CN117119112A - Construction cost consultation management method - Google Patents

Abstract

The invention relates to the technical field of engineering cost, in particular to an engineering cost consultation management method, which comprises the following steps: step one: determining a project range, and determining a project cost consultation box management level according to the basic condition, the product and the basic work of the project and the project period; step two: determining a decomposition structure of a project, after project establishment, establishing an internal information platform, improving the knowledge of staff on the project and related management staff in a mode of specifying project regulations, and improving the approval of the staff on the project, wherein the project regulation is required to be perfected; step three: the project period is estimated, and the time required by the project is estimated by analogy and man-hour quota method, so that the estimated time is ensured to be consistent with the actual time; step four: accounting cost and expense, and estimating the cost generated when the project is carried out; step five: and uploading the material length and reserving the confirmed cost budget table so as to maintain rights and interests of both parties.

Description

Construction cost consultation management method

Technical Field

The invention relates to the technical field of engineering cost, in particular to an engineering cost consultation management method.

Background

The construction cost refers to the construction price of the project, which represents all the cost required for carrying out one project construction, and the project can be particularly houses, roads, bridges and the like. The project cost consulting service refers to the activity of accepting commission by a project cost consulting enterprise, providing professional service for determining and controlling project cost of a construction project and providing project cost result files.

In order to ensure the rights of both sides of the armor and the armor after finishing the engineering cost, the corresponding materials need to be uploaded to the network, a large amount of paper documents exist in the materials and need to be scanned and uploaded, while the existing scanning device has a scanning function, but when the materials are wrinkled, the materials need to be straightened manually, the operation of single material is truly simple, but when a large amount of materials exist, the simple straightening operation also consumes a large amount of time of staff, and the rapid uploading of the materials is not facilitated.

Disclosure of Invention

The invention aims to provide a construction cost consultation management method for solving the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions:

the construction cost consultation management method comprises the following steps:

step one: determining a project range, and determining a project cost consultation box management level according to the basic condition, the product and the basic work of the project and the project period;

step two: determining a decomposition structure of a project, after project establishment, establishing an internal information platform, improving the knowledge of staff on the project and related management staff in a mode of specifying project regulations, improving the regulations of the project, improving the acceptance of the staff on the project, and improving the coordination degree among departments;

step three: the project period is estimated, and the time required by the project is estimated by analogy and man-hour quota method, so that the estimated time is ensured to be consistent with the actual time;

step four: accounting cost and expense, estimating the cost generated when the project is carried out, and identifying the result with a client;

step five: and uploading and preserving the confirmed cost budget table by long-term transmission of materials.

As a further scheme of the invention: scanning and uploading materials through a scanning device;

the scanning device includes:

the base is provided with a sliding plate for carrying materials;

the scanner is arranged on the base and is used for scanning materials arranged on the sliding plate;

the sliding assembly is arranged on the base and connected with the sliding plate, and the sliding assembly can drive the sliding plate to move relative to the base;

the transverse moving assembly is connected with the scanner, can drive the scanner to move along the length direction of the material, and can move towards the material when the scanner moves;

the power assembly is connected with the traversing assembly and the push-pull assembly, and can alternately drive the traversing assembly and the push-pull assembly to act;

the spreading assembly is connected with the transverse moving assembly, two rollers are connected to the spreading assembly, and when the scanner moves, the rollers move towards the material, and when the rollers are abutted to the material, the two rollers move away from each other.

As still further aspects of the invention: the power assembly comprises a mounting frame fixed on the base, a driving device is fixed on the mounting frame, and an output shaft of the driving device is connected with a Malta cross movement structure arranged on the mounting frame;

the maltese cross movement structure comprises a driving wheel connected with an output shaft of the driving device, the driving wheel is matched with a first driven wheel and a second driven wheel which are rotatably arranged on the mounting frame, the first driven wheel is connected with the push-pull assembly, and the second driven wheel is connected with the transverse moving assembly.

