CN115854204B - On-spot survey and drawing device of building engineering cost - Google Patents
On-spot survey and drawing device of building engineering cost Download PDFInfo
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- CN115854204B CN115854204B CN202310051037.6A CN202310051037A CN115854204B CN 115854204 B CN115854204 B CN 115854204B CN 202310051037 A CN202310051037 A CN 202310051037A CN 115854204 B CN115854204 B CN 115854204B
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02A—TECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
- Y02A90/00—Technologies having an indirect contribution to adaptation to climate change
- Y02A90/30—Assessment of water resources
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Abstract
The application relates to the field of constructional engineering, and in particular discloses a construction cost on-site mapping device which comprises: a middle rod frame; the first stabilizing component is fixedly connected with the middle rod frame in a sleeved mode; the surveying and mapping device is fixedly connected with the middle-set rod frame and is used for engineering surveying and mapping; the support device is connected with the first stabilizing component; the adjusting control assembly is connected with the middle rod frame and used for controlling the operation of the first stabilizing assembly; wherein, the support device includes: the erection assembly is connected with the first stabilizing assembly and used for erecting and fixing the surveying and mapping device; the second stable subassembly, the second stable subassembly links to each other with the erection subassembly this device is through erecting the subassembly and stabilize the support to surveying and mapping device, and the stable reinforcement to erecting the subassembly is realized to the first stable subassembly of cooperation again and second stable subassembly, has further improved self-fixing stability, prevents to topple, effective protection surveying and mapping equipment.
Description
Technical Field
The application relates to the construction engineering industry, in particular to a construction engineering cost on-site mapping device.
Background
The building engineering refers to engineering entities formed by the construction of various house buildings and auxiliary facilities thereof and the installation activities of lines, pipelines and equipment matched with the house buildings, wherein the house buildings refer to projects which are provided with top covers, beam columns, walls and foundations and can form internal spaces so as to meet the demands of people on production, living, study and public activities.
In the construction process of the building engineering, the construction site is required to be mapped, so that the engineering cost of each item is completed, the self-fixing stability of the existing engineering site mapping device is poor, when the existing engineering site mapping device is supported by no force, and the external wind power is large, the mapping device is easy to overturn and damage, and therefore, in order to solve the problem, the development of the engineering cost site mapping device is needed.
Disclosure of Invention
The application aims to provide a construction engineering cost field mapping device which is used for solving the problems in the background technology.
In order to achieve the above purpose, the present application provides the following technical solutions:
a construction site mapping apparatus comprising:
a middle rod frame;
the first stabilizing component is fixedly connected with the middle rod frame in a sleeved mode;
the surveying and mapping device is fixedly connected with the middle-set rod frame and is used for engineering surveying and mapping;
the support device is connected with the first stabilizing component;
the adjusting control assembly is connected with the middle rod frame and used for controlling the operation of the first stabilizing assembly;
wherein, the support device includes:
the erection assembly is connected with the first stabilizing assembly and used for erecting and fixing the surveying and mapping device;
the second stabilizing assembly is connected with the erection assembly and used for auxiliary fixation of the erection assembly.
Compared with the prior art, the application has the beneficial effects that: this device reasonable in design carries out steady support through setting up the subassembly to surveying and mapping device, and the stable reinforcement to setting up the subassembly is realized to the first subassembly that stabilizes of cooperation again and the second stable subassembly, has further improved self-fixing stability, prevents to topple, effectively protects surveying and mapping equipment, has higher practicality and market prospect, is fit for using widely on a large scale.
Drawings
Fig. 1 is a schematic structural diagram of a construction site mapping device in accordance with an embodiment of the present application.
Fig. 2 is a schematic structural view of a fixed tray frame in a construction site mapping device according to an embodiment of the present application.
Fig. 3 is a schematic diagram of a partial structure at a in fig. 1.
Fig. 4 is a schematic structural diagram of an adjusting control component in a construction site mapping device according to an embodiment of the present application.
In the figure: the device comprises a 1-middle rod frame, a 2-first stabilizing component, a 3-mapping device, a 4-adjusting control component, a 5-supporting device, a 6-erecting component, a 7-second stabilizing component, a 201-fixed disc frame, a 202-connecting shaft, a 203-first reinforcing frame, a 204-anti-slip ball, a 205-limiting groove, a 301-base, a 302-damping rotating shaft, a 303-mapping piece, a 401-adjusting disc frame, a 402-through groove, a 403-limiting frame, a 404-positioning inserting rod, a 601-sleeve frame, a 602-transmission frame, a 603-bracket, a 604-balancing weight, a 605-anti-slip groove, a 701-elastic piece, a 702-auxiliary bracket, a 703-fixing frame and a 704-second reinforcing frame.
