CN215180280U - A anemorumbometer for bridge construction monitoring - Google Patents

Abstract

The utility model relates to the technical field of anemorumbometer, and discloses an anemorumbometer for bridge construction monitoring, which comprises a support rod and a support column, wherein a vertical rod is installed at the rod end of the support rod, pedals are installed at two sides of the vertical rod, a connecting block is installed at the bottom end of the vertical rod, rotating shafts are installed at two sides of the connecting block, and an agnail structure is installed on the outer wall of the rotating shaft, lugs are installed at the top surface of the agnail structure at equal intervals, and the bottom surface of the agnail structure is a smooth curved surface structure, the utility model discloses a threaded rod, agnail structure and vertical rod are arranged at the rod end of the support rod, the agnail structure comprises a rotating shaft and a lug, the rod end of the threaded rod is inserted into the soil at the bank of a construction site by rotating, then the vertical rod is pulled reversely, so that the agnail structure is unfolded, the lug is clamped with the surface of the soil, thereby improving the stability of the rod end of the support rod, when the wind power is large, the equipment cannot collapse.

Description

A anemorumbometer for bridge construction monitoring

Technical Field

The utility model belongs to the technical field of anemorumbometer, concretely relates to anemorumbometer for bridge construction monitoring.

Background

The anemoclinograph is very wide in application, not only can provide accurate meteorological data, but also can provide related reference data such as wind speed, is beneficial to data personnel to carry out work operation, and can provide important basis for project engineering in the field of bridge construction.

In the bridge construction, the place of construction is close to the waters more, and soil is moist, and anemorumbometer can't be fixed, when wind-force is great, still appears toppling and collapsing the phenomenon easily, is unfavorable for anemorumbometer's permanent use, still can cause the instrument to damage when serious and bring economic loss.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an anemorumbometer for bridge construction monitoring to solve the soil ratio of the bridge construction place that provides in the above-mentioned background art and moist, anemorumbometer is unable fixed, the phenomenon of collapsing appears easily, causes the instrument to damage, brings economic loss's problem.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides an anemorumbometer for bridge construction monitoring, includes bracing piece and support column, perpendicular pole is installed to the rod end of bracing piece, and the both sides of perpendicular pole all install the running-board, the connecting block is installed to the bottom of perpendicular pole, the inside of connecting block is hollow structure, and the rod end of perpendicular pole runs through to the inside of connecting block, the bottom surface fixedly connected with threaded rod of connecting block, the pivot is all installed to the both sides of connecting block, and the outer wall of pivot installs the barb structure, the lug is installed to the top surface equidistance of barb structure, and the bottom surface of barb structure is glossy curved surface structure.

Preferably, the casing is installed on the top of support column, the shell is installed to the top of casing, and the internally mounted of shell has the dwang, the spring is installed to the top surface of dwang, the top internally mounted of spring has the soft pole, and the top fixedly connected with spheroid of soft pole.

Preferably, the outer wall of the rotating rod is provided with the fan blade, and the fan blade and the rotating rod rotate at the same speed.

Preferably, the outer wall of the support column is provided with a wind vane, and the wind vane rotates around the support column.

Preferably, a fixed block is arranged above the middle upper part of the outer wall surface of the supporting rod, and one side of the fixed block is connected with a handrail.

Preferably, the bottom of support column is provided with the foot rest, and the bottom surface of foot rest bonds and has the disc, the bottom surface of disc bonds with the top of bracing piece.

Compared with the prior art, the beneficial effects of the utility model are that:

(1) the utility model discloses a be provided with threaded rod, barb structure and perpendicular pole at the rod end of bracing piece, the barb structure includes pivot and lug, inserts the rod end of threaded rod in the soil of construction site bank through rotating, then reverse vertical pole of pulling out for the barb structure expandes, and lug and soil surface block have improved the rod end stability of bracing piece, and when wind-force was great, equipment can not take place to collapse yet.

(2) The utility model discloses a be provided with spheroid, soft pole and spring at the rod end of dwang, the spheroid rocks along with the wind direction to the spheroid is red, and it is more convenient to observe, and the inside of spheroid hose is hollow structure, and the material of adoption is low inertia material, can not influence the detection of fan blade, has improved the accuracy of data and the convenience of equipment use.

Drawings

Fig. 1 is a schematic structural view of the present invention;

fig. 2 is a cross-sectional view of the housing of the present invention;

FIG. 3 is a cross-sectional view of the barb structure of the present invention;

FIG. 4 is an enlarged view taken at A in FIG. 2;

FIG. 5 is an enlarged view of FIG. 3 at B;

in the figure: 1-a threaded rod; 101-connecting block; 102-a vertical pole; 2-a barb structure; 21-a rotating shaft; 22-a bump; 3-a foot pedal; 4-a support bar; 5-a handrail; 6-disc; 7-fixing blocks; 8-a foot rest; 9-a support column; 10-wind vane; 11-a housing; 12-fan blades; 13-sphere; 131-a soft rod; 132-a spring; 14-rotating rods; 15-outer shell.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides the following technical solutions: an anemorumbometer for monitoring bridge construction comprises a support rod 4 and a support column 9, wherein a vertical rod 102 is installed at the rod end of the support rod 4, foot pedals 3 are installed on two sides of the vertical rod 102, a connecting block 101 is installed at the bottom end of the vertical rod 102, the inside of the connecting block 101 is of a hollow structure, the rod end of the vertical rod 102 penetrates into the connecting block 101, a threaded rod 1 is fixedly connected to the bottom surface of the connecting block 101, the rod end of the threaded rod 1 is narrow, the length range of the threaded rod 1 is between 10 centimeters and 15 centimeters, so that workers can easily insert into a soil layer, rotating shafts 21 are installed on two sides of the connecting block 101, barb structures 2 are installed on the outer wall of the rotating shafts 21, convex blocks 22 are installed on the top surfaces of the barb structures 2 at equal intervals, the bottom surfaces of the barb structures 2 are of smooth curved surface structures, after the barb structures 2 are inserted into soil, the surfaces of the barb structures 2 are smooth, so make things convenient for the staff to insert soil depths with barb structure 2, insert and pull up to last for barb structure 2 expandes, inside the tip of bracing piece 4 inserted soil firmly, improved the stability of bracing piece 4, when wind-force is great, bracing piece 4 can not fall down yet, barb structure 2 formed for the mould is whole to be cast, then assembles the outer wall surface at connecting block 101 with barb structure 2's one end through connecting elements such as bolt or screw.