As still further aspects of the invention: the sliding assembly comprises a bearing plate fixedly arranged on the base, and the sliding plate is arranged on the bearing plate in a sliding manner;

the push-pull assembly further comprises a rotary table rotatably mounted on the base, a first protruding shaft is fixed at the eccentric position of the rotary table, and the first protruding shaft can slide between two limiting blocks arranged on the sliding plate;

the pivot of carousel is through No. one belt and No. two belts connect No. one is connected from the driving wheel.

As still further aspects of the invention: the transverse moving assembly comprises two first guide plates symmetrically arranged on the base, a moving frame is slidably arranged on each first guide plate, a first vertical shaft is fixed in the moving frame, and the first vertical shaft is slidably connected with the scanner;

the end part of the scanner is also rotatably provided with a second pulley, and the second pulley can slide in a guide groove formed on the first guide plate;

the transverse moving assembly further comprises a belt transmission structure fixedly connected with the moving frame, and the belt transmission structure is connected with the second driven wheel.

As still further aspects of the invention: the belt transmission structure comprises two transmission wheels rotatably arranged on the mounting frame, a transmission belt is sleeved on the two transmission wheels, and a rotating shaft of one transmission wheel is connected with the second driven wheel through a third belt;

the belt transmission structure further comprises a connecting plate fixedly connected with the two moving frames, the connecting plate is provided with a jogging groove along the length direction of the connecting plate, and a first pulley rotatably arranged on the moving frames can roll in the jogging groove.

As still further aspects of the invention: the guide slot comprises a horizontal slot body and a first inclined slot body, wherein the horizontal slot body and the first inclined slot body are arranged on the first guide plate, and the horizontal slot body is communicated with the first inclined slot body.

As still further aspects of the invention: the paving assembly comprises two second vertical shafts arranged on the base, lifting pieces are slidably arranged on the two second vertical shafts, a transverse shaft which is slidably connected with the scanner is fixed on the lifting pieces, sliding grooves are formed in the lifting pieces along the length direction of the lifting pieces, two sliding blocks are slidably arranged in the sliding grooves, sliding connecting pieces are slidably arranged on the sliding blocks, and the sliding connecting pieces are in rotary connection with the roller;

the paving assembly further comprises a guide structure connected with the sliding block.

As still further aspects of the invention: the guide structure comprises two second guide plates arranged on the base, wherein the second guide plates are provided with vertical groove bodies and second inclined groove bodies, and the vertical groove bodies are communicated with the second inclined groove bodies;

the second protruding shaft fixed on the sliding block can slide in the vertical groove body and the second inclined groove body.

Compared with the prior art, the invention has the beneficial effects that:

through the power assembly, when the sliding assembly moves, the sliding assembly is in a locking state, and when the sliding assembly moves, the sliding assembly is in the locking state, and the sliding assembly and the locking assembly alternately move, so that the stability of the scanning device in use is improved, and meanwhile, the output of the driving device can be effectively utilized, on one hand, the condition that the driving device is empty is avoided, and on the other hand, the driving device is prevented from being burnt due to overlarge output load of the driving device;

the material is more convenient to place on the sliding plate through the traction component, so that the difficulty in operation during placing the material is avoided, and the automation degree of the device is higher;

through sideslip subassembly and the subassembly that paves that sets up for can drive two running rollers and move towards the material when the scanner action, and after running roller and material butt, two running rollers will keep away from each other and move, and shakeout the material, improve the scanning effect of scanner.

Drawings

FIG. 1 is a schematic diagram of an embodiment of a construction cost consulting management method.

FIG. 2 is a schematic diagram of another angle of construction of one embodiment of the construction cost consulting management method.

FIG. 3 is a schematic diagram of a push-pull assembly in one embodiment of a construction cost advisory management method.

FIG. 4 is a schematic diagram of a belt drive structure in one embodiment of a construction cost advisory management method.

FIG. 5 is a schematic diagram of a traversing assembly in one embodiment of a construction cost advisory management method.

