CN111636336A

CN111636336A - Anti-climbing isolation railing

Info

Publication number: CN111636336A
Application number: CN202010518831.3A
Authority: CN
Inventors: 李丽萍
Original assignee: Individual
Current assignee: Anhui Jinfeng Fence Co ltd
Priority date: 2020-06-09
Filing date: 2020-06-09
Publication date: 2020-09-08
Anticipated expiration: 2040-06-09
Also published as: CN111636336B

Abstract

The invention discloses an anti-climbing isolation railing, which comprises an isolation transverse pipe, wherein a stopping sleeve is rotatably sleeved on the isolation transverse pipe, a plurality of mounting holes are formed in the isolation transverse pipe at equal intervals in the transverse direction and are annularly distributed on the isolation transverse pipe, a magnetic conductive cylinder is inserted into each mounting hole, a mounting spring is installed in each magnetic conductive cylinder, a conductive rod is slidably inserted into each magnetic conductive cylinder, and a conductive connecting column is installed at one end, far away from the magnetic conductive cylinder, of each conductive rod. The climbing device utilizes climbing action to enable the blocking sleeve to rotate and communicate the non-magnetic conducting bar and the magnetic conducting cylinder, so that a safe voltage electric shock climbing worker forces the climbing worker to abandon climbing, the non-magnetic conducting bar is ensured to be uncharged in a normal state through mutual attraction of the magnetic strip and the magnetic conducting cylinder, the conductive cylinder and the compression structure of the conductive rod are convenient to install quickly, and the magnetic ring and the magnetic conducting cover are connected quickly and accurately through mutual attraction.

Description

Anti-climbing isolation railing

Technical Field

The invention relates to the field of public facilities, in particular to an anti-climbing isolation railing.

Background

Urban road and each scenic spot all can see the isolation railing, set up and keep apart the railing and can make the traffic more orderly, and can increase the security, avoid acting at will and cause the accident or receive the injury, and anti-climb keeps apart the railing and can warn the climbing personnel and implement the measure of forcing the climbing personnel when stopping, further increases and blocks effect and security.

Present anti-climbing isolation railing is mostly making isolation railing trigger anti-climbing mechanism through the climbing action, and anti-climbing mechanism warns the climbing personnel through municipal water injection, but this type of anti-climbing isolation railing can cause the waste of water resource in the use, and can cause the water resource to constantly run off after the railing is destroyed because of the traffic accident by the striking, forms huge waste, and the maintenance process is very complicated.

Disclosure of Invention

The invention aims to solve the defects of water resource waste, complex maintenance after impact damage and high maintenance cost in the prior art, and provides an anti-climbing isolation railing.

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

an anti-climbing isolation railing, which comprises an isolation transverse pipe, wherein a stopping sleeve is rotatably sleeved on the isolation transverse pipe, a plurality of mounting holes are arranged on the isolation transverse pipe at equal intervals in the transverse direction, a plurality of installation holes are annularly distributed on the horizontal isolating pipe, a magnetic conductive cylinder is inserted in each installation hole, an installation spring is installed in each magnetic conductive cylinder, a conductive rod is slidably inserted in each magnetic conductive cylinder, a conductive connecting column is installed at one end of each conductive rod far away from the magnetic conductive cylinder, two magnetic rings are symmetrically arranged at the middle section of the conductive connecting column, magnetic conductive covers are symmetrically inserted at the two ends of the conductive connecting column in a sliding manner, a low-voltage lead is arranged at one end of each magnetic conductive cover far away from the conductive connecting column, a plurality of non-magnetic conductive strips are embedded in the blocking sleeve in an equidistant annular mode, and a plurality of magnetic strips are embedded in the inner wall of the blocking sleeve in an equidistant annular mode.

Preferably, the magnetic strips correspond to the annular positions of the magnetic conductive cylinders one by one, and each magnetic strip is positioned between two non-magnetic conductive strips;

the rotating blocking sleeve enables the non-magnetic conductive strips to be close to and contact with the magnetic conductive cylinder, the non-magnetic conductive strips are electrically connected with the magnetic conductive cylinder, the magnetic conductive cylinder is electrically connected with the magnetic conductive cover and the low-voltage lead through the conductive rod and the conductive connecting column, the non-magnetic conductive strips are electrified, current flows from the non-magnetic conductive strips to the palm of a climber, so that the climber generates a numb feeling to warn and compel the climber to give up climbing, the power supply voltage of the low-voltage lead is lower than the safety voltage of a human body, injury to the human body is avoided, the anti-climbing effect of the isolation railing is increased, and the human body cannot be injured;

