CN220982281U - Building design measuring device - Google Patents

Abstract

The utility model provides a building design measuring device, includes the measuring device body, the measuring device body includes fixed plate, strutting arrangement, level measurement device, gim peg, slewing mechanism is connected to fixed plate below end face, fixed connection between slewing mechanism and the fixed plate, the through-hole has been opened to fixed plate top end face, level measurement device is connected to fixed plate top end face. The level measuring device comprises a measuring instrument, and a supporting device is movably connected in the rotating mechanism. The utility model has the advantages that the measurer rotating device is arranged, so that the measurer can rotate in the horizontal direction, the measuring range is enlarged, and the horizontal measuring device is arranged, so that a constructor can be helped to quickly and accurately adjust the working position and the levelness, and deviation and errors in the construction process are avoided.

Description

Building design measuring device

Technical Field

The utility model relates to the technical field of building design measurement, in particular to a building design measurement device.

Background

The building design measurement refers to various data measurement and analysis of buildings, structures and the like in the process of building design, including aspects of building size scale, construction materials, foundation soil conditions and the like. The measurement data can provide important basis for building design and construction, and can ensure the safety, stability and reasonability of the building. In the architectural design phase, measurement is an indispensable link. Architects need detailed measurements of the building site before designing them. The method specifically comprises the measurement of the aspects of land topography, landform, outdoor illumination, environmental pollution and the like. In addition, architects need to know local climate conditions, including air temperature, humidity, wind direction, etc., in order to adequately account for these factors in the design process. The accuracy of these data is critical to the success of the architectural design. Building measurement plays an important role in the building construction process. Through measurement and analysis of the foundation, the safety and stability of the building in the construction process can be ensured. Meanwhile, the measurement of all parts such as the wall body, the floor slab, the column and the like can ensure that the quality of the building meets the design requirement.

The utility model discloses a building design measuring device with the patent number of CN211234377U in the prior art, which comprises a supporting mechanism, a detecting mechanism and a fixed disc, wherein a button switch is pressed by the detecting mechanism, the distance is detected by an infrared ranging sensor, the volume of the measuring device is reduced, the usability of the measuring device is improved, the measuring operation is convenient, and the measuring operation is fast and efficient; the supporting mechanism is arranged, the supporting of the detecting mechanism is carried out through the supporting legs during use, the stability of the supporting legs is improved through the pull ropes, the supporting legs are folded together after the use is finished, the carrying and the moving use of the measuring device are facilitated, and the application range of the measuring device is widened; through setting up the display, the display shows the distance data that infrared range sensor detected, and the operating personnel of being convenient for observe the distance data information that detects in real time is favorable to operating personnel to carry out subsequent work according to the distance information that detects, improves measuring device's measurement of efficiency.

However, the architectural design measuring device of the above utility model has the following disadvantages:

1. The measuring device of the architectural design measuring device of the utility model cannot rotate, and has the defect of limited measuring range due to a certain angle limitation. Because the measurer can not rotate, only the data in a fixed angle range can be measured, and the data can not be comprehensively and comprehensively measured. The problems of missing measurement, error and the like easily occur in the process of building design measurement. The position limitation is measured. Because the angle of the measurer is limited, the measurer needs to be placed at a specific position for measurement, which brings additional limitation and inconvenience to construction. If it is necessary to perform the measurement at a position where the measurer is not installed, it is necessary to move the measurer, which increases the measurement time and cost. The measurement accuracy is lowered. Because the measurer cannot rotate, an optimal measurement angle cannot be achieved, and the measurement accuracy is reduced. This can increase the difficulty of design and construction and can lead to safety hazards for the building.

2. The building design measuring device disclosed by the utility model has the defect that the measuring result is inaccurate because the horizontal measuring device cannot guarantee the levelness during measurement. The building design measurements must be made strictly in accordance with standards, and the lack of level measurement devices may lead to errors in the measurement results, thereby affecting the structural and operational safety of the building. The construction difficulty is increased. The accuracy of the measurement results needs to be strictly controlled in building design measurement, and if a horizontal measurement device is not available, constructors need to adjust levelness by means of other tools, so that operation difficulty and time are increased. The construction cost increases. The lack of a horizontal measuring device increases the cost of manpower, material resources, time and the like required by construction, and brings unnecessary economic burden to projects.

Disclosure of utility model

The technical problem to be solved by the utility model is to overcome the technical defects and provide a building design measuring device.