FIG. 6 is a schematic diagram of a power assembly in one embodiment of a construction cost advisory management method.

FIG. 7 is a schematic diagram of the construction of a paving assembly in one embodiment of a construction cost advisory management method.

FIG. 8 is a flow chart of one embodiment of a project cost advisory management method.

In the figure: 1. a base; 2. a carrying plate; 3. a slide plate; 4. a limiting block; 5. a turntable; 6. a first protruding shaft; 7. a first belt; 8. a second belt; 9. a first driven wheel; 10. a driving wheel; 11. a second driven wheel; 12. a third belt; 13. a driving wheel; 14. a transmission belt; 15. a first pulley; 16. a connecting plate; 17. a fitting groove; 18. a moving rack; 19. a first vertical shaft; 20. a scanner; 21. a second pulley; 22. a first guide plate; 23. a horizontal tank body; 24. a first inclined groove body; 25. a horizontal axis; 26. a second vertical shaft; 27. a lifting member; 28. a slide block; 29. a second protruding shaft; 30. a sliding connection; 31. a roller; 32. a second guide plate; 33. a vertical trough; 34. a second inclined groove body; 35. a mounting frame; 36. a driving device.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In addition, an element in the present disclosure may be referred to as being "fixed" or "disposed" on another element or being directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like are used herein for illustrative purposes only and are not meant to be the only embodiment.

In the embodiment of the invention, a construction cost consultation management method comprises the following steps:

step one: determining a project range, and determining a project cost consultation box management level according to the basic condition, the product and the basic work of the project and the project period;

step two: determining a decomposition structure of a project, after project establishment, establishing an internal information platform, improving the knowledge of staff on the project and related management staff in a mode of specifying project regulations, improving the regulations of the project, improving the acceptance of the staff on the project, and improving the coordination degree among departments;

step three: the project period is estimated, and the time required by the project is estimated by analogy and man-hour quota method, so that the estimated time is ensured to be consistent with the actual time;

step four: accounting cost and expense, estimating the cost generated when the project is carried out, and identifying the result with a client;

step five: and uploading and preserving the confirmed cost budget table by long-term transmission of materials.

Referring to fig. 1 to 8, a material is scanned and uploaded by a scanning device;

the scanning device includes: base 1, scanner 20, push-and-pull subassembly, sideslip subassembly, power component and paver assembly for can drive two running rollers 31 and move towards the material when scanner 20 moves, and after running roller 31 and material butt, two running rollers 31 will keep away from each other and move, and pave the material, improve the scanning effect of scanner 20.

The method comprises the following steps: the power assembly is connected with the traversing assembly and the push-pull assembly, the power assembly can drive the traversing assembly and the push-pull assembly to act alternately, the power assembly comprises a mounting frame 35 fixed on the base 1, a driving device 36 is fixed on the mounting frame 35, and an output shaft of the driving device 36 is connected with a Malta cross movement structure arranged on the mounting frame 35;

the maltese cross movement structure comprises a driving wheel 10 connected with an output shaft of the driving device 36, the driving wheel 10 is matched with a first driven wheel 9 and a second driven wheel 11 which are rotatably installed on the installation frame 35, the first driven wheel 9 is connected with the push-pull assembly, and the second driven wheel 11 is connected with the transverse moving assembly.

When the device is used, the driving device 36 is controlled to work, the output shaft of the driving device 36 drives the driving wheel 10 to rotate, the driving wheel 10 alternately drives the first driven wheel 9 and the second driven wheel 11 to move when rotating, specifically, when the driving wheel 10 is matched with the first driven wheel 9 to enable the first driven wheel 9 to rotate, the second driven wheel 11 is in a locking state, and when the driving wheel 10 is matched with the second driven wheel 11 to drive the second driven wheel 11 to rotate, the first driven wheel 9 is in the locking state, and then the transverse moving assembly and the push-pull assembly are driven to alternately act.