after the climbing personnel give up climbing, the blocking sleeve continues to rotate under the action of inertia, the rotating blocking sleeve enables the magnetic stripe to be close to the magnetic conductive cylinder, the magnetic stripe and the magnetic conductive cylinder are finally contacted due to mutual attraction and the blocking sleeve is static, the non-magnetic conductive strip and the magnetic conductive cylinder are disconnected at the moment, and therefore the non-magnetic conductive strip is uncharged, people nearby cannot be accidentally injured due to normal touch, and the use safety of the isolation railing is improved.

Preferably, the sliding stroke of the magnetic conductive cylinder is greater than the thickness of the pipe wall of the isolating transverse pipe, and the maximum rotating radius of the magnetic conductive cylinder is equal to the radius of the outer wall of the isolating transverse pipe;

the magnetic conductive cylinders can be completely sleeved on the conductive rods through extrusion, when the plurality of magnetic conductive cylinders are all extruded and sleeved on the conductive rods, at the moment, the sliding stroke of the magnetic conductive cylinders is larger than the thickness of the tube wall of the isolating transverse tube, and the maximum rotating radius of the magnetic conductive cylinders is equal to the radius of the outer wall of the isolating transverse tube, so that the circular outer diameters of the plurality of extruded magnetic conductive cylinders are smaller than the inner diameter of the isolating transverse tube, even though the plurality of conductive rods and the plurality of magnetic conductive cylinders can be quickly installed in the isolating transverse tube and are clamped in the installation holes under the rebounding action of the installation springs, and the installation convenience is improved;

two magnetic rings that the symmetry set up on the electrically conductive spliced pole make the quick accurate cover of the electrically conductive cover of magnetism on the low pressure wire establish the both ends at electrically conductive spliced pole through magnetic attraction, can violently manage interior high-speed joint installation low pressure wire in keeping apart, further increase the convenience of installation, and the low pressure wire that the sectional type is connected keeps apart the railing and is destroyed the back because of can not influence the use of front end railing, and can the quick replacement installation in the maintenance process, increase the convenience of maintenance and reduce cost of maintenance.

The invention has the following beneficial effects:

1. make through the climbing action block the cover and rotate and make the non-magnetism conducting bar be connected with the contact of the electrically conductive section of thick bamboo of magnetism for safe voltage on the low voltage wire leads to the electric cover through magnetism, electrically conducts spliced pole, conducting rod, the electrically conductive section of thick bamboo of magnetism, non-magnetism conducting bar transmit to the palm and cause the numb sense and force the climbing personnel to abandon the climbing, increases the anti-climb effect of isolation railing, and safe voltage can not cause the injury to the human body, increases the security of isolation railing.

2. Abandon after the climbing stop the cover and rotate under the inertia effect, and magnetic stripe and the electrically conductive section of thick bamboo of magnetism inter attraction, then final magnetic stripe is close to and contact with the electrically conductive section of thick bamboo of magnetism and is connected, has broken off the electrically conductive section of thick bamboo of magnetism and is connected with the non-magnetic conducting bar, and in the normal use process promptly, the non-magnetic conducting bar is uncharged, can not accidentally injure touching personnel, further increases the security of keeping apart the railing.

3. But establish the structure through the slip cover between magnetism conducting tube and the conducting rod and make the total length of magnetism conducting tube and conducting rod change, can install magnetism conducting tube and conducting rod inside the violently managing in the isolation fast through the total length of compressing magnetism conducting tube and conducting rod promptly, increase the convenience of installation.

4. Make the connection that low pressure wire and magnetism electrically conductive cover can be quick accurate install on electrically conductive spliced pole through the magnetic ring of symmetry on the electrically conductive spliced pole, further increase the convenience of installation, and keep apart the railing and destroyed the back, the low pressure wire of segmentation connection also can be repaired fast along with keeping apart the railing, and the part of destruction does not connect to the police, does not consume the electric energy, and the front end part does not damage the railing and is not influenced, increases the security of keeping apart the railing and avoids the waste of the energy.

