt 212, the supporting bolt 212 is used for effectively limiting the use position of the top block 206, the top block 206 slides through the bottom of the rotating frame 201, the top end of each supporting bolt 212 extends to the position above the corresponding supporting bar 210, and the top end of each supporting bolt 212 is rotationally connected with a top piece 213, the top of each top piece 213 is fixedly connected with the bottom of the corresponding top block 206, a clamping groove 207 is formed in the center of the top of each top block 206, the fixing restriction of the moving direction of the transparent display screen body 3 is effectively carried out by setting up the clamping groove 207, a sliding groove is formed in the center of the front surface of each top block 206, the installation setting of the clamping plate 209 is convenient by setting up the sliding groove, an adjusting threaded bolt 208 is rotationally connected at the center of the rear inner wall of each sliding groove, the position of the clamping plate 209 can be effectively adjusted by setting up the adjusting threaded bolt 208, the outer surface of each adjusting threaded bolt 208 is positioned in the corresponding sliding groove, the clamping plate 209 is in threaded connection with the clamping plate 209, the fixing clamping of the position of the transparent display screen body 3 can be effectively carried out by setting up the matched top block 206, each group of connecting parts comprises a connecting block 104, the setting up of the connecting blocks 104 is matched with the clamping strips 105 to ensure that the rotating frame 201 and the rotating mechanism 1 can be firmly connected, the two connecting blocks 104 are respectively and fixedly connected to one corner of the top of the corresponding rotating frame 201, the clamping strips 105 are fixedly connected to the center of the outer surface of one side of each connecting block 104, the limiting component comprises a coil 106 and a positioning cap 108, the setting up of the positioning cap 108 can effectively limit the position of the coil 106, the coil 106 is slidably sleeved on the limiting rod 103, the position of the top of the coil 106 close to the center of the rear side edge is fixedly connected with the positioning strips 107, the setting up of the positioning strips 107 can effectively limit the rotating angle of the coil 106, one end of each positioning strip 107 extends into the limiting groove 102, the positioning cap 108 is in threaded connection with the front end of the limiting rod 103, a first connecting groove is formed in the bottom of the coil 106, the setting up of the first connecting groove is matched with the second connecting groove 109 and the third connecting groove 110 to effectively regulate the movement of the position of the rotating frame 201, the two sides of the bottom center of the limiting rod 103 are respectively provided with a second connecting groove 109 and a third connecting groove 110.

A method of using a progress analysis device managed by a BIM model engineering project, comprising the steps of: step one, overlapping use: the rotatory coil 106 makes first spread groove and second spread groove 109 intercommunication, and then can effectively carry out firm connection with one of them rotatory frame 201 in gag lever post 103 through the draw-in bar 105 at connecting block 104 top, simultaneously with another rotatory frame 201 through connecting block 104, draw-in bar 105 and first spread groove in coil 106 firm connection, and then through rotatory frame 201, can make two rotatory frames 201 pile up each other, screw the fixed coil 106 position of location cap 108 again, and then make two transparent display screen body 3 can overlap the same position map of BIM and show, and then the person of facilitating the use carries out the comparison analysis of building model picture content, step two, use side by side: when first spread groove is in the inside intercommunication of third spread groove 110, portable rotatory frame 201 makes card strip 105 can effectively move into inside third spread groove 110, and then rotatory coil 106, make first spread groove unable and second spread groove 109 and third spread groove 110 intercommunication, and then screw the fixed coil 106 position of location cap 108, and then make two selection frames place side by side, adjust two transparent display screen body 3 simultaneously and place the position, and then make two transparent display screen body 3 show that the content can splice, and then effectively improve and use actual analysis processing efficiency, and then effectively improve equipment in-service use effect.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the invention.

Claims

1. A progress analysis device for project management by a BIM model, comprising: the multifunctional portable electronic device comprises two functional mechanisms (2), wherein the two functional mechanisms (2) are arranged, each functional mechanism (2) comprises a rotary frame (201), a supporting part and a fixing part, an installation groove is formed in the rear surface of the rotary frame (201) close to one corner of the top, the supporting part and the fixing part are arranged on the rotary frame (201), and a placement opening is formed in the outer surface of one side of the rotary frame (201);