Through the arrangement, when the sliding component moves, the sliding component is in a locking state, and when the sliding component moves, the sliding component is in the locking state, and the sliding component alternately move to improve the stability of the scanning device in use, and meanwhile, the output of the driving device 36 can be effectively utilized, so that on one hand, the condition that the driving device 36 is unloaded is avoided, and on the other hand, the driving device 36 is prevented from being burnt due to overlarge output load of the driving device 36.

Referring to fig. 1 to 8, the base 1 is provided with a sliding plate 3 for receiving materials;

the scanner 20 is arranged on the base 1, and the scanner 20 is used for scanning materials placed on the sliding plate 3;

the sliding component is arranged on the base 1 and connected with the sliding plate 3, the sliding component can drive the sliding plate 3 to move relative to the base 1, the sliding component comprises a bearing plate 2 fixedly arranged on the base 1, and the sliding plate 3 is arranged on the bearing plate 2 in a sliding way;

the push-pull assembly further comprises a rotary table 5 rotatably mounted on the base 1, a first protruding shaft 6 is fixed at the eccentric position of the rotary table 5, and the first protruding shaft 6 can slide between two limiting blocks 4 arranged on the sliding plate 3;

the rotating shaft of the rotary table 5 is connected with the driven wheel 9 through a first belt 7 and a second belt 8.

When the driven wheel 9 rotates, the rotating shaft of the driven wheel 9 drives the turntable 5 to rotate through the belt 7 and the belt 8 so that the first protruding shaft 6 moves circularly, and the first protruding shaft 6 is arranged between the two limiting blocks 4 in a sliding manner, so that the sliding plate 3 can be driven to move along the length direction of the bearing plate 2 when the first protruding shaft 6 moves circularly, namely, the sliding plate 3 has a telescopic sliding function, the material is placed on the sliding plate 3 more conveniently, the difficult operation is avoided when the material is placed, and the automation degree of the device is higher.

Referring to fig. 1 to 8, the traversing assembly is connected to the scanner 20, the traversing assembly can drive the scanner 20 to move along the length direction of the material, and the scanner 20 can move toward the material when the scanner 20 moves;

the transverse moving assembly comprises two first guide plates 22 symmetrically arranged on the base 1, a moving frame 18 is slidably arranged on each first guide plate 22, a first vertical shaft 19 is fixed in the moving frame 18, and the first vertical shaft 19 is slidably connected with the scanner 20;

the end part of the scanner 20 is also rotatably provided with a second pulley 21, the second pulley 21 can slide in a guide groove formed on the first guide plate 22, the guide groove comprises a horizontal groove body 23 and a first inclined groove body 24 which are arranged on the first guide plate 22, and the horizontal groove body 23 is communicated with the first inclined groove body 24;

the transverse moving assembly further comprises a belt transmission structure fixedly connected with the moving frame 18, the belt transmission structure is connected with the second driven wheel 11, the belt transmission structure comprises two driving wheels 13 rotatably installed on the mounting frame 35, a driving belt 14 is sleeved on the two driving wheels 13, and a rotating shaft of one driving wheel 13 is connected with the second driven wheel 11 through a third belt 12;

the belt transmission structure further comprises a connecting plate 16 fixedly connected with the two movable frames 18, an embedded groove 17 is formed in the connecting plate 16 along the length direction of the connecting plate, and a first pulley 15 rotatably installed on the movable frames 18 can roll in the embedded groove 17.

The spreading component is connected with the traversing component, two rollers 31 are connected to the spreading component, when the scanner 20 moves, the rollers 31 move towards a material, and when the rollers 31 are abutted against the material, the two rollers 31 move away from each other, the spreading component comprises two No. two vertical shafts 26 arranged on the base 1, a lifting piece 27 is slidably arranged on the two No. two vertical shafts 26, a transverse shaft 25 slidably connected with the scanner 20 is fixedly arranged on the lifting piece 27, a chute is arranged on the lifting piece 27 along the length direction of the lifting piece, two sliding blocks 28 are slidably arranged on the chute, a sliding connecting piece 30 is slidably arranged on the sliding blocks 28, and the sliding connecting piece 30 is rotatably connected with the rollers 31;

the paving assembly further comprises a guide structure connected with the sliding block 28, the guide structure comprises two second guide plates 32 arranged on the base 1, a vertical groove body 33 and a second inclined groove body 34 are arranged on the second guide plates 32, and the vertical groove body 33 is communicated with the second inclined groove body 34;

the second protruding shaft 29 fixed to the slider 28 can slide in the vertical groove 33 and the second inclined groove 34.