In conclusion, the invention utilizes the climbing action to enable the blocking sleeve to rotate and communicate the non-magnetic conductive strip and the magnetic conductive cylinder, so that a safe voltage electric shock climber forces the non-magnetic conductive strip to abandon climbing, the non-magnetic conductive strip is ensured to be uncharged in a normal state through mutual attraction of the magnetic strip and the magnetic conductive cylinder, the non-magnetic conductive strip is convenient to install rapidly through the compression structure of the conductive cylinder and the conductive rod, and the non-magnetic conductive strip is rapidly and accurately connected with the magnetic conductive cover through mutual attraction of the magnetic ring and the magnetic conductive.

Drawings

FIG. 1 is a schematic view of an embodiment of an anti-climb isolation balustrade according to the present invention;

FIG. 2 is a schematic cross-sectional view of an anti-climb isolation balustrade according to the present invention;

fig. 3 is a schematic front structural view of an anti-climbing isolation rail according to the present invention.

In the figure: 1 isolating transverse tube, 11 mounting holes, 12 magnetic conductive cylinders, 121 mounting springs, 13 conductive rods, 14 conductive connecting columns, 141 magnetic rings, 142 magnetic conductive covers, 2 blocking sleeves, 21 non-magnetic conductive strips, 22 magnetic strips and 3 low-voltage wires.

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.

Referring to fig. 1-3, an anti-climbing isolation barrier comprises a transverse isolation pipe 1, a blocking sleeve 2 is rotatably sleeved on the transverse isolation pipe 1, a plurality of mounting holes 11 are formed in the transverse isolation pipe 1 at equal intervals, the mounting holes 11 are annularly distributed on the transverse isolation pipe 1, a magnetic conductive cylinder 12 is inserted in each mounting hole 11, a mounting spring 121 is installed in each magnetic conductive cylinder 12, a conductive rod 13 is slidably inserted in each magnetic conductive cylinder 12, a conductive connecting column 14 is commonly installed at one end of each conductive rod 13 far away from the magnetic conductive cylinder 12, two magnetic rings 141 are symmetrically installed at the middle section of the conductive connecting column 14, magnetic conductive covers 142 are symmetrically inserted at two ends of the conductive connecting column 14 in a sliding manner, a low-voltage lead wire 3 is installed at one end of each magnetic conductive cover 142 far away from the conductive connecting column 14, a plurality of non-magnetic conductive strips 21 are annularly embedded at equal intervals on the blocking sleeve 2, a plurality of magnetic stripes 22 are embedded on the inner wall of the blocking sleeve 2 in an equidistant annular manner.

The magnetic strips 22 correspond to the annular positions of the magnetic conductive cylinders 12 one by one, and each magnetic strip 22 is positioned between two non-magnetic conductive strips 21;

the blocking sleeve 2 can rotate in the climbing process, the rotating blocking sleeve 2 enables the non-magnetic conductive strips 21 to be close to and contacted with the magnetic conductive cylinder 12, the non-magnetic conductive strips 21 are electrically connected with the magnetic conductive cylinder 12, the magnetic conductive cylinder 12 is electrically connected with the magnetic conductive cover 142 and the low-voltage lead 3 through the conductive rod 13 and the conductive connecting column 14, the non-magnetic conductive strips 21 are electrified, current flows to the palm of a climber from the non-magnetic conductive strips 21, so that the climber generates a numb feeling to warn and compel the climber to abandon climbing, the power supply voltage of the low-voltage lead 3 is lower than the safety voltage of a human body, the human body is prevented from being injured, the anti-climbing effect of the barrier is improved, and the human body cannot be injured;

after the climbing personnel give up climbing, the blocking sleeve 2 continues to rotate under the action of inertia, the rotating blocking sleeve 2 enables the magnetic strip 22 to be close to the magnetic conductive cylinder 12, the magnetic strip 22 and the magnetic conductive cylinder 12 are finally contacted due to mutual attraction and the blocking sleeve 2 is static, at the moment, the non-magnetic conductive strip 21 is disconnected from the magnetic conductive cylinder 12, therefore, the non-magnetic conductive strip 21 is uncharged, people nearby cannot be accidentally injured due to normal touch, and the use safety of the isolation barrier is improved.

