CN218841559U - Self-balancing beam storage device - Google Patents

Abstract

The utility model provides a beam device is deposited to self-balancing, include: the device comprises a processor, a first wireless module and at least 4 supporting mechanisms, wherein the at least 4 supporting mechanisms are uniformly arranged and are used for supporting the precast beam together. The supporting mechanism comprises a supporting seat, a jack, a height sensor and a second wireless module. The utility model discloses a self-balancing deposits roof beam device passes through the height that height sensor detected the jack, if the base takes place to subside, height sensor then can detect, and through first wireless module with second wireless module transmits for the treater, and the treater is according to the high position that each jack is located, sends control signal for corresponding jack, and the jack will be prefabricated roof beam jack-up or transfer for prefabricated roof beam keep balance, the effectual prefabricated roof beam that has avoided depositing the uneven settlement of roof beam buttress and causes receives the torsion fracture, and adopt the jack that can used repeatedly, shorten, reduce the length, the diameter of depositing roof beam buttress pile foundation, reduce the fund input of engineering.

Description

Self-balancing beam storage device

Technical Field

The utility model relates to a bridge technical field, concretely relates to beam device is deposited to self-balancing.

Background

With the requirement of rapid construction, more and more bridges are constructed by adopting a method of prefabricating and then erecting. But the volume of precast beam, weight are great, when the precast beam is deposited, bear the weight of the requirement to the ground higher, if handle improperly, lead to depositing the buttress that the precast beam was deposited to the roof beam field very easily and can produce differential settlement for each buttress height is different, causes precast beam toppling and precast beam to produce stress crack, can bring deposit the safety after roof beam field and the bridge traffic, quality risk.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome the shortcoming and not enough among the prior art, provide a beam device is deposited to self-balancing.

An embodiment of the utility model provides a beam device is deposited from balancing, include: the device comprises a processor, a first wireless module and at least 4 supporting mechanisms, wherein the at least 4 supporting mechanisms are uniformly arranged and are used for supporting the precast beam together.

The supporting mechanism comprises a supporting seat, a jack, a height sensor and a second wireless module, the jack is arranged on the supporting seat, the height sensor is arranged on the jack and used for detecting the altitude of the jack, and the second wireless module is arranged on the jack and respectively connected with the jack and the height sensor in a signal mode;

the height sensor and the jack are in signal connection with the processor through the second wireless module and the first wireless module in sequence.

Compared with the prior art, the utility model discloses a self-balancing deposits roof beam device passes through the height that height sensor detected the jack, if the base takes place to subside, height sensor then can detect, and through first wireless module with second wireless module transmits for the treater, and the treater is according to the high position that each jack located, sends control signal and gives corresponding jack, and the jack will be prefabricated roof beam jack-up or transfer for prefabricated roof beam keep balance, the effectual prefabricated roof beam that has avoided depositing the uneven settlement of roof beam buttress and causes receives the torsion fracture, and adopt jack that can used repeatedly, shorten, reduce the length, the diameter of depositing the roof beam buttress pile foundation, reduce the fund input of engineering.

In some optional embodiments, a positioning groove is arranged at the top of the supporting seat, a bottom support is arranged at the bottom of the jack, and the shape of the horizontal cross section of the bottom support is matched with that of the horizontal cross section of the positioning groove.

In some optional embodiments, at least two sides of the shoe are provided with auxiliary positioning plates, the auxiliary positioning plates abut against the top of the supporting seat, one side of each auxiliary positioning plate, which is close to the shoe, is provided with a connecting portion, and the connecting portion extends into the positioning groove and then is connected with the shoe.

In some optional embodiments, an auxiliary positioning frame is arranged on a side surface of the jack, the auxiliary positioning frame is arranged around the jack, positioning portions are formed on at least two sides of the auxiliary positioning frame, the positioning portions extend away from the auxiliary positioning frame, and the positioning portions are connected with the auxiliary positioning plate.

In some alternative embodiments, the shoe is removably connected to the jack.

In some optional embodiments, a plurality of threaded connectors are provided on the jack, and the jack is detachably connected with the bottom support through the plurality of threaded connectors.