When the second driven wheel 11 rotates, the second driven wheel 11 drives the driving wheel 13 to rotate through the third belt 12, so that the driving belt 14 sleeved between the two driving wheels 13 moves, the first pulley 15 on the driving belt 14 is arranged in the embedded groove 17, the moving frame 18 moves along the length direction of the first guide plate 22 when the driving belt 14 moves, specifically, the driving belt 14 can be regarded as being composed of two circumferential sections and two straight sections, when the first pulley 15 moves to the circumferential section of the driving belt 14, the first pulley 15 slides in the embedded groove 17, and when the driving belt 14 continuously moves, the moving frame 18 moves back and forth along the length direction of the first guide plate 22;

in the initial state, the second pulley 21 is located at one end of the first inclined groove 24 away from the horizontal groove 23, and the two rollers 31 are located at the state of being close to each other and away from the sliding plate 3, when the moving frame 18 moves along the length direction of the first guide plate 22, the second pulley 21 moves towards the horizontal groove 23, so that the scanner 20 moves downwards along the length direction of the first vertical shaft 19, at the moment, the height of the transverse shaft 25 also descends, and drives the lifting piece 27 and the sliding block 28 to move downwards, until the second pulley 21 moves into the horizontal groove 23, the rollers 31 are abutted with the material on the sliding plate 3, and meanwhile, the second protruding shaft 29 moves into the second inclined groove 34 from the vertical groove 33, and under the guiding action of the second inclined groove 34, the two sliding blocks 28 move away from each other, so that the material is flattened, and the effect of the scanner 20 after scanning is improved.

Through the above arrangement, when the scanner 20 acts, the two rollers 31 can be driven to move towards the material, and after the rollers 31 are abutted against the material, the two rollers 31 move away from each other, so that the material is flattened, and the scanning effect of the scanner 20 is improved.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims (8)

1. The construction cost consultation management method is characterized by comprising the following steps:

step one: determining a project range, and determining a project cost consultation box management level according to the basic condition, the product and the basic work of the project and the project period;

step two: determining a decomposition structure of a project, after project establishment, establishing an internal information platform, improving the knowledge of staff on the project and related management staff in a mode of specifying project regulations, improving the regulations of the project, improving the acceptance of the staff on the project, and improving the coordination degree among departments;

step three: the project period is estimated, and the time required by the project is estimated by analogy and man-hour quota method, so that the estimated time is ensured to be consistent with the actual time;

step four: accounting cost and expense, estimating the cost generated when the project is carried out, and identifying the result with a client;

step five: and uploading and preserving the confirmed cost budget table by long-term transmission of materials.

2. The construction cost consultation management method according to claim 1, characterized in that the materials are scanned and uploaded by a scanning device, the scanning device comprises a base (1), and a sliding plate (3) for carrying the materials is arranged on the base (1).

3. The construction cost consultation management method according to claim 2, characterized in that,

the scanning device further includes:

a scanner (20) arranged on the base (1), wherein the scanner (20) is used for scanning materials arranged on the sliding plate (3);

the sliding assembly is arranged on the base (1) and connected with the sliding plate (3), and the sliding assembly can drive the sliding plate (3) to move relative to the base (1);

a traversing assembly coupled to the scanner (20), the traversing assembly capable of driving the scanner (20) along a length of a material, and the scanner (20) capable of moving toward the material when the scanner (20) moves;

the power assembly is connected with the traversing assembly and the push-pull assembly, and can alternately drive the traversing assembly and the push-pull assembly to act;