Detailed Description
The following description of the embodiments of the present application 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 application, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.
In one embodiment of the present application, as shown in fig. 1, a construction site mapping apparatus includes: a middle rod frame 1; the first stabilizing component 2 is fixedly connected with the middle rod frame 1 in a sleeved mode; the surveying and mapping device 3 is fixedly connected with the middle-set rod frame 1 and used for engineering surveying and mapping; a support device 5, said support device 5 being connected to the first stabilizing assembly 2; the adjusting and controlling assembly 4 is connected with the middle rod frame 1 and used for controlling the operation of the first stabilizing assembly 2; wherein the support device 5 comprises: the erection component 6 is connected with the first stabilizing component 2 and is used for erecting and fixing the surveying and mapping device 3; the second stabilizing assembly 7, the second stabilizing assembly 7 links to each other with erect subassembly 6 for erect the supplementary fixed of subassembly 6.
In one embodiment of the application:
as shown in fig. 1 and 2, the first stabilizing assembly 2 includes: a fixed tray 201, wherein the fixed tray 201 is fixedly connected with the middle rod frame 1; a plurality of limiting grooves 205, wherein the limiting grooves 205 are arranged inside the fixed tray 201; the connecting shaft 202, wherein the connecting shaft 202 is connected with the limiting groove 205; the first reinforcement frame 203 is arranged in the limit groove 205 and is connected with the connecting shaft 202; a non-slip sphere 204, wherein the non-slip sphere 204 is connected with the first reinforcement frame 203;
the device is moved to a set mapping position, the device is fixed in a mounting manner through the mounting assembly 6, the mounting stability of the mounting assembly 6 can be improved through the second stabilizing assembly 7 after the mounting is completed, then the first stabilizing assembly 2 can be driven to rotate and run under the adjustment of the adjusting and controlling assembly 4, the reinforcement of the mounting assembly 6 is realized, the mapping stability is further improved, after the reinforcement is completed, the mapping device 3 can be rotated and adjusted, and the site mapping can be performed after the mapping direction is determined.
In one embodiment of the application:
as shown in fig. 1, the surveying device 3 includes: the base 301, the base 301 is fixedly connected with the middle rod frame 1; a damping rotating shaft 302, wherein the damping rotating shaft 302 is connected with the base 301; the surveying and mapping piece 303, wherein the surveying and mapping piece 303 is fixedly connected with one end of the damping rotating shaft 302, which is far away from the base 301; the surveying and mapping piece 303 is a flat panel instrument;
after the erection is completed, the direction of the surveying and mapping piece 303 can be rotationally adjusted by taking the damping rotating shaft 302 as the axis according to the required surveying and mapping direction and matching with the damping rotating shaft 302, so that surveying and mapping operation is completed;
in the present application, the surveying and mapping member 303 is not limited to a flat panel apparatus, and theodolites, levels, etc. may be used as long as surveying and mapping operations can be performed, and are not particularly limited herein; theodolite is an instrument for measuring horizontal angle and vertical angle, and is composed of telescope, horizontal dial, vertical dial and base. The reading equipment is divided into vernier theodolites, optical theodolites and electronic (automatic display) theodolites. The theodolite is widely used for measurement such as control, topography, construction lofting and the like, and when special accessories are attached to the theodolite, the theodolite can be formed by: laser theodolite, slope theodolite, and the like. In addition, there are dedicated gyroscopic theodolites, mine theodolites, photographic theodolites, and the like; a level is an instrument that measures the difference in elevation between two points. The telescope is composed of telescope, level gauge (or compensator) and base, and the components are as follows: a fixed mirror level, a rotating mirror level, a slight inclination level and an automatic leveling level. The level is widely used for measuring works such as control, topography, construction lofting and the like, and when special accessories are attached to the level, the level can form a laser level; the plate instrument is a main instrument for manually mapping a large scale topographic map on the ground. Consists of a collimator, a flat plate, a bracket and other parts. An electromagnetic wave distance measuring device is added on the alidade, so that the operation is more convenient and rapid; the total station is also called an electronic tachometer, and consists of an electronic theodolite, an electromagnetic wave distance meter, a microcomputer, a program module, a memory and an automatic recording device, and is a multifunctional electronic measuring instrument for rapidly measuring distance, measuring angles, calculating, recording and the like. There are two types, integral and combined. The integral electronic tachometer is an integral combination of all functional components, can automatically display the inclined distance and the angle, automatically reduce and display the flat distance, the height difference and the coordinate increment, and has higher degree of automation.
