CN115183091B - Digital building survey and drawing auxiliary device based on BIM - Google Patents

Abstract

The invention discloses a digital building mapping auxiliary device based on BIM, and belongs to the technical field of mapping auxiliary devices. Digital building survey and drawing auxiliary device based on BIM includes: a support base; the upper support seat is connected with the support base through a support rod; the hemispherical base is connected to the support upper seat; wherein, the hemispherical base is detachably connected with a surveying instrument; the vertical rod is detachably connected to the hemispherical base; the counterweight iron ball is connected to the vertical rod through threads; the magnet piece is connected in the support base in a sliding way and magnetically attracts the counterweight iron ball; an elastic pull rope; according to the invention, through the counterweight iron ball, the surveying instrument on the hemispherical base is convenient to rapidly level, the detection efficiency is improved, the magnet piece is arranged, the stabilization effect of the hemispherical base can be improved, and meanwhile, the support rod, the vertical rod and the counterweight iron ball can be detachably arranged, so that the surveying instrument is convenient to assemble and disassemble, the surveying instrument is convenient to carry, and the detection efficiency is improved.

Description

Digital building survey and drawing auxiliary device based on BIM

Technical Field

The invention relates to the technical field of surveying and mapping auxiliary devices, in particular to a digital building surveying and mapping auxiliary device based on BIM.

Background

IM refers to a building information model, BIM technology is a data tool applied to engineering design, construction and management, and by using the tool, all parties such as design team, construction unit, operation departments and owners can effectively cooperate to improve the working efficiency, meanwhile, resources are saved and the cost is reduced;

the digital building engineering surveying and mapping device based on BIM is often provided with auxiliary device, but when the digital building engineering surveying and mapping auxiliary device based on BIM is used, because the ground is uneven, the digital building engineering surveying and mapping device is often required to be manually supported, the stability is poor, the leveling efficiency is slow, and the operation is inconvenient.

Disclosure of Invention

The invention aims to solve the problems that the existing digital building engineering mapping auxiliary device based on BIM is prone to being manually supported due to uneven ground, poor in stability, low in leveling efficiency and inconvenient to operate.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

digital building survey and drawing auxiliary device based on BIM includes: a support base; the upper support seat is connected with the support base through a support rod; the hemispherical base is connected to the support upper seat; wherein, the hemispherical base is detachably connected with a surveying instrument; the vertical rod is detachably connected to the hemispherical base; the counterweight iron ball is connected to the vertical rod through threads; the magnet piece is connected in the support base in a sliding way and magnetically attracts the counterweight iron ball; and the two ends of the elastic pull rope are respectively and fixedly connected to the magnet piece and the supporting base.

For be convenient for the surveying instrument to fix, preferably, sliding connection has spacing inserted bar on the hemisphere base, fixedly connected with connecting rod on the surveying instrument, the connecting rod is pegged graft on the hemisphere base, be equipped with on the connecting rod with spacing inserted bar assorted spacing jack, be equipped with the magnet on the support base and go up the air cavity, the magnet is gone up the air cavity and is located the upper end of magnet spare, the magnet is gone up the air cavity and is used for driving spacing inserted bar and get into spacing jack.

In order to facilitate driving of the limiting inserted link, preferably, the supporting rod is provided with a supporting connecting hole communicated with the upper air cavity of the magnet, the hemispherical base is provided with a limiting pipe matched with the limiting inserted link, and the upper supporting base is provided with a middle rotating piece matched with the connecting hole and used for communicating the limiting pipe.

In order to improve the fixing effect of the hemispherical base, preferably, the upper support seat is slidably connected with a pressing rod piece, the upper support seat is provided with a pressing rod cavity, a rubber plate is slidably connected in the pressing rod cavity, the rubber plate is matched with the pressing rod piece, a pressing rod spring is sleeved on the rubber plate, and two ends of the pressing rod spring are fixedly connected to the rubber plate and the upper support seat respectively.

In order to facilitate driving of the rubber sheet, preferably, the intermediate member includes: an adjusting slide block in sliding connection with the supporting upper seat; the support upper seat is provided with a left adjusting cavity and a right adjusting cavity at two sides of the adjusting slide block, and the left adjusting cavity is communicated with the support connecting hole and the limiting pipe; the two ends of the compression bar connecting pipe are respectively communicated with the compression bar cavity and the right adjusting cavity; and the two ends of the adjusting spring are respectively and fixedly connected to the adjusting sliding block and the supporting upper seat.