In some optional embodiments, an auxiliary positioning frame is arranged on a side surface of the jack, the auxiliary positioning frame is arranged around the jack, positioning portions are formed on at least two sides of the auxiliary positioning frame, the positioning portions extend away from the auxiliary positioning frame, and the positioning portions are detachably connected with the auxiliary positioning plate through the threaded connecting pieces.

In some alternative embodiments, the support base is a concrete support base.

In some optional embodiments, the support seat is a concrete support seat, a plurality of positioning steel pipes are arranged at the top of the support seat, the positioning steel pipes and the support seat are integrally formed, and the positioning steel pipes are arranged on at least two sides of the positioning groove;

a plurality of positioning holes are formed in the auxiliary positioning plate, and the positioning steel pipes penetrate through the positioning holes in a one-to-one correspondence mode.

In order that the invention may be more clearly understood, particular embodiments of the invention will now be described with reference to the accompanying drawings.

Drawings

Fig. 1 is a schematic structural view of a self-balancing beam storage device according to a first embodiment of the present invention;

fig. 2 is a schematic structural diagram of a supporting mechanism and a precast beam according to a first embodiment of the present invention;

fig. 3 is a cross-sectional view of a support mechanism according to a first embodiment of the present invention;

fig. 4 is a sectional view of the supporting mechanism according to the second embodiment of the present invention;

fig. 5 is a sectional view of the supporting mechanism according to the third embodiment of the present invention.

Description of reference numerals:

10. a processor; 20. a support mechanism; 21. a supporting base; 211. a positioning groove; 212. positioning the steel pipe; 22. a jack; 221. a threaded connection; 222. an auxiliary positioning frame; 223. a positioning part; 23. a height sensor; 24. a second wireless module; 25. a bottom support; 251. an auxiliary positioning plate; 252. positioning holes; 30. and (5) prefabricating the beam.

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. In the description of the present invention, "a plurality" means 2 or more than 2 unless otherwise specified.

Referring to fig. 1 and fig. 2, fig. 1 is a schematic structural diagram of a self-balancing beam storage device according to a first embodiment of the present invention, and fig. 2 is a schematic structural diagram of a supporting mechanism and a precast beam according to a first embodiment of the present invention, the self-balancing beam storage device includes: a processor 10, a first wireless module (not shown) and at least 4 support mechanisms 20, wherein the at least 4 support mechanisms 20 are uniformly arranged and are used for jointly supporting the precast beam 30. In the present embodiment, 4 support mechanisms 20 are arranged, and of course, the number of support mechanisms 20 may be adjusted according to information of the length, width, etc. of the precast girders 30, thereby stably supporting the precast girders 30.

Please refer to fig. 3, which is a cross-sectional view of the supporting mechanism according to the first embodiment of the present invention, the supporting mechanism 20 includes a supporting seat 21, a jack 22, a height sensor 23 and a second wireless module 24, the jack 22 is disposed on the supporting seat 21, the height sensor 23 is disposed on the jack 22, the height sensor 23 is used for detecting an altitude of the jack 22, and the second wireless module 24 is disposed on the jack 22 and is respectively in signal connection with the jack 22 and the height sensor 23; the height sensor 23 and the jack 22 are in signal connection with the processor 10 through the second wireless module 24 and the first wireless module in sequence. After the relative position and the relative height of each supporting mechanism 20 are calculated in advance, the supporting base 21 is fixed on the ground, then the jack 22 is arranged on the supporting base 21, and then the precast beam 30 is hoisted above each jack 22 and below the precast beam 30, so that each jack 22 supports the precast beam 30 together. Since the precast girders 30 have a large weight, the ground may be settled at some locations, resulting in a reduction in the height of the entire support mechanism 20, so that the height of each support mechanism 20 is different. The height sensor 23 is used for monitoring the altitude of the supporting mechanisms 20, and transmits a height signal of the supporting mechanisms 20 to the processor 10 through the second wireless module 24 and the first wireless module in sequence, after receiving the height signal, the processor 10 compares the height of each supporting mechanism 20, and if the height of one supporting mechanism 20 is less than the height of the other supporting mechanisms 20, the jack 22 of the supporting mechanism 20 jacks up the height difference of the supporting mechanism 20 relative to the other supporting mechanisms 20.