Further, casing 11 is installed on the top of support column 9, shell 15 is installed to casing 11's top, and the internally mounted of shell 15 has dwang 14, spring 132 is installed to the top surface of dwang 14, the top internally mounted of spring 132 has soft pole 131, and the top fixedly connected with spheroid 13 of soft pole 131, the diameter size of spheroid 13 is between 8 centimetres to 10 centimetres, the shell scribbles waterproof red paint, and inside is hollow structure, the wall thickness is three millimetres, the inside of soft pole 131 also is hollow structure, adopt the silica gel material, easy emergence deformation under the wind-force effect, and spheroid 13 position is the wind direction, under the windless condition, resume initial condition.

Further, the outer wall of the rotating rod 14 is provided with three fan blades 12, the rotating rod 14 rotates under the action of wind power, and the fan blades 12 and the rotating rod 14 rotate at the same speed.

Furthermore, the outer wall of the supporting column 9 is provided with a wind vane 10, the wind vane 10 rotates around the supporting column 9, the wall thickness of the wind vane 10 is five centimeters, and the wind vane is made of low-inertia metal materials.

Further, fixed block 7 is installed to the middle-upper side on bracing piece 4 outer wall surface, and one side of fixed block 7 is connected with handrail 5, and the outer wall cover of handrail 5 is equipped with rubber materials, avoids appearing the phenomenon of skidding.

Further, the bottom of support column 9 is provided with foot rest 8, and the bottom surface of foot rest 8 bonds and has disc 6, and the bubble is installed to the top surface of disc 6, and after the equipment is fixed to be accomplished, whether the observation bubble is in position placed in the middle, judges whether support column 9 is perpendicular with ground, and the bottom surface of disc 6 bonds with the top of bracing piece 4.

The utility model discloses a theory of operation and use flow: when the utility model is used, a worker holds the handrail 5 with both hands, after a proper geographical position is determined, the threaded rod 1 is inserted into the soil, the handrail 5 is held by hands to rotate the supporting rod 4, the end part of the barb structure 2 is completely inserted into the soil, a reverse pulling force is applied to the supporting rod 4, the supporting rod rotates downwards, the barb structure 2 is opened at the moment, the lug 22 is inserted into the bottom surface of the upper soil, then the worker steps on the pedal plate 3 with both feet to reinforce the supporting rod 4, after the reinforcement is completed, the supporting column 9 is ensured to be vertical to the bottom surface, the fan blade 12 and the sphere 13 can normally rotate, when the worker observes the anemorumbometer at a distance, the worker can judge the wind direction even if the distance is far away, the sphere 13 cannot influence the fan blade 12, and the convenience of the use of the device is improved, and soft pole 131 is connected to the bottom of spheroid 13, blows down in the wind direction, and soft pole 131 slopes, and spheroid 13 falls to one side that the wind blown to, and fan blade 12 also follows spheroid 13 and points to the same direction, and measured data is more accurate.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that 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 (6)

1. The utility model provides an anemorumbometer for bridge construction monitoring, includes bracing piece (4) and support column (9), its characterized in that: perpendicular pole (102) is installed to the rod end of bracing piece (4), and running-board (3) are all installed to the both sides of perpendicular pole (102), connecting block (101) are installed to the bottom of perpendicular pole (102), the inside of connecting block (101) is hollow structure, and the rod end of perpendicular pole (102) runs through to the inside of connecting block (101), the bottom surface fixedly connected with threaded rod (1) of connecting block (101), pivot (21) are all installed to the both sides of connecting block (101), and the outer wall of pivot (21) installs barb structure (2), lug (22) are installed to the top surface equidistance of barb structure (2), and the bottom surface of barb structure (2) is glossy curved surface structure.

2. The anemorumbometer for bridge construction monitoring of claim 1, wherein: casing (11) are installed on the top of support column (9), shell (15) are installed to the top of casing (11), and the internally mounted of shell (15) has dwang (14), spring (132) are installed to the top surface of dwang (14), the top internally mounted of spring (132) has soft pole (131), and the top fixedly connected with spheroid (13) of soft pole (131).

3. The anemorumbometer for bridge construction monitoring of claim 2, wherein: the fan blade (12) is installed to the outer wall of dwang (14), and fan blade (12) and dwang (14) rotate with fast.

4. The anemorumbometer for bridge construction monitoring of claim 1, wherein: and a wind vane (10) is installed on the outer wall of the supporting column (9), and the wind vane (10) rotates around the supporting column (9).

5. The anemorumbometer for bridge construction monitoring of claim 1, wherein: the upper middle of bracing piece (4) outer wall surface installs fixed block (7), one side of fixed block (7) is connected with handrail (5).

6. The anemorumbometer for bridge construction monitoring of claim 1, wherein: the bottom of support column (9) is provided with foot rest (8), and the bottom surface of foot rest (8) bonds and has disc (6), the bottom surface of disc (6) bonds with the top of bracing piece (4).

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