CN115435751A - Building engineering safety monitoring supervision device - Google Patents
Building engineering safety monitoring supervision device Download PDFInfo
- Publication number
- CN115435751A CN115435751A CN202211065638.4A CN202211065638A CN115435751A CN 115435751 A CN115435751 A CN 115435751A CN 202211065638 A CN202211065638 A CN 202211065638A CN 115435751 A CN115435751 A CN 115435751A
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- Prior art keywords
- rod
- annular ring
- seat
- rotating shaft
- ring table
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Classifications
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01C—MEASURING DISTANCES, LEVELS OR BEARINGS; SURVEYING; NAVIGATION; GYROSCOPIC INSTRUMENTS; PHOTOGRAMMETRY OR VIDEOGRAMMETRY
- G01C9/00—Measuring inclination, e.g. by clinometers, by levels
-
- G—PHYSICS
- G01—MEASURING; TESTING
- G01C—MEASURING DISTANCES, LEVELS OR BEARINGS; SURVEYING; NAVIGATION; GYROSCOPIC INSTRUMENTS; PHOTOGRAMMETRY OR VIDEOGRAMMETRY
- G01C9/00—Measuring inclination, e.g. by clinometers, by levels
- G01C9/02—Details
Abstract
The invention discloses a building engineering safety monitoring and supervising device, wherein when the device is used, the bottom of the device is fixed at a reserved monitoring point, at the moment, the real-time monitoring of the house inclination is realized through a plurality of groups of laser ranging assemblies, when the monitoring is carried out, the real-time monitoring of the house inclination is determined by comparing initial monitoring data and real-time data of the plurality of groups of laser ranging assemblies, when the device is actually used, a gravity falling lead seat is positioned under a first annular ring platform, a first rotating shaft rod and a second rotating shaft rod are distributed in a staggered rotating structure, the second rotating shaft rod and a third rotating shaft rod are distributed in a cross-shaped structure in a rotating manner, and through the gravity limiting of the gravity falling lead seat and the matching of the structures, the installation supporting cross arm rod at the top of a positioning bottom ball seat assembly is in a stable longitudinal structure, and at the moment, when the installation supporting cross arm rod is in building construction, the installation supporting cross arm rod is always in a stable structure which is inconvenient in the longitudinal position when the installation supporting cross arm rod vibrates and meets the building site.
Description
Technical Field
The invention belongs to the technical field of constructional engineering, and particularly relates to a constructional engineering safety monitoring and supervising device.
Background
The building engineering is a part of construction engineering, and refers to an engineering entity formed by the construction of various house buildings and their auxiliary facilities and the installation activities of lines, pipelines and equipment matched with the house buildings, including factory buildings, theaters, hotels, shops, schools, hospitals, houses and the like, and meets the requirements of people on production, living, learning, public activities and the like.
The prior art has the following problems: when the building construction, the construction can produce vibrations, in the certain extent of job site, probably cause peripheral house to produce inhomogeneous settlement, the infiltration appears, the house slope, structural damage etc. even, to the monitoring that damages appears in the peripheral house that arouses because the construction, need carry out real-time supervision, the house slope monitoring is important construction safety monitoring standard, but lack the building engineering safety house slope monitoring supervision device of the dismouting of facilitating the use and being convenient for, be unfavorable for the actual real-time supervision to the house gradient.
Disclosure of Invention
To solve the problems set forth in the background art described above. The invention provides a building engineering safety monitoring and supervising device which has the characteristics of convenience in use and disassembly and assembly.
In order to achieve the purpose, the invention provides the following technical scheme: a building engineering safety monitoring and supervising device comprises a positioning bottom ball seat assembly, wherein the positioning bottom ball seat assembly is rotatably arranged at the top of a fixed support frame assembly, the bottom of the fixed support frame assembly is fixedly arranged at a building engineering monitoring point, and a plurality of groups of laser ranging assemblies are arranged above the positioning bottom ball seat assembly;
the positioning bottom ball seat assembly comprises a positioning bottom ball head, the bottom of the positioning bottom ball head is fixedly provided with a gravity falling lead seat through a ball head bottom rod, the top of the positioning bottom ball head is fixedly provided with an installation supporting cross arm rod through a ball head ejector rod, the installation supporting cross arm rod is provided with a plurality of arm rod installation seat stands, the inner mounting seat groove is formed in the arm rod mounting seat platform, the two sides of the top of the arm rod mounting seat platform are provided with jacking buckle plates in a rotating mode, a jacking spring is arranged between the bottom of each jacking buckle plate and the corresponding arm rod mounting seat platform, and a third rotating shaft rod is arranged on the positioning bottom ball head.