For example, in the present application, a first supporting mechanism 20, a second supporting mechanism 20, a third supporting mechanism 20, and a fourth supporting mechanism 20 are included, a height sensor 23 detects that the height of the first supporting mechanism 20 is a, the heights of the second supporting mechanism 20, the third supporting mechanism 20, and the fourth supporting mechanism 20 are B, B is greater than a, and a is a difference between B and a, the jack 22 of the first supporting mechanism 20 is jacked up by a, and in the subsequent calculation process, a should be added to the actual height of the first supporting mechanism 20, for example, in the next monitoring, if the height of the first supporting mechanism 20 is C, the heights of the second supporting mechanism 20, the third supporting mechanism 20, and the fourth supporting mechanism 20 are D, the actual height of the first supporting mechanism 20 should be C + a, and in the calculation, the difference between C + a and D should be compared.

The Processor 10 may be a general-purpose Processor including a Central Processing Unit (CPU), a Network Processor (NP), and the like; but may also be a Digital Signal Processor 10 (DSP), an Application Specific Integrated Circuit (ASIC), a Field Programmable Gate Array (FPGA), or other Programmable logic device, etc. The various methods, steps, etc. disclosed in the embodiments of the present application may be implemented or performed. For example, the processor 10 may be a computer with a CPU, and a worker may centrally manage each self-balanced beam storage device at a remote location.

The jack 22 may be a hydraulic jack or a mechanical jack.

The height sensor 23 may be a barometric pressure sensor, for example, which measures the atmospheric pressure at a certain height and then converts the measured atmospheric pressure to obtain altitude data.

In some optional embodiments, a positioning groove 211 is provided at the top of the supporting seat 21, a bottom support 25 is provided at the bottom of the jack 22, the shape of the horizontal cross section of the bottom support 25 matches with the shape of the horizontal cross section of the positioning groove 211, and the positioning of the jack 22 in the horizontal direction is realized by the cooperation of the positioning groove 211 and the bottom support 25, so as to prevent the jack 22 from shifting in the horizontal direction.

To facilitate the fixing of the shoe 25 and the jack 22, in some alternative embodiments the shoe 25 is removably connected to the jack 22. The connection between the bottom bracket 25 and the jack 22 can be selected according to the actual requirement, for example, in some alternative embodiments, a plurality of threaded connectors 221 are provided on the jack 22, and the jack 22 is detachably connected to the bottom bracket 25 through the plurality of threaded connectors 221. Of course, the bottom support 25 and the jack 22 can be detachably connected by clamping.

In order to improve the stability of the bottom bracket 25, in some alternative embodiments, at least two sides of the bottom bracket 25 are provided with auxiliary positioning plates 251, the auxiliary positioning plates 251 abut against the top of the supporting seat 21, and a side of the auxiliary positioning plates 251, which is close to the bottom bracket 25, is provided with a connecting portion, and the connecting portion extends into the positioning groove 211 and then is connected with the bottom bracket 25.

Referring to fig. 4, which is a cross-sectional view of the supporting mechanism according to the second embodiment of the present invention, in order to make the jack 22 and the bottom bracket 25 more stable and less prone to toppling, in some optional embodiments, an auxiliary positioning frame 222 is disposed on a side surface of the jack 22, the auxiliary positioning frame 222 is disposed around the jack 22, positioning portions 223 are formed on at least two sides of the auxiliary positioning frame 222, the positioning portions 223 extend away from the auxiliary positioning frame 222, and the positioning portions 223 are connected to the auxiliary positioning plate 251.

In some optional embodiments, an auxiliary positioning frame 222 is disposed on a side surface of the jack 22, the auxiliary positioning frame 222 is disposed around the jack 22, positioning portions 223 are formed on at least two sides of the auxiliary positioning frame 222, the positioning portions 223 extend away from the auxiliary positioning frame 222, and the positioning portions 223 are detachably connected to the auxiliary positioning plate 251 through the threaded connection members 221, so that the positioning portions 223 and the auxiliary positioning plate 251 are stably fixed to each other, and stability of the jack 22 is improved.

In some alternative embodiments, the support base 21 is a concrete support base 21 that is formed after the beam yard is cast at the measured location.