In one embodiment of the application:
as shown in fig. 1, the erection assembly 6 includes: a plurality of brackets 603, wherein the brackets 603 are movably connected with the fixed tray frame 201; the balancing weight 604, the balancing weight 604 is connected with one end of the bracket 603 far away from the fixed tray 201; the transmission frame 602, wherein the transmission frame 602 is movably connected with the bracket 603; the sleeve frame 601 is movably connected with the middle rod frame 1 in a sleeved mode, and is movably connected with one end, away from the bracket 603, of the plurality of transmission frames 602; a slip preventing groove 605, the slip preventing groove 605 being provided inside the outside of the bracket 603;
when a plurality of support 603 rotates to the outside, the sleeve frame 601 can move downwards along the longitudinal direction of the middle-arranged rod frame 1, and is matched with a plurality of transmission frames 602 and the middle-arranged rod frame 1, so that the support of the plurality of support 603 can be completed, an anti-slip pad is arranged at the bottom side of the balancing weight 604, the friction force between the balancing weight 604 and the ground surface can be further improved, the support stability is further improved, an anti-slip groove 605 is further arranged in the outer side of the support 603, and when the first stabilizing assembly 2 rotates through the adjusting and controlling assembly 4, the first stabilizing assembly can be contacted with the anti-slip groove 605 at a corresponding position.
In one embodiment of the application:
as shown in fig. 1, the second stabilizing assembly 7 includes: an elastic member 701, wherein the elastic member 701 is connected with the balancing weight 604; the elastic piece 701 is an elastic ring frame; an auxiliary bracket 702, wherein the auxiliary bracket 702 is rotatably connected with the elastic piece 701; the fixing frame 703, the fixing frame 703 is fixedly connected with the balancing weight 604; the second reinforcement frame 704, the second reinforcement frame 704 is fixedly connected with the fixing frame 703;
before the support of a plurality of support 603 is accomplished, can rotate auxiliary stand 702 to the one side that keeps away from support 702, when support 603 accomplished the support, auxiliary stand 702 cooperation mount 703 and second reinforcement frame 704 also accomplish the support fixed with ground, further improves the support stability who erects subassembly 6.
In one embodiment of the application:
as shown in fig. 1 and 4, the adjustment control assembly 4 includes: the adjusting disc frame 401 is movably sleeved with the middle-set rod frame 1 and is movably abutted with the fixed disc frame 201, and the adjusting disc frame 401 is plum blossom-shaped; a through groove 402, wherein the through groove 402 is arranged inside the adjusting disc frame 401;
when the first stabilizing assembly 2 is adjusted and driven, the adjusting disc frame 401 sleeved on the outer side of the middle-set rod frame 1 is manually rotated, so that the protruding arc-shaped position of the adjusting disc frame 401 is abutted with the first reinforcing frame 203 at the corresponding position, the first reinforcing frame 203 is driven to rotate by taking the connecting shaft 202 as the axis, the anti-slip ball 204 moves to the side close to the bracket 603 until the anti-slip ball 204 is abutted with the anti-slip groove 605, and the top reinforcing and positioning of the erection assembly 6 are completed.
In one embodiment of the application:
as shown in fig. 1 and 3, the adjustment control assembly 4 further includes: the limiting frame 403, the limiting frame 403 is fixedly connected with the adjusting disc frame 401; the positioning inserted link 404, the positioning inserted link 404 is movably connected with the limit frame 403 in an inserting way;
the middle rod frame 1 is provided with a positioning groove (not shown in the figure), when the protruding arc-shaped position of the adjusting disc frame 401 is abutted to the first reinforcing frame 203 at the corresponding position, the positioning inserting rod 404 is pushed, so that the positioning inserting rod 404 is inserted into the positioning groove, limiting and fixing of the adjusting disc frame 401 are completed, and the fixing stability of the first stabilizing assembly 2 is further improved.
