CN114913679A - Wireless remote control device for beam column type steel guardrail opening structure - Google Patents

Abstract

Beam column type steel guardrail open structure's wireless remote control unit, including opening crossbeam, electrical system, rotation motor, control module, shaped steel stand, concatenation crossbeam, every beam column type steel guardrail open structure all sets up two opening crossbeams, through connecting the mutual overlap joint of channel-section steel between the opening crossbeam, the opening crossbeam is connected with the concatenation crossbeam through rotating the motor, rotates the motor and includes stator and rotor, and the stator passes through the connecting bolt anchor in the opening crossbeam, and the rotor passes concatenation crossbeam, opening crossbeam respectively, electrical system receives the radio wave of wireless remote control transmission to turn into the instruction and transmit for control module, rotate the motor by control module control again, rotate the rotation of motor and drive the opening crossbeam and realize vertical or horizontal direction's motion around the rotor. Through rational design, beam column type steel guardrail open structure satisfies bridge railing's safety protection demand, and vertical opening design does not influence the normal operation of vehicle, and maintainer can long-rangely open and close.

Description

Wireless remote control device for beam column type steel guardrail opening structure

Technical Field

The invention relates to the field of road intersection construction protection and maintenance, in particular to a wireless remote control device for a beam column type steel guardrail opening structure.

Background

With the rapid development of the public road bridge construction business in China, the total number of the public road bridges in China leaps forward to the first place in the world at present, and in recent years, the public road bridges in China still increase at the speed of 2 ten thousand seats per year, so that the public road bridges become the true public road bridges, the bridge construction becomes the international business cards for communicating the world in China, and people pay more and more attention to the normal operation of the bridges, particularly the safety aspect.

The guardrail is the last line of defence of protecting the normal operation of vehicle, plays crucial effect. At present, the bridge guardrail is considered from the aspect of safety and landscape, beam column type steel guardrails are used more, the safety protection is stronger, the safety redundancy is high, and meanwhile, the landscape permeability is good, so that the driving visual field is wider, the fatigue is relieved, and the driving comfort is improved.

The arrangement of the guardrails needs to be longitudinally continuous in length, however, in order to ensure the normal operation of the bridge, a bridge management department arranges an overhaul channel at the roadside or in a median zone of a large bridge, which is convenient for bridge maintenance, and the operating personnel need to pass through the guardrails to enter an overhaul space, which causes the mutual interference between the arrangement of the guardrails and the normal requirement of the bridge, so that the personnel can not directly pass through the guardrail, and particularly, the guardrail has higher height and larger traffic flow when facing the road section of the high-grade guardrail, and the personnel are greatly dangerous when crossing the guardrail; even if some bridges are convenient to pass, the guardrail is directly disconnected at the longitudinal cross beam of the guardrail, the guardrail is discontinuous, and no transition exists, so that serious traffic accidents are easy to happen at the disconnected part, and the safety operation of the bridges is seriously influenced by the falling of vehicle personnel under the bridges.

At the present stage, a guardrail opening structure is arranged on part of bridge sections, but the opening direction is a transverse opening mode facing the lane direction, so that the normal running of the vehicle is delayed during opening, and certain potential safety hazards are caused; the transition structure with the protection capability is arranged, but the structure is heavier, and the maintenance personnel can not be lifted and can not realize the opening purpose at all.

To sum up, there is the problem of interference in present stage bridge railing and maintenance space, the inventor sets out from the safety design angle at all, do not hinder the vehicle and normally travel from the simultaneous consideration, combine wireless remote control technique, carry out special transition design to beam column type steel guardrail open position, propose beam column type steel guardrail open structure's wireless remote control device, make the maintainer can open the guardrail in advance through remote control device key start-up in remote distance, need not personnel to lift up and place, make things convenient for the operation personnel to pass the guardrail fast and get into the maintenance passageway when satisfying beam column type guardrail protection demand.

Disclosure of Invention

The invention aims to provide a wireless remote control device for a beam column type steel guardrail opening structure, which aims to solve the problems of insufficient safety protection capability and difficult opening of the bridge guardrail opening position.