Referring to fig. 5, which is a cross-sectional view of a supporting mechanism according to a third embodiment of the present invention, in some optional embodiments, the supporting seat 21 is a concrete supporting seat 21, the top of the supporting seat 21 is provided with a plurality of positioning steel pipes 212, the positioning steel pipes 212 are integrally formed with the supporting seat 21, and at least two sides of the positioning groove 211 are provided with the positioning steel pipes 212; the auxiliary positioning plate 251 is provided with a plurality of positioning holes 252, and the positioning steel pipes 212 correspondingly penetrate through the positioning holes 252 one by one, so that the whole bottom bracket 25 can be conveniently and rapidly positioned. Of course, in some other embodiments, the positioning hole 252 may be disposed on the positioning portion 223 of the auxiliary positioning frame 222, and the positioning steel tube 212 sequentially passes through the positioning hole 252 of the auxiliary positioning plate 251 and the positioning hole 252 on the positioning portion 223, so as to achieve fast positioning of the jack 22 and the bottom bracket 25.

It should be noted that, while the positioning portion 223 of the auxiliary positioning frame 222 is connected to the auxiliary positioning plate 251 through the threaded connection member 221, the top portion of the jack 22 may also be connected to the bottom base 25 through the threaded connection member 221 and the bottom base 25, and at the same time, both the auxiliary positioning frame 222 and the auxiliary positioning plate 251 may be matched with the positioning steel tube 212 through the positioning hole 252.

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 (9)

1. A self-balancing beam storage device is characterized by comprising: the device comprises a processor, a first wireless module and at least 4 supporting mechanisms, wherein the at least 4 supporting mechanisms are uniformly arranged and are used for jointly supporting the precast beam;

the supporting mechanism comprises a supporting seat, a jack, a height sensor and a second wireless module, the jack is arranged on the supporting seat, the height sensor is arranged on the jack and used for detecting the altitude of the jack, and the second wireless module is arranged on the jack and respectively connected with the jack and the height sensor in a signal mode;

the height sensor and the jack are in signal connection with the processor through the second wireless module and the first wireless module in sequence.

2. The self-balancing beam storage device according to claim 1, wherein: the top of the supporting seat is provided with a positioning groove, the bottom of the jack is provided with a bottom support, and the shape of the horizontal section of the bottom support is matched with that of the horizontal section of the positioning groove.

3. The self-balancing beam storage device according to claim 2, wherein: at least two sides of the bottom support are provided with auxiliary positioning plates, the auxiliary positioning plates are abutted to the top of the supporting seat, one side, close to the bottom support, of each auxiliary positioning plate is provided with a connecting portion, and the connecting portions extend into the positioning grooves and then are connected with the bottom support.

4. The self-balancing beam storage device according to claim 3, wherein: the side of jack is provided with auxiliary positioning frame, auxiliary positioning frame encircles the jack is arranged, auxiliary positioning frame's at least both sides are formed with location portion, location portion deviates from auxiliary positioning frame extends out, location portion with auxiliary positioning plate connects.

5. The self-balancing beam storage device of claim 4, wherein: the bottom support is detachably connected with the jack.

6. The self-balancing beam storage device of claim 5, wherein: the jack is provided with a plurality of threaded connectors and is detachably connected with the bottom support through the threaded connectors.

7. The self-balancing beam storage device according to claim 6, wherein: the side of jack is provided with auxiliary positioning frame, auxiliary positioning frame encircles the jack is arranged, auxiliary positioning frame's at least both sides are formed with location portion, location portion deviates from auxiliary positioning frame extends out, location portion pass through threaded connection spare come with auxiliary positioning board can dismantle the connection.

8. The self-balancing beam storage device according to any one of claims 1 to 7, wherein: the supporting seat is a concrete supporting seat.

9. The self-balancing beam storage device according to claim 3, wherein: the supporting seat is a concrete supporting seat, a plurality of positioning steel pipes are arranged at the top of the supporting seat, the positioning steel pipes and the supporting seat are integrally formed, and the positioning steel pipes are arranged on at least two sides of the positioning groove;

and a plurality of positioning holes are formed in the auxiliary positioning plate, and the positioning steel pipes penetrate through the positioning holes in a one-to-one correspondence manner.

Images