the spreading assembly is connected with the transverse moving assembly, two rollers (31) are connected to the spreading assembly, when the scanner (20) moves, the rollers (31) move towards the material, and when the rollers (31) are abutted against the material, the two rollers (31) move away from each other;

the power assembly comprises a mounting frame (35) fixed on the base (1), a driving device (36) is fixed on the mounting frame (35), and an output shaft of the driving device (36) is connected with a Malta cross movement structure arranged on the mounting frame (35);

the maltese cross movement structure comprises a driving wheel (10) connected with an output shaft of the driving device (36), the driving wheel (10) is matched with a first driven wheel (9) and a second driven wheel (11) which are rotatably arranged on the mounting frame (35), the first driven wheel (9) is connected with the push-pull assembly, and the second driven wheel (11) is connected with the transverse moving assembly;

the sliding assembly comprises a bearing plate (2) fixedly arranged on the base (1), and the sliding plate (3) is arranged on the bearing plate (2) in a sliding manner;

the push-pull assembly further comprises a rotary table (5) rotatably mounted on the base (1), a first protruding shaft (6) is fixed at the eccentric position of the rotary table (5), and the first protruding shaft (6) can slide between two limiting blocks (4) arranged on the sliding plate (3);

the rotating shaft of the rotary table (5) is connected with the first driven wheel (9) through a first belt (7) and a second belt (8);

the transverse moving assembly comprises two first guide plates (22) symmetrically arranged on the base (1), a moving frame (18) is slidably arranged on each first guide plate (22), a first vertical shaft (19) is fixed in the moving frame (18), and the first vertical shaft (19) is slidably connected with the scanner (20);

the end part of the scanner (20) is also rotatably provided with a second pulley (21), and the second pulley (21) can slide in a guide groove formed on the first guide plate (22);

the transverse moving assembly further comprises a belt transmission structure fixedly connected with the moving frame (18), and the belt transmission structure is connected with the second driven wheel (11);

the belt transmission structure comprises two transmission wheels (13) rotatably arranged on the mounting frame (35), a transmission belt (14) is sleeved on the two transmission wheels (13), and a rotating shaft of one transmission wheel (13) is connected with the second driven wheel (11) through a third belt (12);

the belt transmission structure further comprises a connecting plate (16) fixedly connected with the two moving frames (18), an embedded groove (17) is formed in the connecting plate (16) along the length direction of the connecting plate, and a first pulley (15) rotatably installed on the moving frames (18) can roll in the embedded groove (17);

the paving assembly comprises two second vertical shafts (26) arranged on the base (1), lifting pieces (27) are slidably arranged on the two second vertical shafts (26), a transverse shaft (25) which is slidably connected with the scanner (20) is fixed on the lifting pieces (27), a sliding groove is formed in the lifting pieces (27) along the length direction of the lifting pieces, and two sliding blocks (28) are slidably arranged in the sliding groove.

4. A construction cost consultation management method according to claim 3 characterised in that the slide block (28) is slidably provided with a sliding connection member (30), the sliding connection member (30) being rotatably connected with the roller (31); the guide groove comprises a horizontal groove body (23) and a first inclined groove body (24), wherein the horizontal groove body (23) is arranged on the first guide plate (22), and the horizontal groove body (23) is communicated with the first inclined groove body (24).

5. A construction cost advisory management method as claimed in claim 3, wherein said paving assembly further comprises a guide structure connected to said slide (28).

6. A construction cost consultation management method according to claim 5 characterised in that the guide structure comprises two second guide plates (32) arranged on the base (1).

7. The construction cost consultation management method according to claim 6, characterized in that the second guide plate (32) is provided with a vertical groove body (33) and a second inclined groove body (34).

8. The construction cost consultation management method according to claim 7, characterized in that the vertical groove body (33) is communicated with the second inclined groove body (34), and the second protruding shaft (29) fixed on the sliding block (28) can slide in the vertical groove body (33) and the second inclined groove body (34).