Preferably, the fixed support frame assembly comprises a first annular ring table, a U-shaped support frame rod is arranged on the outer side of the first annular ring table, a support base bottom frame rod is arranged at the bottom of the U-shaped support frame rod, a base frame rod fixed bottom table is arranged at the bottom of the support base bottom frame rod, a fixed waist hole is formed in the base frame rod fixed bottom table, a second annular ring table is arranged on the inner side of the first annular ring table through a rotating inner shaft hole and a first rotating shaft rod in a rotating mode, and a third annular ring table is arranged on the inner side of the second annular ring table through a rotating inner shaft hole and a second rotating shaft rod in a rotating mode;
the laser range finding subassembly includes the laser range finding probe, the fixed connection sill bar spacing dish that is provided with of sill bar is connected through the range finding probe in laser range finding probe bottom, connect the fixed spacing dish bottom of sill bar and install the socket pole of being provided with of sill bar spacing dish.
Preferably, the top of the jacking buckle plate is downwards buckled and pressed through the jacking of the jacking spring, the limiting disc installation socket rod is installed and inserted into an installation inner seat groove formed in the arm rod installation seat platform, and the limiting disc installation socket rod and the installation inner seat groove are of square structures matched in structure.
Preferably, the bottom rod connecting limiting disc abuts against the base body on the top end face of the arm rod mounting base table, and the top of the top pressure buckle plate is buckled and pressed on the base body on the top end face of the bottom rod connecting limiting disc.
Preferably, the location bottom ball head rotates through the cooperation of third rotation axostylus axostyle and rotation inner shaft hole and sets up in third ring type platform, second ring type platform rotates and sets up in third ring type platform outsidely, and second ring type platform rotates and sets up inside first ring type platform, gravity weighs down the lead seat and is located under first ring type platform.
Preferably, be dislocation rotating-structure distribution between first rotation axostylus axostyle and the second rotation axostylus axostyle, second rotation axostylus axostyle and third rotation axostylus axostyle are cross structure and rotate and distribute, all be provided with on first annular type platform, second annular type platform and the third annular type platform inside wall and rotate the interior shaft hole.
Preferably, the mounting and supporting cross arm rod at the top of the positioning base ball seat assembly is in a stable longitudinal structure through the rotation fit of the first rotating shaft rod, the second rotating shaft rod and the third rotating shaft rod and the limitation of the gravity falling of the lead seat.
Preferably, the bottom of the fixed support frame component is fixedly arranged on a monitoring point position of the construction of the building engineering through a fastening bolt and a fixed waist hole on a fixed base platform of the underframe rod.
Compared with the prior art, the invention has the beneficial effects that:
(1) The bottom of the device is fixed at a reserved monitoring point, real-time monitoring of the house inclination is realized through the multiple groups of laser ranging assemblies, and during monitoring, real-time monitoring of the house inclination is determined by comparing initial monitoring data and real-time data of the multiple groups of laser ranging assemblies;
(2) According to the invention, the positioning bottom ball socket assembly is rotatably arranged at the top of the fixed support frame assembly, the gravity falling lead socket is positioned under the first annular ring platform, the first rotating shaft rod and the second rotating shaft rod are distributed in a staggered rotating structure, and the second rotating shaft rod and the third rotating shaft rod are distributed in a cross-shaped rotating structure, so that the mounting and supporting cross arm rod at the top of the positioning bottom ball socket assembly is in a stable longitudinal structure, and at the moment, when the mounting and supporting cross arm rod is in building construction, the mounting and supporting cross arm rod is always in a stable structure with unchanged longitudinal position when meeting wave and vibration of a building site, so that the monitoring position of the laser ranging assembly is always in a structure with unchanged longitudinal position, and the monitoring position cannot be changed even if the monitoring position is affected by the building construction;
(3) When the laser ranging assembly and the positioning bottom ball seat assembly are used in a matched mode, the limiting disc installing seat rod is installed and inserted into the installing inner seat groove in the arm rod installing seat platform, the limiting disc installing seat rod and the installing inner seat groove are of square structures matched in structure, the connecting bottom rod limiting disc abuts against the seat body on the top end face of the arm rod installing seat platform, and the top of the jacking buckle plate is buckled and pressed on the seat body on the top end face of the connecting bottom rod limiting disc.