In order to facilitate the adjustment of the distance between the support base and the support upper seat, preferably, the support rods are connected with the support base and the support upper seat through threads, the support rods are provided with a plurality of groups, and two adjacent groups of support rods are connected through threads.

In order to facilitate carrying of the counterweight iron ball, preferably, the vertical rod is provided with a counterweight port, a counterweight cavity is arranged in the counterweight iron ball, and the counterweight cavity is communicated with the counterweight port.

In order to prevent the inner wall of the counterweight iron ball from being corroded, preferably, an isolation plate is fixedly connected to the inner wall of the counterweight cavity.

In order to improve stability of the support base, preferably, a side liquid storage cavity is fixedly connected to the side edge of the support base, and a liquid inlet is formed in the upper end of the side liquid storage cavity.

In order to facilitate the discharge of the liquid, preferably, a lower liquid storage cavity is fixedly connected to the support base, the lower liquid storage cavity is positioned at the lower end of the magnet piece, and the lower liquid storage cavity is communicated with the side liquid storage cavity; the lower end of the lower liquid storage cavity is provided with a liquid outlet, and an opening and closing plug is connected with the liquid outlet through threads.

Compared with the prior art, the invention provides a digital building mapping auxiliary device based on BIM, which has the following beneficial effects:

the device does not relate to the parts which are the same as or can be realized by adopting the prior art, the invention is convenient for the surveying instrument on the hemispherical base to be rapidly leveled by the counterweight iron ball, improves the detection efficiency, and the magnet piece is arranged, so that the stabilization effect of the hemispherical base can be improved, and meanwhile, the support rod, the vertical rod and the counterweight iron ball can be detachably arranged, so that the device is convenient to assemble and disassemble, is convenient to carry the surveying instrument, and improves the detection efficiency.

Drawings

FIG. 1 is a schematic diagram of a digital building mapping auxiliary device based on BIM according to the present invention;

FIG. 2 is a schematic diagram of the structure of part A of FIG. 1 of the BIM-based digitized architectural mapping aid of the present invention;

FIG. 3 is a schematic diagram of the structure of part B of FIG. 1 of the BIM-based digitized architectural mapping aid of the present invention;

FIG. 4 is a schematic diagram of the structure of part C of FIG. 1 of the BIM-based digitized architectural mapping aid of the present invention;

FIG. 5 is a schematic top view of a digital building mapping auxiliary device based on BIM according to the present invention;

fig. 6 is a schematic structural diagram of a counterweight iron ball of the BIM-based digitized building mapping auxiliary device provided by the invention.

In the figure: 1. a support base; 101. a side reservoir; 102. a liquid inlet; 2. a magnet member; 201. an elastic pull rope; 202. an air cavity on the magnet; 203. a lower reservoir; 204. a liquid outlet; 3. a support rod; 301. a support connection hole; 4. supporting an upper seat; 401. a pressing rod piece; 402. a rubber plate; 403. a compression bar spring; 404. a compression bar cavity; 405. a compression bar connecting pipe; 406. an adjusting slide block; 4061. a left adjustment chamber; 4062. a right adjustment chamber; 407. an adjusting spring; 5. a hemispherical base; 501. a limit inserted link; 502. a limiting tube; 6. a mapping instrument; 601. a connecting rod; 602. limiting jack; 7. a vertical rod; 701. a weight port; 702. a counterweight iron ball; 703. a weight cavity; 704. an insulating plate.

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.

In the description of the present invention, it should be understood that the terms "upper," "lower," "front," "rear," "left," "right," "top," "bottom," "inner," "outer," and the like indicate or are based on the orientation or positional relationship shown in the drawings, merely to facilitate description of the present invention and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention.

Example 1:

referring to fig. 1-6, a BIM-based digital building mapping aid comprising: a support base 1; the upper support seat 4 is connected with the support base 1 through a support rod 3; a hemispherical base 5 connected to the support upper base 4; wherein, the hemispherical base 5 is detachably connected with a surveying instrument 6; a vertical rod 7 detachably connected to the hemispherical base 5; a counterweight iron ball 702 which is in threaded connection with the vertical rod 7; the magnet piece 2 is connected in the support base 1 in a sliding manner and magnetically attracts the counterweight iron ball 702; the two ends of the elastic pull rope 201 are respectively and fixedly connected to the magnet piece 2 and the supporting base 1;

when the device is used, the upper end of the vertical rod 7 is screwed on the hemispherical base 5, and then the counterweight iron ball 702 is connected with the lower end of the vertical rod 7 in a threaded manner;

and the surveying instrument 6 is arranged on the hemispherical base 5;

at this time, under the gravity action of the counterweight iron ball 702, the vertical rod 7 is vertically downward, so that the center of the hemispherical base 5 is downward, that is, the surveying instrument 6 and the hemispherical base 5 are horizontally arranged, so as to ensure the surveying stability of the surveying instrument 6;

at this time, the counterweight iron ball 702 can be made fast and stable by the set magnet piece 2, and the surveying instrument 6 is made more stable in the detection process by the effect of the magnetic force.