In order to achieve the technical purpose, the technical scheme of the invention is realized as follows:

a wireless remote control device of a beam column type steel guardrail opening structure comprises an opening cross beam, an electric control system, a rotating motor, a control module, a profile steel upright and a splicing cross beam, wherein each beam column type steel guardrail opening structure is provided with two opening cross beams, the opening cross beams are mutually overlapped through connecting channel steel, the opening cross beams are connected with the splicing cross beams through the rotating motor, the rotating motor comprises a stator and a rotor, the stator is anchored in the opening cross beams through connecting bolts, the rotor respectively penetrates through the splicing cross beams and the opening cross beams, one end of the rotor is anchored at one side of the stator through a mortise and tenon fastener, the other end of the rotor is embedded in the pipe wall of the splicing cross beams through a cross groove, the electric control system is connected with the control module through electric wires, the electric control system receives radio waves transmitted by a wireless remote controller and converts the radio waves into instructions to be transmitted to the control module, and then the control module controls the rotating motor to rotate, the rotation of rotating the motor drives the opening crossbeam realizes vertical or horizontal direction's motion around the rotor, and the rotor is motionless, and the stator rotates around the rotor, shaped steel stand and basis anchor, the horizontal anchor of concatenation crossbeam is on the shaped steel stand.

Further, electrical system includes radio wave receiver, radio wave treater, wireless data transmission module, control module includes wireless data programming module, steering controller, wireless remote controller includes remote control button, radio wave transmitter, and the maintainer receives the instruction after pressing the remote control button through manual control wireless remote controller, and radio wave transmitter release radio wave, and the radio wave receiver on the control module received radio wave this moment, then handles through the radio wave treater, transmits the instruction for wireless data transmission module, and wireless data transmits for wireless data programming module, selects the rotation procedure of having compiled according to instruction information, and steering controller receives the control after the information and rotates the motor and rotate, realizes the motion of opening crossbeam vertical or horizontal direction.

Furthermore, the rotating motor has two functions of forward rotation and reverse rotation, when the forward rotation is started, the opening cross beam is pushed inwards to move around the rotor from the vertical direction to the horizontal direction, and at the moment, the beam column type steel guardrail opening structure is closed; when the opening reversing is carried out, the opening cross beam is pushed outwards to move from the horizontal direction to the vertical direction around the rotor, and at the moment, the opening structure of the beam column type steel guardrail is opened.

Furthermore, round holes which go deep into the center are respectively formed in the vertical direction and the horizontal direction of the stator, the rotor is inserted into the round hole in the horizontal direction of the stator, and the round hole in the vertical direction is anchored in the stator through embedding tenon-and-mortise fasteners, and meanwhile, a clamping groove in the rotor is clamped.

Furthermore, the bottom of the stator is provided with a rib plate and a bottom plate, the stator, the rib plate and the bottom plate are welded, the bottom plate is provided with a connecting bolt hole, the opening cross beam is also provided with a matched connecting bolt hole, and the connecting bolt penetrates through the connecting bolt hole to realize the connection and fixation of the bottom plate and the opening cross beam.

Further, the concatenation crossbeam is made for hollow steel pipe, the mounting groove that link up about the tip position that concatenation crossbeam and opening crossbeam are connected establishes, the through mouth that the mounting groove formed for cutting hollow steel pipe upper and lower face, mounting groove both sides face is splint, set up on the splint with cross recess phase-match and card hole, the opening crossbeam also sets up the card hole, opening crossbeam outline is less than the interior profile of concatenation crossbeam, opening crossbeam card is gone into in the splint that the concatenation crossbeam formed, the cross recess of rotor tip penetrates the whole of card hole realization opening crossbeam and concatenation crossbeam and assembles.

Furthermore, the connection channel steel is welded at the end part of the opening cross beam on one side, the outline of the opening cross beam is smaller than the outline of the connection channel steel, when the beam column type steel guardrail opening structure is closed, the opening cross beam on the other side is embedded into the groove of the connection channel steel, and the groove direction of the connection channel steel faces downwards.