Drawings
FIG. 1 is a perspective view of the present invention;
FIG. 2 is a perspective view from another perspective of the present invention;
FIG. 3 is an exploded view of the present invention;
FIG. 4 is a perspective view of a fixed base ball seat assembly of the present invention;
FIG. 5 is an exploded view of the stationary support bracket assembly of the present invention;
FIG. 6 is a perspective view of a laser ranging assembly of the present invention;
in the figure: 100. a ball-bottom positioning seat assembly; 101. positioning a bottom ball head; 102. a ball-end bottom rod; 103. dropping a lead base by gravity; 104. a third rotating shaft; 105. a ball head ejector rod; 106. mounting a supporting cross arm rod; 107. an arm lever mounting base; 108. mounting an inner seat groove; 109. pressing the buckle plate; 110. a pushing spring; 200. fixing the support frame assembly; 201. a first annular ring table; 202. a U-shaped support frame rod; 203. a support base chassis bar; 204. the bottom frame rod is fixed on the bottom platform; 205. fixing waist holes; 206. a first rotating shaft; 207. a second annular ring table; 208. a second rotating shaft; 209. a third annular ring table; 210. rotating the inner shaft hole; 300. a laser ranging assembly; 301. a laser ranging probe; 302. the distance measuring probe is connected with the bottom rod; 303. the bottom rod limiting disc is connected; 304. the limiting disc is arranged on the socket rod.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.
Referring to fig. 1-6, the present invention provides the following technical solutions: a building engineering safety monitoring and supervision device comprises a positioning bottom ball seat assembly 100, wherein the positioning bottom ball seat assembly 100 is rotatably arranged at the top of a fixed support frame assembly 200, the bottom of the fixed support frame assembly 200 is fixedly arranged at a building engineering monitoring point, and a plurality of groups of laser ranging assemblies 300 are arranged above the positioning bottom ball seat assembly 100;
In this embodiment, preferably, the fixing support frame assembly 200 includes a first annular ring table 201, a U-shaped support frame rod 202 is disposed outside the first annular ring table 201, a support base frame rod 203 is disposed at the bottom of the U-shaped support frame rod 202, a base frame rod fixing base table 204 is disposed at the bottom of the support base frame rod 203, a fixing waist hole 205 is disposed on the base frame rod fixing base table 204, a second annular ring table 207 is rotatably disposed inside the first annular ring table 201 through a rotating inner shaft hole 210 and a first rotating shaft rod 206, and a third annular ring table 209 is rotatably disposed inside the second annular ring table 207 through a rotating inner shaft hole 210 and a second rotating shaft rod 208;
In this embodiment, preferably, the top of the top pressure buckle plate 109 is buckled downward by pushing of the pushing spring 110, the limiting disc installation socket rod 304 is installed and inserted into the installation inner seat groove 108 on the arm rod installation seat table 107, and the limiting disc installation socket rod 304 and the installation inner seat groove 108 are arranged to be of square structures with matched structures.
In this embodiment, preferably, the bottom rod limiting disc 303 abuts against the seat body on the top end surface of the arm lever mounting seat table 107, and the top of the top pressure buckle plate 109 is buckled on the table body on the top end surface of the bottom rod limiting disc 303.
In this embodiment, preferably, the positioning bottom ball head 101 is rotatably disposed in the third annular ring table 209 through the cooperation of the third rotating shaft 104 and the rotating inner shaft hole 210, the second annular ring table 207 is rotatably disposed outside the third annular ring table 209, the second annular ring table 207 is rotatably disposed inside the first annular ring table 201, and the gravity dropping lead seat 103 is located right below the first annular ring table 201.
In this embodiment, preferably, the first rotating shaft 206 and the second rotating shaft 208 are distributed in a staggered rotating structure, the second rotating shaft 208 and the third rotating shaft 104 are distributed in a cross-shaped rotating structure, and rotating inner shaft holes 210 are formed in inner side walls of the first annular ring table 201, the second annular ring table 207 and the third annular ring table 209.