The hemispherical base 5 is slidably connected with a limit inserted rod 501, the surveying instrument 6 is fixedly connected with a connecting rod 601, the connecting rod 601 is inserted into the hemispherical base 5, the connecting rod 601 is provided with a limit jack 602 matched with the limit inserted rod 501, the support base 1 is provided with a magnet upper air cavity 202, the magnet upper air cavity 202 is positioned at the upper end of the magnet piece 2, and the magnet upper air cavity 202 is used for driving the limit inserted rod 501 to enter the limit jack 602;

connecting rod 601 on surveying instrument 6 is inserted into hemispherical base 5, and limit inserting rod 501 is driven to slide at the moment, so that limit inserting rod 501 is inserted into limit inserting hole 602, and connecting rod 601, namely surveying instrument 6, is fixed;

further, in the process that the counterweight iron ball 702 is magnetically attracted to the magnet piece 2, the magnet piece 2 moves upwards to squeeze the gas in the upper magnet air cavity 202, so that the limit plunger 501 is squeezed to slide when the gas in the upper magnet air cavity 202 is discharged.

The support rod 3 is provided with a support connecting hole 301 communicated with the magnet upper air cavity 202, the hemispherical base 5 is provided with a limit pipe 502 matched with the limit inserted rod 501, and the support upper seat 4 is provided with a middle rotating piece matched with the support connecting hole 301 and used for communicating the limit pipe 502;

further, the gas in the upper air cavity 202 of the magnet passes through the supporting connecting hole 301 and the limiting tube 502 to press the limiting plunger 501 to slide.

The upper support seat 4 is connected with a compression bar 401 in a sliding manner, the upper support seat 4 is provided with a compression bar cavity 404, a rubber plate 402 is connected in the compression bar cavity 404 in a sliding manner, the rubber plate 402 is matched with the compression bar 401, a compression bar spring 403 is sleeved on the rubber plate 402, and two ends of the compression bar spring 403 are respectively fixedly connected to the rubber plate 402 and the upper support seat 4;

a spring is arranged between the compression bar 401 and the support upper seat 4, and the compression bar 401 is attached to the hemispherical base 5 under the action of the elasticity of the spring;

when adjusting hemispherical base 5 and remove on supporting seat 4, depression bar spare 401 pastes mutually with hemispherical base 5, and after hemispherical base 5 adjusts the completion, drive rubber slab 402 slides for rubber slab 402 closely pastes mutually with depression bar spare 401, and then carries out spacingly to the position of depression bar spare 401, can restrict hemispherical base 5 and rock this moment, has improved the stability of surveying instrument 6.

The transfer member includes: an adjusting slider 406 slidingly connected in the supporting upper seat 4; wherein, the left adjusting cavity 4061 and the right adjusting cavity 4062 are arranged on the two sides of the adjusting slide block 406 of the supporting upper seat 4, and the left adjusting cavity 4061 is communicated with the supporting connecting hole 301 and the limiting pipe 502; the compression bar connecting pipe 405 is arranged in the support upper seat 4, and two ends of the compression bar connecting pipe 405 are respectively communicated with the compression bar cavity 404 and the right adjusting cavity 4062; the two ends of the adjusting spring 407 are respectively and fixedly connected to the adjusting slide block 406 and the supporting upper seat 4;

when the gas in the upper air cavity 202 of the magnet enters the left adjusting cavity 4061 through the supporting connecting hole 301, the adjusting slide block 406 is extruded to slide, so that the adjusting slide block 406 extrudes the gas in the right adjusting cavity 4062 to enter the pressure rod cavity 404 through the pressure rod connecting pipe 405 to extrude the rubber plate 402 to slide;

when the adjusting slider 406 passes over the limiting tube 502, the supporting connection hole 301 is communicated with the limiting tube 502, so that the limiting plunger 501 is driven conveniently.