In order to solve the problems, the technical scheme of the utility model is as follows: the building design measuring device comprises a measuring device body, wherein the measuring device body comprises a fixed plate, a supporting device, a horizontal measuring device, a fixed bolt and a rotating mechanism;

further, slewing mechanism is connected to fixed plate below terminal surface, fixed connection between slewing mechanism and the fixed plate, the through-hole has been opened to fixed plate top terminal surface, level measuring device is connected to fixed plate top terminal surface.

Further, the level measuring device comprises a measuring instrument, an ocular, an objective, a level meter, a focusing adjusting knob, a data table, a plate body, a first threaded shaft, a rotating plate, a second threaded shaft, a nut and a threaded hole, wherein the rear end face of the measuring instrument is connected with the ocular, the ocular is fixedly connected with the measuring instrument, the front end face of the measuring instrument is connected with the objective, the objective is fixedly connected with the measuring instrument, the focusing adjusting knob is connected onto the ocular, the end face of one side of the measuring instrument is connected with the data table, and the data table is fixedly connected with the measuring instrument.

Further, the measuring apparatu below terminal surface connecting plate body, fixed connection between plate body and the measuring apparatu, the spirit level is connected to plate body top terminal surface, fixed connection between spirit level and the plate body, screw thread axle one is connected to plate body below terminal surface, fixed connection between screw thread axle one and the plate body, the revolving plate is connected to fixed plate top terminal surface, fixed connection between revolving plate and the fixed plate, screw thread axle two is connected to revolving plate top terminal surface, fixed connection between screw thread axle two and the revolving plate, screw thread connection nut between screw thread axle one and the screw thread axle two, screw hole has been opened to revolving plate top terminal surface, connect the gim peg among the screw hole, the gim peg is connected fixed plate and revolving plate.

Further, swing joint strutting arrangement among the slewing mechanism, strutting arrangement includes rotatory bolt, gear one, gear two, threaded rod, slide, spout, connecting rod, anti-skidding supporting head, landing leg, rotatory bolt pierces through the landing leg, rotatory bolt one end fixed connection gear one, the inside up and down terminal surface of threaded rod upper and lower extreme swing joint landing leg, fixed connection gear two on the threaded rod, meshing connection between gear one and the gear two, the inside both sides terminal surface of landing leg is opened there is the spout, threaded connection slide in the threaded rod, sliding connection between slide and the spout, slide below terminal surface fixed connection connecting rod, the connecting rod pierces through landing leg below terminal surface, connecting rod lower extreme fixed connection anti-skidding supporting head.

Compared with the prior art, the utility model has the advantages that:

1. The building design measuring device has the advantages that the measuring device rotating device is arranged, so that the measuring range is enlarged: the measurer rotating device can rotate the measurer in the horizontal direction, so that the measuring range is enlarged. Whether the external dimensions of the building or the internal space, more comprehensive data can be obtained by rotating the gauge. Measurement accuracy is improved: by rotation of the measurer, an optimal measurement angle can be selected so that the measurement result is more accurate. The measuring position and angle can be flexibly adjusted according to actual conditions without being limited by angle limitation, measuring errors are reduced, and measuring precision is improved. Convenient operation: the measurer rotating device enables the measuring process to be more convenient. The operator can adjust the direction of the measurer by controlling the rotating device without frequently moving and adjusting the measuring device. This saves measurement time and labor costs, and improves measurement efficiency.

2. The building design measuring device has the advantages that the horizontal measuring device is arranged, so that the construction efficiency is improved: the horizontal measuring device can help constructors to quickly and accurately adjust the working position and levelness, and deviation and errors in the construction process are avoided. This helps to improve the efficiency and quality of construction, reducing the need for adjustment and rework. And the construction risk is reduced: the lack of level measurement devices can lead to unstable building structures, presenting potential safety risks to workers and users. The horizontal measuring device can timely find and adjust deviation in construction, reduce construction risk and ensure safety of a building.

Drawings

Fig. 1 is a perspective view of a building design measuring apparatus of the present utility model.

Fig. 2 is a perspective view of a level measuring device of the architectural design measuring device of the present utility model.

Fig. 3 is a perspective view of a fixing plate of the architectural design measuring device of the present utility model.

Fig. 4 is a cross-sectional view of a support device for a building design measuring device of the present utility model.