Further, the opening crossbeam all matches the setting with every row of concatenation crossbeam, the opening crossbeam diminishes from last every row of length down gradually, the concatenation crossbeam increases gradually from last every row of length down, forms the stairstepping, realizes the vertical dislocation of opening crossbeam and opens the mode.

Furthermore, a bolt can be arranged at the lap joint position of the connecting channel steel between the opening cross beams, and a positioning pin can be arranged at the connecting position of the opening cross beams and the splicing cross beams.

After the technical scheme is adopted, the invention has the following beneficial effects:

(1) through reasonable design, the beam column type steel guardrail opening structure meets the safety protection requirement of the bridge guardrail;

(2) the vertical opening design does not influence the normal operation of the vehicle;

(3) by combining the motor and the wireless remote control technology, the maintenance personnel can remotely open and close, the heavy structure and the difficult opening of the maintenance personnel are avoided, and the potential safety hazard in the range of long-time standing lanes is eliminated;

(4) the motor and the control module are small and exquisite and are all arranged in the opening cross beam, so that damage is effectively prevented, and the landscape is not influenced.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

FIG. 1 is a drawing illustrating an opening structure according to embodiment 1 of the present invention;

FIG. 2 is a closed view showing an example of an opening structure in embodiment 1 of the present invention;

fig. 3 is an exemplary diagram of an electric control system and a remote control principle according to embodiment 1 of the present invention;

FIG. 4 is an exemplary diagram of a wireless remote control according to embodiment 1 of the present invention;

FIG. 5 is a view showing an example of splicing the opening beam according to embodiment 1 of the present invention;

FIG. 6 is an illustration of an assembled cross section of an opening beam and a spliced beam in embodiment 1 of the present invention;

fig. 7 is an elevation view showing a rotary electric machine according to embodiment 1 of the present invention;

FIG. 8 is a sectional view showing a rotary electric machine according to embodiment 1 of the present invention;

FIG. 9 is a perspective view of a spliced cross beam according to embodiment 1 of the present invention;

fig. 10 is a closed example of the opening structure in embodiment 2 of the present invention.

The figures are labeled as follows:

1. an open cross beam; 2. an electronic control system; 3. rotating the motor; 4. a control module; 5. a section steel upright post; 6. splicing the cross beams; 7. connecting channel steel; 8. a stator; 9. a rotor; 10. buckling mortise and tenon joints; 11. a cross groove; 12. an electric wire; 13. a wireless remote controller; 14. a foundation; 15. a radio wave receiver; 16. a radio wave processor; 17. a wireless data transmission module; 18. a wireless data programming module; 19. a steering controller; 20. a remote control button; 21. a radio wave transmitter; 22. a circular hole; 23. mounting grooves; 24. a splint; 25. a clamping hole; 26. a bolt; 27. positioning pins; 28. a card slot; 29. a rib plate; 30. a base plate; 31. and connecting bolt holes.

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 that can be derived by one of ordinary skill in the art from the embodiments given herein are intended to be within the scope of the present invention.

Fig. 1-2 are diagrams illustrating an opening and closing of the opening structure of the present embodiment 1. Including opening crossbeam 1, electrical system 2, rotating electrical machines 3, control module 4, shaped steel stand 5, concatenation crossbeam 6, its characterized in that: each beam column type steel guardrail opening structure is provided with two opening cross beams 1, the opening cross beams 1 are mutually overlapped through a connecting channel steel 7, the opening cross beams 1 are connected with a splicing cross beam 6 through a rotating motor 3, the rotating motor 3 comprises a stator 8 and a rotor 9, the stator 8 is anchored in the opening cross beams 1 through a connecting bolt 10, the rotor 9 respectively penetrates through the splicing cross beams 6 and the opening cross beams 1, one end of the rotor 9 is anchored at one side of the stator 8 through a mortise buckle 10, the other end of the rotor 9 is embedded into the pipe wall of the splicing cross beam 6 through a cross groove 11, an electric control system 2 is connected with a control module 4 through an electric wire 12, the electric control system 2 receives radio waves emitted by a wireless remote controller 13 and transmits the radio waves to the control module 4, the control module 4 controls the rotating motor 3 to rotate, the rotating motor 3 drives the opening cross beams 1 to realize vertical or horizontal movement around the rotor 9, rotor 9 is motionless, and stator 8 rotates around rotor 9, shaped steel stand 5 and the 14 anchors in basis, concatenation crossbeam 6 transversely anchors on shaped steel stand 5.