In this embodiment, the mounting support cross arm 106 at the top of the bottom ball seat assembly 100 is preferably positioned in a stable longitudinal configuration by the rotational fit of the first, second and third pivot shafts 206, 208, 104 and the constraint of the gravity drop lead seat 103 dropping.
In this embodiment, preferably, the bottom of the fixed support frame assembly 200 is fixedly mounted on the monitoring point of construction of a building engineering construction through fastening bolts and the fixed waist holes 205 on the fixed base 204 of the underframe rods.
The laser ranging probe 301 of the present invention is a known technology widely used in daily life and disclosed, and its model number is KL200.
The working principle and the using process of the invention are as follows: when the device is used, the bottom of the fixed support frame component 200 is fixedly arranged on a monitoring point position of building engineering construction through a fastening bolt and a fixed waist hole 205 on a fixed base 204 of the underframe rod, the bottom of the device is fixed on a reserved monitoring point position through the arrangement, at the moment, the real-time monitoring of the house inclination is realized through the multiple groups of laser ranging components 300, and during the monitoring, the real-time monitoring of the house inclination is determined by comparing initial monitoring data and real-time data of the multiple groups of laser ranging components 300;
during actual use, the positioning bottom ball seat assembly 100 is rotatably arranged at the top of the fixed support frame assembly 200, the positioning bottom ball head 101 is rotatably arranged in a third annular ring table 209 through the matching of a third rotating shaft rod 104 and a rotating inner shaft hole 210, the second annular ring table 207 is rotatably arranged outside the third annular ring table 209, the second annular ring table 207 is rotatably arranged inside the first annular ring table 201, the gravity dropping lead seat 103 is positioned under the first annular ring table 201, the first rotating shaft rod 206 and the second rotating shaft rod 208 are distributed in a staggered rotating structure, the second rotating shaft rod 208 and the third rotating shaft rod 104 are rotatably distributed in a cross structure, the rotating inner shaft holes 210 are respectively arranged on the inner side walls of the first annular ring table 201, the second annular ring table 207 and the third annular ring table 209, during actual use, the gravity limiting of the gravity dropping lead seat 103 is matched with the structure, so that the installation supporting transverse arm rod 106 at the top of the positioning bottom ball seat assembly 100 is in a stable longitudinal structure, even if the construction transverse arm rod 106 is in a stable and the construction site, the construction site is inconvenient to monitor the construction site, and the construction site can not always be in which the construction site where the construction site is inconvenient to monitor the construction site, and the longitudinal structure is inconvenient to monitor the construction site;
meanwhile, when the laser ranging assembly 300 is used in cooperation with the positioning bottom ball seat assembly 100, the limiting disc mounting socket rod 304 is mounted and inserted into the mounting inner seat groove 108 formed in the arm rod mounting seat table 107, the limiting disc mounting socket rod 304 and the mounting inner seat groove 108 are arranged to be of a square structure matched in structure, the connecting bottom rod limiting disc 303 abuts against the seat body on the top end face of the arm rod mounting seat table 107, and the top of the jacking buckle plate 109 is buckled and pressed on the seat body on the top end face of the connecting bottom rod limiting disc 303, so that the laser ranging assembly 300 and the positioning bottom ball seat assembly 100 can be conveniently detached.
Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that various changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.
Claims (9)
1. A building engineering safety monitoring supervision device, includes location base ball seat subassembly (100), its characterized in that: the positioning bottom ball seat assembly (100) is rotatably arranged at the top of the fixed support frame assembly (200), the bottom of the fixed support frame assembly (200) is fixedly arranged at a monitoring point of a constructional engineering, and a plurality of groups of laser ranging assemblies (300) are arranged above the positioning bottom ball seat assembly (100);
the positioning base ball seat assembly (100) comprises a positioning base ball head (101), the bottom of the positioning base ball head (101) is fixedly provided with a gravity falling lead seat (103) through a ball head bottom rod (102), and the positioning base ball head (101) is provided with a third rotating shaft rod (104);
the fixed support frame assembly (200) comprises a first annular ring table (201), a second annular ring table (207) is rotatably arranged on the inner side of the first annular ring table (201) through a rotating inner shaft hole (210) and a first rotating shaft rod (206), and a third annular ring table (209) is rotatably arranged on the inner side of the second annular ring table (207) through a rotating inner shaft hole (210) and a second rotating shaft rod (208);
the bottom ball head (101) is arranged in a third annular ring table (209) in a rotating mode through the matching of a third rotating shaft rod (104) and a rotating inner shaft hole (210), the second annular ring table (207) is arranged outside the third annular ring table (209) in a rotating mode, the second annular ring table (207) is arranged inside the first annular ring table (201) in a rotating mode, and the gravity dropping lead seat (103) is located under the first annular ring table (201).