The working principle of the application is as follows: the device is moved to a set mapping position, the device is fixed in a mounting manner through the mounting assembly 6, the mounting stability of the mounting assembly 6 can be improved by the second stabilizing assembly 7 after the mounting is completed, then the first stabilizing assembly 2 can be driven to rotate and run under the adjustment of the adjusting control assembly 4, the reinforcement of the mounting assembly 6 is realized, the mapping stability is further improved, after the reinforcement is completed, the mapping device 3 can be rotated and adjusted, after the mapping direction is determined, the site mapping can be performed, after the mounting is completed, the direction of the mapping piece 303 can be rotated and adjusted according to the required mapping direction, the damping rotating shaft 302 is matched with the damping rotating shaft 302 as the axis, the mapping operation is completed, the mapping piece 303 is not limited to a flat-panel instrument, a theodolite and a level instrument can be adopted, and the like, so long as the mapping operation can be realized, the theodolite is an instrument for measuring a horizontal angle and a vertical angle, and the theodolite is composed of a telescope, a horizontal scale, a vertical scale, a base and other components. The reading equipment is divided into vernier theodolites, optical theodolites and electronic (automatic display) theodolites. The theodolite is widely used for measurement such as control, topography, construction lofting and the like, and when special accessories are attached to the theodolite, the theodolite can be formed by: laser theodolite, slope theodolite, and the like. In addition, there are dedicated gyroscopic theodolites, mine theodolites, photographic theodolites, and the like; a level is an instrument that measures the difference in elevation between two points. The telescope is composed of telescope, level gauge (or compensator) and base, and the components are as follows: a fixed mirror level, a rotating mirror level, a slight inclination level and an automatic leveling level. The level is widely used for measuring works such as control, topography, construction lofting and the like, and when special accessories are attached to the level, the level can form a laser level; the plate instrument is a main instrument for manually mapping a large scale topographic map on the ground. Consists of a collimator, a flat plate, a bracket and other parts. An electromagnetic wave distance measuring device is added on the alidade, so that the operation is more convenient and rapid; the total station is also called an electronic tachometer, and consists of an electronic theodolite, an electromagnetic wave distance meter, a microcomputer, a program module, a memory and an automatic recording device, and is a multifunctional electronic measuring instrument for rapidly measuring distance, measuring angles, calculating, recording and the like. There are two types, integral and combined. The integral electronic tachometer is an integral combination of all functional components, can automatically display the inclined distance and the angle, automatically reduce and display the flat distance, the height difference and the coordinate increment, and has higher degree of automation. When the plurality of brackets 603 rotate outwards, the sleeve frame 601 moves downwards along the longitudinal direction of the middle-set rod frame 1, and is matched with the plurality of transmission frames 602 and the middle-set rod frame 1, so that the support of the plurality of brackets 603 can be completed, an anti-slip pad is arranged at the bottom side of the balancing weight 604, the friction force between the balancing weight 604 and the ground surface can be further improved, the support stability is further improved, an anti-slip groove 605 is further arranged in the outer side of the brackets 603, when the first stabilizing component 2 rotates through the adjusting and controlling component 4, the first stabilizing component can be contacted with the anti-slip groove 605 at a corresponding position, before the support of the plurality of brackets 603 is completed, the auxiliary bracket 702 can be rotated to the side far away from the bracket 702, and when the support 603 is completed, the auxiliary bracket 702 is matched with the fixing frame 703 and the second reinforcing frame 704 to complete the support fixation with the ground surface, and the support stability of the erecting component 6 is further improved;
when the first stabilizing assembly 2 is adjusted and driven, the adjusting disc frame 401 sleeved on the outer side of the middle-set rod frame 1 is manually rotated, so that the protruding arc-shaped position of the adjusting disc frame 401 is abutted against the first reinforcing frame 203 at the corresponding position, the first reinforcing frame 203 is driven to rotate by taking the connecting shaft 202 as the axis, the anti-slip ball 204 moves towards the side close to the support 603 until the anti-slip ball 204 is abutted against the anti-slip groove 605, the top of the erecting assembly 6 is reinforced and positioned, a positioning groove (not shown in the figure) is formed in the middle-set rod frame 1, after the protruding arc-shaped position of the adjusting disc frame 401 is abutted against the first reinforcing frame 203 at the corresponding position, the positioning inserting rod 404 is pushed, the positioning inserting rod 404 can be inserted into the positioning groove, the limiting and fixing of the adjusting disc frame 401 are completed, and the fixing stability of the first stabilizing assembly 2 is further improved.