Fig. 3 is an exemplary diagram of the electric control system and the remote control principle of the embodiment 1. The electric control system 2 comprises a radio wave receiver 15, a radio wave processor 16 and a wireless data transmission module 17, the control module 4 comprises a wireless data programming module 18 and a steering controller 19, as shown in fig. 4, the wireless remote controller 13 includes a remote control button 20 and a radio wave transmitter 21, the service person manually controls the wireless remote controller 13, and when the remote control button 20 is pressed, the radio wave transmitter 21 releases radio waves, and the radio wave receiver 15 on the control module 4 receives the radio waves, and then processed by the radio wave processor 16 to transmit instructions to the wireless data transmission module 17, wireless data to the wireless data programming module 18, and selecting a programmed rotating program according to the instruction information, and controlling the rotating motor 3 to rotate after the steering controller 19 receives the information so as to realize the vertical or horizontal movement of the open cross beam 1.

The rotating motor 3 has two functions of forward rotation and reverse rotation, when the forward rotation is started, the opening beam 1 is pushed inwards to move around the rotor 9 from the vertical direction to the horizontal direction, and at the moment, the beam column type steel guardrail opening structure is closed; when the opening is reversed, the opening beam 1 is pushed outwards to move from the horizontal direction to the vertical direction around the rotor 9, and at the moment, the opening structure of the beam column type steel guardrail is opened.

Fig. 5 is a splicing illustration of the opening beam of the embodiment 1. Every beam column type steel guardrail open structure all sets up two opening crossbeams 1, through connecting the mutual overlap joint of channel-section steel 7 between the opening crossbeam 1, connect the welding of channel-section steel 7 at 1 tip of one side opening crossbeam, 1 outline of opening crossbeam is less than and connects the interior outline of channel-section steel 7, and when beam column type steel guardrail open structure closed, in the recess of channel-section steel 7 was connected in the embedding of another side opening crossbeam 1, the recess direction of connecting channel-section steel 7 was down.

Fig. 6 is an illustration of an assembled section of the opening beam and the splicing beam in the embodiment 1. Opening crossbeam 1 is connected with concatenation crossbeam 6 through rotating motor 3, opening crossbeam 1 all matches the setting with concatenation crossbeam 6 every row, opening crossbeam 1 diminishes from last every row length down gradually, concatenation crossbeam 6 increases from last every row length down gradually, forms the stairstepping, realizes the mode is opened in 1 vertical dislocation of opening crossbeam.

Fig. 9 is an exemplary view of the spliced beam of the embodiment 1. The concatenation crossbeam 6 is made for hollow steel pipe, the mounting groove 23 that link up about the tip position that concatenation crossbeam 6 and opening crossbeam 1 are connected establishes, the through hole that the mounting groove 23 formed for cutting hollow steel pipe upper and lower face, mounting groove 23 both sides face is splint 24, set up on the splint 24 with 11 phase-matches of cross recess and card hole 25, opening crossbeam 1 also sets up card hole 25, 1 outline of opening crossbeam is less than the interior profile of concatenation crossbeam 6, 1 card of opening crossbeam is gone into in the splint 24 that concatenation crossbeam 6 formed, the cross recess 11 of rotor 9 tip penetrates card hole 25 and realizes opening crossbeam 1 and the whole of concatenation crossbeam 6 and assemble.

Fig. 7 to 8 are views showing an example of a rotary electric machine according to embodiment 1. The rotating motor 3 comprises a stator 8 and a rotor 9, round holes 22 penetrating into the center are respectively formed in the stator 8 in the vertical direction and in the horizontal direction, the rotor 9 is inserted into the center of the round holes 22 in the stator 8 in the horizontal direction, the round holes 22 in the vertical direction are anchored in the stator 8 through inserting the tenon-and-mortise fasteners 10, and meanwhile, clamping grooves 28 in the rotor 9 are clamped.