As shown in the figure: 1. a measuring device body; 2. a fixing plate; 3. a support device; 301. a rotation bolt; 302. a first gear; 303. a second gear; 304. a threaded rod; 305. a slide plate; 306. a chute; 307. a connecting rod; 308. an anti-slip support head; 309. a support leg; 4. a level measuring device; 401. a measuring instrument; 402. an eyepiece; 403. an objective lens; 404. a level gauge; 405. a focus adjustment knob; 406. a data station; 407. a plate body; 408. a first threaded shaft; 409. a rotating plate; 4010. a threaded shaft II; 4011. a nut; 4012. a threaded hole; 5. a fixing bolt; 6. and a rotating mechanism.

Detailed Description

Specific embodiments of the present utility model will be further described below with reference to the accompanying drawings. Wherein like parts are designated by like reference numerals.

It should be noted that the words "front", "rear", "left", "right", "upper" and "lower" used in the following description refer to directions in the drawings, and the words "inner" and "outer" refer to directions toward or away from, respectively, the geometric center of a particular component.

In order to make the contents of the present utility model more clearly understood, the technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model.

As shown in fig. 1 to 4, the technical scheme of the present utility model is as follows: the building design measuring device comprises a measuring device body 1, wherein the measuring device body 1 comprises a fixed plate 2, a supporting device 3, a horizontal measuring device 4, a fixed bolt 5 and a rotating mechanism 6;

As shown in fig. 1 to 4, the lower end surface of the fixed plate 2 is connected with a rotating mechanism 6, the rotating mechanism 6 is fixedly connected with the fixed plate 2, a through hole is formed in the upper end surface of the fixed plate 2, and the upper end surface of the fixed plate 2 is connected with a level measuring device 4.

As shown in fig. 1 to 4, the leveling device 4 includes a measuring instrument 401, an eyepiece 402, an objective 403, a level meter 404, a focus adjusting knob 405, a data table 406, a plate 407, a first threaded shaft 408, a rotating plate 409, a second threaded shaft 4010, a nut 4011, and a threaded hole 4012, wherein a rear end surface of the measuring instrument 401 is connected with the eyepiece 402, the eyepiece 402 is fixedly connected with the measuring instrument 401, a front end surface of the measuring instrument 401 is connected with the objective 403, the objective 403 is fixedly connected with the measuring instrument 401, a side end surface of the measuring instrument 401 is connected with the data table 406, the data table 406 is fixedly connected with the measuring instrument 401, the focus adjusting knob 405 is matched with the objective 403 to perform observation measurement, and focal length adjustment between the eyepiece 402 and the objective 403 can be adjusted.

As shown in fig. 1 to 4, the lower end surface of the measuring apparatus 401 is connected with the plate body 407, the upper end surface of the plate body 407 is connected with the level meter 404, the level meter 404 is fixedly connected with the plate body 407, the lower end surface of the plate body 407 is connected with the first threaded shaft 408, the first threaded shaft 408 is fixedly connected with the plate body 407, the upper end surface of the fixed plate 2 is connected with the rotating plate 409, the rotating plate 409 is fixedly connected with the fixed plate 2, the upper end surface of the rotating plate 409 is connected with the second threaded shaft 4010, the second threaded shaft 4010 is fixedly connected with the rotating plate 409, a nut 4011 is connected between the first threaded shaft 408 and the second threaded shaft 4010, a threaded hole 4012 is formed in the upper end surface of the rotating plate 409, a fixing bolt 5 is connected with the fixed plate 2 in the threaded hole 4012, the level meter 404 can be horizontally observed, the first threaded shaft 408 and the second threaded shaft 4010 can be adjusted through the nut 1, and the level of the second threaded shaft 4010 can be adjusted, and the level meter can be prevented from falling off from the fixed plate 2 through the fixing bolt 4014.

As shown in fig. 1 to 4, the supporting device 3 is movably connected to the rotating mechanism 6, the supporting device 3 includes a rotation bolt 301, a first gear 302, a second gear 303, a threaded rod 304, a sliding plate 305, a chute 306, a connecting rod 307, an anti-slip supporting head 308, and a supporting leg 309, the rotation bolt 301 penetrates the supporting leg 309, one end of the rotation bolt 301 is fixedly connected to the first gear 302, the upper and lower ends of the threaded rod 304 are movably connected to the upper and lower end surfaces of the supporting leg 309, the threaded rod 304 is fixedly connected to the second gear 303, the first gear 302 is in meshed connection with the second gear 303, the two end surfaces of the inner portion of the supporting leg 309 are provided with a chute 306, the threaded rod 304 is in threaded connection with the sliding plate 305, the sliding plate 305 is in sliding connection with the chute 306, the lower end surface of the sliding plate 305 is fixedly connected with the connecting rod 307, the lower end surface of the connecting rod 307 penetrates the lower end surface of the supporting leg 309, the lower end of the connecting rod 307 is fixedly connected with the anti-slip supporting head 308, the rotation bolt 301 drives the threaded rod 304 to rotate through the first gear 302 and the second gear 303, the sliding rod 304 drives the threaded rod 304 to move up and down, and the sliding plate 304 drives the anti-slip supporting head 308 to stretch.