To sum up, this device reasonable in design carries out steady support through erect subassembly 6 to surveying and mapping device 3, and the stable reinforcement to erect subassembly 6 is realized to the cooperation first stable subassembly 2 and the stable subassembly 7 of second again, has further improved self-fixation stability, prevents to topple, effectively protects surveying and mapping equipment.
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 (4)
1. A construction site mapping apparatus, comprising:
a middle rod frame;
the first stabilizing component is fixedly connected with the middle rod frame in a sleeved mode;
the surveying and mapping device is fixedly connected with the middle-set rod frame and is used for engineering surveying and mapping;
the support device is connected with the first stabilizing component;
the adjusting control assembly is connected with the middle rod frame and used for controlling the operation of the first stabilizing assembly;
wherein, the support device includes:
the erection assembly is connected with the first stabilizing assembly and used for erecting and fixing the surveying and mapping device;
the second stabilizing component is connected with the erection component and is used for auxiliary fixation of the erection component;
the first stabilizing assembly includes:
the fixed disc frame is fixedly connected with the middle rod frame;
the limiting grooves are arranged in the fixed disc frame;
the connecting shaft is connected with the limiting groove;
the first reinforcement frame is arranged in the limit groove and is connected with the connecting shaft;
the anti-slip ball body is connected with the first reinforcing frame;
the adjustment control assembly includes:
the adjusting disc frame is movably sleeved with the middle-set rod frame and is movably abutted with the fixed disc frame, and the adjusting disc frame is plum blossom-shaped;
the through groove is arranged in the adjusting disc frame;
the limiting frame is fixedly connected with the adjusting disc frame;
the positioning inserting rod is movably connected with the limiting frame in an inserting mode.
2. The construction site mapping apparatus according to claim 1, wherein the mapping apparatus comprises:
the base is fixedly connected with the middle-set rod frame;
the damping rotating shaft is connected with the base;
the surveying and mapping piece, the one end fixed connection of base is kept away from with the damping pivot to the surveying and mapping piece.
3. The construction site mapping apparatus of claim 2, wherein the erection assembly comprises:
the brackets are movably connected with the fixed disc rack;
the balancing weight is connected with one end of the bracket far away from the fixed disc frame;
the transmission frame is movably connected with the bracket;
the sleeve frame is movably connected with the middle rod frame in a sleeved mode and is movably connected with one ends, far away from the bracket, of the plurality of transmission frames;
the anti-skid groove is arranged inside the outer side of the bracket.
4. A construction site mapping apparatus according to claim 3, wherein the second stabilizing assembly comprises:
the elastic piece is connected with the balancing weight;
the auxiliary support is rotationally connected with the elastic piece;
the fixing frame is fixedly connected with the balancing weight;
the second reinforcing frame is fixedly connected with the fixing frame.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202310051037.6A CN115854204B (en) | 2023-02-02 | 2023-02-02 | On-spot survey and drawing device of building engineering cost |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202310051037.6A CN115854204B (en) | 2023-02-02 | 2023-02-02 | On-spot survey and drawing device of building engineering cost |
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| Publication Number | Publication Date |
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| CN115854204A CN115854204A (en) | 2023-03-28 |
| CN115854204B true CN115854204B (en) | 2023-08-18 |
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| Application Number | Title | Priority Date | Filing Date |
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| CN202310051037.6A Active CN115854204B (en) | 2023-02-02 | 2023-02-02 | On-spot survey and drawing device of building engineering cost |
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Families Citing this family (1)
| Publication number | Priority date | Publication date | Assignee | Title |
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| CN116642476B (en) * | 2023-07-26 | 2023-09-22 | 内江市市政设施建设管护中心 | Construction engineering cost budget assessment device with mapping function |
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| DE202006004049U1 (en) * | 2006-03-15 | 2006-06-08 | Precaster Enterprises Co., Ltd. | Adjustable tripod for laser leveling device has body, seat, measuring device and azimuth micro-adjustment which is fitted at height of micro-adjustment to rotatably hold seat of laser leveling device |
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| CN115854204A (en) | 2023-03-28 |
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