The bottom of the stator 8 is provided with a ribbed plate 29 and a bottom plate 30, the stator 8, the ribbed plate 29 and the bottom plate 30 are welded, the bottom plate 30 is provided with a connecting bolt hole 31, the opening cross beam 1 is also provided with a matched connecting bolt hole 31, and the connecting bolt 10 penetrates through the connecting bolt hole 31 to realize the connection and fixation of the bottom plate 30 and the opening cross beam 1.

When the open cross beam 1 moves, the rotor 9 is not moved, and the stator 8 rotates around the rotor 9.

Fig. 10 is a closed example of the opening structure of the present embodiment 2. Including opening crossbeam 1, electrical system 2, rotating electrical machines 3, control module 4, shaped steel stand 5, concatenation crossbeam 6, its characterized in that: each beam column type steel guardrail opening structure is provided with two opening cross beams 1, the opening cross beams 1 are mutually overlapped through a connecting channel steel 7, the opening cross beams 1 are connected with a splicing cross beam 6 through a rotating motor 3, the rotating motor 3 comprises a stator 8 and a rotor 9, the stator 8 is anchored in the opening cross beams 1 through a connecting bolt 10, the rotor 9 respectively penetrates through the splicing cross beams 6 and the opening cross beams 1, one end of the rotor 9 is anchored at one side of the stator 8 through a mortise buckle 10, the other end of the rotor 9 is embedded into the pipe wall of the splicing cross beam 6 through a cross groove 11, an electric control system 2 is connected with a control module 4 through an electric wire 12, the electric control system 2 receives radio waves emitted by a wireless remote controller 13 and transmits the radio waves to the control module 4, the control module 4 controls the rotating motor 3 to rotate, the rotating motor 3 drives the opening cross beams 1 to realize vertical or horizontal movement around the rotor 9, rotor 9 is motionless, and stator 8 rotates around rotor 9, shaped steel stand 5 and 14 anchors on the basis, concatenation crossbeam 6 transversely anchors on shaped steel stand 5.

Connect channel-section steel 7 overlap joint position between the opening crossbeam 1 and set up bolt 26, the opening crossbeam 1 sets up locating pin 27 with concatenation crossbeam 6 connection position.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (9)

1. Beam column formula steel guardrail open structure's wireless remote control unit, including opening crossbeam (1), electrical system (2), rotation motor (3), control module (4), shaped steel stand (5), concatenation crossbeam (6), its characterized in that: every beam column type steel guardrail open structure all sets up two opening crossbeams (1), overlap joint each other through connecting channel-section steel (7) between the opening crossbeam (1), opening crossbeam (1) is connected with concatenation crossbeam (6) through rotating motor (3), rotates motor (3) and includes stator (8) and rotor (9), stator (8) are through connecting bolt (10) anchor in opening crossbeam (1), rotor (9) pass concatenation crossbeam (6), opening crossbeam (1) respectively, and rotor (9) one end is through tenon fourth of the twelve earthly branches buckle (10) anchor in one side of stator (8), and the other end imbeds in concatenation crossbeam (6) pipe wall through cross groove (11), electrical system (2) are connected through electric wire (12) with control module (4), electrical system (2) receive the radio wave of wireless remote control ware (13) transmission, and turn into the instruction and transmit control module (4), by control module (4) control rotates motor (3) and rotates, rotates the rotation drive of motor (3) open cross beam (1) and realizes vertical or horizontal direction's motion around rotor (9), and rotor (9) are motionless, and stator (8) rotate around rotor (9), shaped steel stand (5) and basis (14) anchor, concatenation crossbeam (6) horizontal anchor is on shaped steel stand (5).