The support rods 3 are connected with the support base 1 and the support upper base 4 through threads, the support rods 3 are provided with a plurality of groups, and two adjacent groups of support rods 3 are connected through threads;

through the multiunit bracing piece 3 that set up, be convenient for adjust the interval between support base 1 and the support upper seat 4 for the survey and drawing scope is bigger.

The vertical rod 7 is provided with a counterweight port 701, a counterweight cavity 703 is arranged in the counterweight iron ball 702, the counterweight cavity 703 is communicated with the counterweight port 701, and water can be added into the counterweight cavity 703 of the counterweight iron ball 702 through the counterweight port 701 so as to improve the gravity of the counterweight iron ball 702, and further, the counterweight iron ball 702 is convenient to carry when water is not injected.

An isolation plate 704 is fixedly connected to the inner wall of the counterweight cavity 703, so that the counterweight iron ball 702 can be prevented from being corroded by water.

The side fixedly connected with side stock solution chamber 101 of support base 1, the upper end in side stock solution chamber 101 is equipped with inlet 102, through the water injection in to side stock solution chamber 101, can improve the steady effect to support base 1.

The support base 1 is fixedly connected with a lower liquid storage cavity 203, the lower liquid storage cavity 203 is positioned at the lower end of the magnet piece 2, and the lower liquid storage cavity 203 is communicated with the side liquid storage cavity 101; a liquid outlet 204 is arranged at the lower end of the lower liquid storage cavity 203, and an opening and closing plug is connected at the position of the liquid outlet 204 in a threaded manner;

when the magnet piece 2 moves upwards, the space in the lower liquid storage cavity 203 is increased, and water in the side liquid storage cavity 101 enters the lower liquid storage cavity 203, so that more liquid can be conveniently injected into the side liquid storage cavity 101, and the stability of the support base 1 is further improved;

when the opening and closing plug is opened, the liquid is conveniently discharged.

Example 2:

referring to fig. 1-6, a BIM-based digital building mapping aid is substantially the same as embodiment 1, further:

when the device is used, the upper end of the vertical rod 7 is screwed on the hemispherical base 5, and then the counterweight iron ball 702 is connected with the lower end of the vertical rod 7 in a threaded manner;

connecting rod 601 on surveying instrument 6 is inserted on hemispherical base 5, and limiting inserted rod 501 is driven to slide at the moment, so that limiting inserted rod 501 is inserted in limiting insertion hole 602, and connecting rod 601, namely surveying instrument 6, is fixed;

further, in the process that the counterweight iron ball 702 and the magnet piece 2 are magnetically attracted, the magnet piece 2 moves upwards to squeeze the gas in the upper magnet air cavity 202, so that the gas in the upper magnet air cavity 202 extrudes the limit plug rod 501 to slide through the support connecting hole 301 and the limit pipe 502;

at this time, under the gravity action of the counterweight iron ball 702, the vertical rod 7 is vertically downward, so that the center of the hemispherical base 5 is downward, that is, the surveying instrument 6 and the hemispherical base 5 are horizontally arranged, so as to ensure the surveying stability of the surveying instrument 6;

at this time, the counterweight iron ball 702 can be quickly stabilized by the arranged magnet piece 2, and the surveying instrument 6 is more stable in the detection process by the effect of magnetic force;

when the gas in the upper air cavity 202 of the magnet enters the left adjusting cavity 4061 through the supporting connecting hole 301, the adjusting slide block 406 is extruded to slide, so that the adjusting slide block 406 extrudes the gas in the right adjusting cavity 4062 to enter the pressure rod cavity 404 through the pressure rod connecting pipe 405 to extrude the rubber plate 402 to slide;

when the adjusting slide block 406 passes through the limiting pipe 502, the supporting connecting hole 301 is communicated with the limiting pipe 502, when the hemispherical base 5 is adjusted to move on the supporting upper base 4, the pressure bar piece 401 is attached to the hemispherical base 5, after the hemispherical base 5 is adjusted, the rubber plate 402 is driven to slide, so that the rubber plate 402 is tightly attached to the pressure bar piece 401, and the position of the pressure bar piece 401 is limited, namely the hemispherical base 5 can be limited to shake at the moment, and the stability of the surveying instrument 6 is improved;

according to the invention, through the counterweight iron ball 702, the surveying instrument 6 on the hemispherical base 5 is conveniently and rapidly leveled, the detection efficiency is improved, the magnet piece 2 is arranged, the stabilization effect of the hemispherical base 5 can be improved, and meanwhile, the support rod 3, the vertical rod 7 and the counterweight iron ball 702 are detachably arranged, so that the surveying instrument 6 is conveniently assembled and disassembled, the surveying instrument 6 is conveniently carried, and the detection efficiency is improved.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical scheme of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims (6)