the rotating mechanism (1), the rotating mechanism (1) comprises a limiting frame (101), two groups of connecting components and limiting components, the limiting frame (101) is fixedly connected inside one of the mounting grooves, a limiting groove (102) is formed in the front surface of the limiting frame (101) near the center of the top edge, a limiting rod (103) is fixedly connected to the center of the rear inner wall of the limiting frame (101), the two groups of connecting components are respectively arranged on the corresponding rotating frame (201), and the limiting components are arranged on the limiting rod (103); the transparent display screen bodies (3) are arranged in two, and the two transparent display screen bodies (3) are respectively arranged in the corresponding rotating frames (201);

each group of connecting components comprises connecting blocks (104), two connecting blocks (104) are respectively and fixedly connected to one corner of the top of the corresponding rotating frame (201), and clamping strips (105) are fixedly connected to the center of the outer surface of one side of each connecting block (104);

the limiting component comprises a coil (106) and a positioning cap (108), the coil (106) is sleeved on the limiting rod (103) in a sliding mode, a positioning strip (107) is fixedly connected to the center of the top of the coil (106) close to the rear side edge, one end of the positioning strip (107) extends into the limiting groove (102), and the positioning cap (108) is connected to the front end of the limiting rod (103) in a threaded mode;

the bottom of the coil (106) is provided with a first connecting groove, and two sides of the center of the bottom of the limiting rod (103) are respectively provided with a second connecting groove (109) and a third connecting groove (110).

2. A schedule analysis apparatus for project management by BIM model according to claim 1, wherein: each group of supporting parts comprises two fixed limiting blocks (202), the two fixed limiting blocks (202) are respectively and fixedly connected to opposite corners on two sides of the rear inner wall of the rotary frame (201), and threaded holes are formed in the center of the front surface of each fixed limiting block (202).

3. A schedule analysis apparatus for project management by BIM model according to claim 2, wherein: every equal threaded connection in screw hole has fixing bolt (203), every fixing bolt (203) surface all slip cap is equipped with spacing (204), every spacing (204) one side interior surface wall center department all fixedly connected with supports piece (205).

4. A schedule analysis apparatus for project management by a BIM model according to claim 3, wherein: each group of fixing components comprises a supporting bar (210) and a top block (206), the supporting bar (210) is fixedly connected to one side edge of the bottom of the rotary frame (201), a supporting frame (211) is fixedly connected to the bottom of the supporting bar (210) close to one side edge, a supporting bolt (212) is connected to the center of the bottom of the supporting frame (211) in a threaded mode, and the top block (206) penetrates through the bottom of the rotary frame (201) in a sliding mode.

5. A schedule analysis apparatus for project management by a BIM model according to claim 4, wherein: each supporting bolt (212) top all extends to corresponding support bar (210) top, and every supporting bolt (212) top all rotates and is connected with top piece (213), every top piece (213) top and corresponding kicking block (206) bottom all fixed connection.

6. A schedule analysis apparatus for project management by a BIM model according to claim 5, wherein: clamping grooves (207) are formed in the center of the top of each top block (206), sliding grooves are formed in the center of the front surface of each top block (206), adjusting threaded bolts (208) are rotationally connected to the center of the rear inner wall of each sliding groove, and clamping plates (209) are threaded on the outer surfaces of the adjusting threaded bolts (208) and located in the corresponding sliding grooves.

7. A method of using a schedule analysis apparatus for project management by a BIM model, which is applied to the schedule analysis apparatus for project management by a BIM model according to any one of claims 1 to 6, comprising the steps of:

s1, overlapping use: the rotary coil (106) enables the first connecting groove and the second connecting groove (109) to be communicated, one rotary frame (201) is firmly connected with the limiting rod (103) through the clamping strip (105) at the top of the connecting block (104), the other rotary frame (201) is firmly connected with the coil (106) through the connecting block (104), the clamping strip (105) and the first connecting groove, and then the two rotary frames (201) can be mutually stacked through the rotary frame (201), the positioning cap (108) is screwed to fix the position of the coil (106), and further the two transparent display screen bodies (3) can display the same position of the BIM in an overlapping mode;

s2, parallel use: when first spread groove is in inside intercommunication of third spread groove (110), portable rotatory frame (201) makes card strip (105) move into inside third spread groove (110), and then rotatory coil (106), make first spread groove unable and second spread groove (109) and third spread groove (110) intercommunication, and then screw fixed coil (106) position of location cap (108), and then make two rotatory frames (201) place side by side, adjust two transparent display screen body (3) placement positions simultaneously, and then make two transparent display screen body (3) show that the content can splice and show.