In specific use, the supporting device 3 is placed at a proper position, the supporting legs 309 are spread to support, then the leveling device 4 is placed on the fixed plate 2, then the fixed bolt 5 is used for fixing the rotating plate 409 from the fixed plate, then whether the level meter 404 is horizontal or not is observed, under the condition of large amplitude, the rotating bolt 301 is rotated to drive the anti-slip supporting head 308 to lift for large-angle adjustment, then the rotating nut 4011 is used for small-angle adjustment, then the user eyes are placed in front of the ocular 402 to observe through the objective lens 403, then the focusing adjustment knob 405 is rotated for focal length adjustment, and then the data recording is carried out through the observation data table 406.

The utility model and its embodiments have been described above with no limitation, and the actual construction is not limited to the embodiments of the utility model as shown in the drawings. In summary, if one of ordinary skill in the art is informed by this disclosure, a structural manner and an embodiment similar to the technical solution should not be creatively devised without departing from the gist of the present utility model.

Claims (4)

1. A building design measuring device, characterized in that: the measuring device comprises a measuring device body (1), wherein the measuring device body (1) comprises a fixed plate (2), a supporting device (3), a horizontal measuring device (4), a fixed bolt (5) and a rotating mechanism (6);

The horizontal measuring device is characterized in that a rotating mechanism (6) is connected to the end face below the fixed plate (2), the rotating mechanism (6) is fixedly connected with the fixed plate (2), a through hole is formed in the end face above the fixed plate (2), and the end face above the fixed plate (2) is connected with the horizontal measuring device (4).

2. A building design measurement apparatus according to claim 1, wherein: the level measuring device (4) comprises a measuring instrument (401), an ocular (402), an objective (403), a level meter (404), a focusing adjusting knob (405), a data table (406), a plate body (407), a first threaded shaft (408), a rotating plate (409), a second threaded shaft (4010), a nut (4011) and a threaded hole (4012), wherein the rear end face of the measuring instrument (401) is connected with the ocular (402), the ocular (402) is fixedly connected with the measuring instrument (401), the front end face of the measuring instrument (401) is connected with the objective (403), the objective (403) is fixedly connected with the measuring instrument (401), the focusing adjusting knob (405) is connected onto the ocular (402), one side end face of the measuring instrument (401) is connected with the data table (406), and the data table (406) is fixedly connected with the measuring instrument (401).

3. A building design measurement apparatus according to claim 2, wherein: the measuring instrument comprises a measuring instrument body (401), wherein a connecting plate body (407) is arranged on the lower end face of the measuring instrument body (401), the connecting plate body (407) is fixedly connected with the measuring instrument body (401), a level meter (404) is connected to the upper end face of the connecting plate body (407), a first threaded shaft (408) is connected to the lower end face of the connecting plate body (407), a rotating plate (409) is connected to the upper end face of a fixed plate (2), a second threaded shaft (4010) is connected to the upper end face of the rotating plate (409), a nut (4011) is connected between the first threaded shaft (408) and the second threaded shaft (4010), a threaded hole (4012) is formed in the upper end face of the rotating plate (409), a fixing bolt (5) is connected to the middle of the threaded hole (4012), and the fixing bolt (5) is connected to the rotating plate (409).

4. A building design measurement apparatus according to claim 1, wherein: swing joint strutting arrangement (3) among slewing mechanism (6), strutting arrangement (3) include rotatory bolt (301), first gear (302), second gear (303), threaded rod (304), slide (305), spout (306), connecting rod (307), antiskid supporting head (308), landing leg (309), rotatory bolt (301) pass through landing leg (309), rotatory bolt (301) one end fixed connection first gear (302), upper and lower end swing joint landing leg (309) inside up-down terminal surface on threaded rod (304), fixed connection second gear (303) on threaded rod (304), meshing connection between first gear (302) and second gear (303), open on the inside both sides terminal surface of landing leg (309) has spout (306), threaded connection slide (305) in threaded rod (304), sliding connection between slide (305) and spout (306), connecting rod (307) are connected to terminal surface fixed below slide (307), connecting rod (307) landing leg (309) lower terminal surface, connecting rod (307) lower extreme fixed connection antiskid supporting head (308).