1. Digital building survey and drawing auxiliary device based on BIM, its characterized in that includes:

a support base (1);

the upper support seat (4) is connected with the support base (1) through a support rod (3);

a hemispherical base (5) connected to the support upper base (4);

wherein, the hemispherical base (5) is detachably connected with a surveying instrument (6);

the device is characterized in that a limit inserted rod (501) is connected to the hemispherical base (5) in a sliding manner, a connecting rod (601) is fixedly connected to the surveying instrument (6), the connecting rod (601) is inserted into the hemispherical base (5), a limit jack (602) matched with the limit inserted rod (501) is arranged on the connecting rod (601), a magnet upper air cavity (202) is arranged on the support base (1), the magnet upper air cavity (202) is located at the upper end of the magnet piece (2), and the magnet upper air cavity (202) is used for driving the limit inserted rod (501) to enter the limit jack (602);

the support rod (3) is provided with a support connecting hole (301) communicated with the magnet upper air cavity (202), the hemispherical base (5) is provided with a limit pipe (502) matched with the limit inserted rod (501), and the support upper seat (4) is provided with a transfer piece matched with the support connecting hole (301) and used for communicating the limit pipe (502);

the support upper seat (4) is connected with a compression bar piece (401) in a sliding manner, the support upper seat (4) is provided with a compression bar cavity (404), a rubber plate (402) is connected in the compression bar cavity (404) in a sliding manner, the rubber plate (402) is matched with the compression bar piece (401), the rubber plate (402) is sleeved with a compression bar spring (403), and two ends of the compression bar spring (403) are respectively fixedly connected to the rubber plate (402) and the support upper seat (4);

the transfer piece includes:

an adjusting slide block (406) which is connected in the supporting upper seat (4) in a sliding way;

the support upper seat (4) is provided with a left adjusting cavity (4061) and a right adjusting cavity (4062) at two sides of the adjusting slide block (406), and the left adjusting cavity (4061) is communicated with the support connecting hole (301);

the gas in the upper air cavity (202) of the magnet enters the left adjusting cavity (4061) through the supporting connecting hole (301), the adjusting slide block (406) is extruded to slide, and after the adjusting slide block (406) passes over the limiting pipe (502), the supporting connecting hole (301) is communicated with the limiting pipe (502);

the compression bar connecting pipe (405) is arranged in the support upper seat (4), and two ends of the compression bar connecting pipe (405) are respectively communicated with the compression bar cavity (404) and the right adjusting cavity (4062);

the two ends of the adjusting spring (407) are respectively and fixedly connected to the adjusting slide block (406) and the supporting upper seat (4);

a vertical rod (7) detachably connected to the hemispherical base (5);

a counterweight iron ball (702) is connected to the vertical rod (7) in a threaded manner;

the magnet piece (2) is connected in the support base (1) in a sliding manner and magnetically attracts the counterweight iron ball (702);

and the two ends of the elastic pull rope (201) are respectively and fixedly connected to the magnet piece (2) and the supporting base (1).

2. The digital building mapping auxiliary device based on BIM according to claim 1, wherein the supporting rods (3) are connected with the supporting base (1) and the supporting upper base (4) through threads, the supporting rods (3) are provided with a plurality of groups, and two adjacent groups of the supporting rods (3) are connected through threads.

3. The digital building mapping auxiliary device based on BIM according to claim 1, wherein a weight port (701) is arranged on the vertical rod (7), a weight cavity (703) is arranged in the weight iron ball (702), and the weight cavity (703) is communicated with the weight port (701).

4. A BIM-based digital building mapping aid according to claim 3, wherein an insulating plate (704) is fixedly connected to the inner wall of the counterweight chamber (703).

5. The digital building mapping auxiliary device based on BIM according to claim 1, wherein a side liquid storage cavity (101) is fixedly connected to the side edge of the supporting base (1), and a liquid inlet (102) is formed in the upper end of the side liquid storage cavity (101).

6. The digital building mapping auxiliary device based on BIM according to claim 5, wherein a lower liquid storage cavity (203) is fixedly connected to the supporting base (1), the lower liquid storage cavity (203) is positioned at the lower end of the magnet piece (2), and the lower liquid storage cavity (203) is communicated with the side liquid storage cavity (101);

the lower end of the lower liquid storage cavity (203) is provided with a liquid outlet (204), and the liquid outlet (204) is in threaded connection with an opening and closing plug.

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