2. The wireless remote control device of a beam column type steel guardrail opening structure of claim 1, which is characterized in that: the electric control system (2) comprises a radio wave receiver (15), a radio wave processor (16) and a wireless data transmission module (17), the control module (4) comprises a wireless data programming module (18) and a steering controller (19), the wireless remote controller (13) comprises a remote control button (20) and a radio wave transmitter (21), a maintainer manually controls the wireless remote controller (13) to press the remote control button (20) and then receive an instruction, the radio wave transmitter (21) releases radio waves, the radio wave receiver (15) on the control module (4) receives the radio waves at the moment and then processes the radio waves through the radio wave processor (16), the instruction is transmitted to the wireless data transmission module (17), the wireless data is transmitted to the wireless data programming module (18), and a programmed rotation program is selected according to the instruction information, and the steering controller (19) controls the rotating motor (3) to rotate after receiving the information, so that the opening beam (1) moves in the vertical or horizontal direction.

3. The wireless remote control device of a beam column type steel guardrail opening structure of claim 1, which is characterized in that: the rotating motor (3) has two functions of positive rotation and reverse rotation, when the positive rotation is started, the opening beam (1) is pushed inwards to move around the rotor (9) from the vertical direction to the horizontal direction, and at the moment, the beam column type steel guardrail opening structure is closed; when the opening is reversed, the opening beam (1) is pushed outwards to move from the horizontal direction to the vertical direction around the rotor (9), and at the moment, the opening structure of the beam column type steel guardrail is opened.

4. The wireless remote control device of the beam column type steel guardrail opening structure of claim 1, which is characterized in that: the stator (8) is provided with round holes (22) penetrating into the center in the vertical direction and the horizontal direction respectively, the rotor (9) is inserted into the round holes (22) in the horizontal direction of the stator (8), the round holes (22) in the vertical direction are anchored in the stator (8) through the embedded mortise and tenon fasteners (10), and meanwhile, the clamping grooves (28) in the rotor (9) are clamped.

5. The wireless remote control device of a beam column type steel guardrail opening structure of claim 1, which is characterized in that: the bottom of the stator (8) is provided with a ribbed plate (29) and a bottom plate (30), the stator (8), the ribbed plate (29) and the bottom plate (30) are welded, the bottom plate (30) is provided with a connecting bolt hole (31), the opening cross beam (1) is also provided with a matched connecting bolt hole (31), and the connecting bolt (10) penetrates through the connecting bolt hole (31) to realize the connection and fixation of the bottom plate (30) and the opening cross beam (1).

6. The wireless remote control device of a beam column type steel guardrail opening structure of claim 1, which is characterized in that: splice crossbeam (6) are made for hollow steel pipe, the tip position that splice crossbeam (6) and opening crossbeam (1) are connected establishes mounting groove (23) that link up from top to bottom, mounting groove (23) are the through hole that forms about cutting hollow steel pipe, mounting groove (23) both sides face is splint (24), set up on splint (24) with cross recess (11) phase-match and card hole (25), opening crossbeam (1) also sets up card hole (25), opening crossbeam (1) outline is less than the interior profile of splice crossbeam (6), in opening crossbeam (1) card goes into splint (24) that splice crossbeam (6) formed, cross recess (11) of rotor (9) tip penetrate card hole (25) and realize opening crossbeam (1) and splice the whole of crossbeam (6) and assemble.

7. The wireless remote control device of a beam column type steel guardrail opening structure of claim 1, which is characterized in that: connect channel-section steel (7) welding at one side opening crossbeam (1) tip, opening crossbeam (1) outline is less than and connects interior outline of channel-section steel (7), and when beam column type steel guardrail open structure closed, in the recess of channel-section steel (7) is connected in opposite side opening crossbeam (1) embedding, the recess direction of connecting channel-section steel (7) is down.

8. The wireless remote control device of a beam column type steel guardrail opening structure of claim 1, which is characterized in that: opening crossbeam (1) all matches the setting with every row of concatenation crossbeam (6), opening crossbeam (1) diminishes from last every row length extremely down gradually, concatenation crossbeam (6) increases gradually from last every row length extremely down, forms the stairstepping, realizes opening crossbeam (1) vertical dislocation opening mode.

9. The wireless remote control device of the beam column type steel guardrail opening structure of claim 1, which is characterized in that: connect channel-section steel (7) overlap joint position between opening crossbeam (1) and can set up bolt (26), opening crossbeam (1) and concatenation crossbeam (6) connection position can set up locating pin (27).

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