2. The building engineering safety monitoring and supervision device according to claim 1, characterized in that: the novel bearing is characterized in that the first rotating shaft rod (206) and the second rotating shaft rod (208) are distributed in a staggered rotating structure, the second rotating shaft rod (208) and the third rotating shaft rod (104) are distributed in a cross-shaped structure in a rotating mode, and rotating inner shaft holes (210) are formed in the inner side walls of the first annular ring table (201), the second annular ring table (207) and the third annular ring table (209).
3. The building engineering safety monitoring and supervising device according to claim 2, wherein: first ring type ring platform (201) outside is provided with U type support hack lever (202), U type support hack lever (202) bottom is provided with supports base hack lever (203), support base hack lever (203) bottom is provided with base hack lever fixed base platform (204), be provided with fixed waist hole (205) on base hack lever fixed base platform (204).
4. A construction engineering safety monitoring and supervision device according to claim 3, characterized in that: the bottom of the fixed support frame assembly (200) is fixedly installed on a monitoring point position of the construction of the building engineering through a fastening bolt and a fixed waist hole (205) on a fixed base platform (204) of the underframe rod.
5. The building engineering safety monitoring and supervision device according to claim 1 or 4, characterized in that: the locating bottom ball head (101) top is fixedly provided with an installation supporting cross arm rod (106) through a ball head ejector rod (105), the installation supporting cross arm rod (106) is provided with a plurality of arm rod installation seat platforms (107), an installation inner seat groove (108) is formed in the arm rod installation seat platform (107), the two sides of the top of the arm rod installation seat platform (107) are provided with jacking buckle plates (109) in a rotating mode, and jacking springs (110) are arranged between the bottoms of the jacking buckle plates (109) and the arm rod installation seat platform (107).
6. The building engineering safety monitoring and supervising device according to claim 5, wherein: laser rangefinder subassembly (300) are including laser rangefinder probe (301), laser rangefinder probe (301) bottom is connected sill bar (302) through the range finding probe and is fixed to be provided with and connects sill bar spacing dish (303), connect sill bar spacing dish (303) bottom and fix and be provided with spacing dish and install socket-pole (304).
7. The building engineering safety monitoring and supervising device according to claim 6, wherein: through the pushing of the pushing spring (110), the top of the pushing and pressing buckle plate (109) is buckled and pressed downwards, the limiting disc installation socket rod (304) is installed and inserted into an installation inner seat groove (108) formed in the arm rod installation seat platform (107), and the limiting disc installation socket rod (304) and the installation inner seat groove (108) are of square structures matched in structure.
8. The building engineering safety monitoring and supervision device according to claim 7, characterized in that: the connecting bottom rod limiting disc (303) is abutted against a seat body on the top end face of the arm rod mounting seat platform (107), and the top of the jacking buckle plate (109) is buckled and pressed on the seat body on the top end face of the connecting bottom rod limiting disc (303).
9. The building engineering safety monitoring and supervising device according to claim 8, wherein: the mounting and supporting cross arm rod (106) at the top of the positioning bottom ball seat assembly (100) is in a stable longitudinal structure through the rotation fit of the first rotating shaft rod (206), the second rotating shaft rod (208) and the third rotating shaft rod (104) and the limitation of gravity falling of the lead seat (103).
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CN202211065638.4A CN115435751A (en) | 2022-09-01 | 2022-09-01 | Building engineering safety monitoring supervision device |
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CN202211065638.4A CN115435751A (en) | 2022-09-01 | 2022-09-01 | Building engineering safety monitoring supervision device |
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