The sliding stroke of the magnetic conductive cylinder 12 is larger than the thickness of the tube wall of the isolating transverse tube 1, and the maximum rotating radius of the magnetic conductive cylinder 12 is equal to the radius of the outer wall of the isolating transverse tube 1;

the magnetic conductive cylinders 12 can be completely sleeved on the conductive rods 13 through extrusion, when the plurality of magnetic conductive cylinders 12 are all extruded and sleeved on the conductive rods 13, at the moment, as the sliding stroke of the magnetic conductive cylinders 12 is larger than the pipe wall thickness of the isolating transverse pipe 1 and the maximum rotating radius of the magnetic conductive cylinders 12 is equal to the radius of the outer wall of the isolating transverse pipe 1, the circular outer diameters of the plurality of extruded magnetic conductive cylinders 12 are smaller than the inner diameter of the isolating transverse pipe 1, even though the plurality of conductive rods 13 and the plurality of magnetic conductive cylinders 12 can be quickly installed in the isolating transverse pipe 1 and are clamped in the installation holes 11 under the rebounding action of the installation springs 121, the installation convenience is improved;

two magnetic rings 141 that the symmetry set up on electrically conductive spliced pole 14 make the quick accurate cover of the magnetism on the low pressure wire 3 establish at the both ends of electrically conductive spliced pole 14 through magnetic attraction, can be promptly in keeping apart violently pipe 1 high-speed joint installation low pressure wire 3, further increase the convenience of installation, and the low pressure wire 3 that the sectional type is connected is because of can not influencing the use of front end railing after keeping apart the railing and being destroyed, and can the quick replacement installation in maintenance process, increase the convenience of maintenance and reduce cost of maintenance.

When the magnetic isolation horizontal tube is used, the conductive rod 13 and the magnetic conductive tube 12 are compressed and plugged into the isolation horizontal tube 1, after the magnetic conductive tube 12 is aligned with the mounting hole 11, the mounting spring 121 rebounds to push the magnetic conductive tube 12 to be plugged into the mounting hole 11, then the low-voltage wire 3 and the magnetic conductive cover 142 are inserted into the isolation horizontal tube 1, the magnetic conductive cover 142 is quickly and accurately sleeved on the conductive connecting column 14 under the attraction of the magnetic ring 141, and safe voltage is introduced into the low-voltage wire 3 for use after all the magnetic conductive cover is mounted;

when a climber climbs, the blocking sleeve 2 rotates, the rotating blocking sleeve 2 enables the non-magnetic conductive strips 21 to be in contact connection with the magnetic conductive cylinder 12, then the safe voltage in the low-voltage lead 3 is transmitted to a palm through the magnetic conductive cover 142, the conductive connecting column 14, the conductive rod 13, the magnetic conductive cylinder 12 and the non-magnetic conductive strips 21 to cause a numb feeling, the climber is forced to give up climbing, the anti-climbing effect is improved, the safety is improved, after the climbing is given up, the blocking sleeve 2 rolls under the action of inertia, due to attraction between the magnetic conductive cylinder 12 and the magnetic strips 22, the magnetic strips 22 are finally close to and in contact with the magnetic conductive cylinder 12, at the moment, the blocking sleeve 2 stops rotating and restores to a normal state, the non-magnetic conductive strips 21 are disconnected from the magnetic conductive cylinder 12, the non-electrified state is restored, accidental injury to normally touched persons is avoided, and the safety of the persons is further improved.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims

1. The climbing-prevention isolation railing comprises a horizontal isolation pipe (1) and is characterized in that a stopping sleeve (2) is sleeved on the horizontal isolation pipe (1) in a rotating mode, a plurality of mounting holes (11) are formed in the horizontal isolation pipe (1) in an equidistance mode in the transverse direction, the mounting holes (11) are distributed on the horizontal isolation pipe (1) in an annular mode, each mounting hole (11) is internally provided with a magnetic conductive cylinder (12) in an inserted mode, each magnetic conductive cylinder (12) is internally provided with a mounting spring (121), each magnetic conductive cylinder (12) is internally provided with a conductive rod (13) in an inserted mode in a sliding mode, a plurality of conductive rods (13) are far away from one end of each magnetic conductive cylinder (12) and are jointly provided with a conductive connecting column (14), two magnetic rings (141) are symmetrically installed in the middle section of each conductive connecting column (14), and magnetic conductive covers (142) are symmetrically inserted in two ends of each conductive connecting column (14) in, every low pressure wire (3) are all installed to the one end that electrically conducts cover (142) is kept away from electrically conductive spliced pole (14), equidistant annular is inlayed and is equipped with a plurality of non-magnetic conducting strip (21) on stopping cover (2), equidistant annular is inlayed and is equipped with a plurality of magnetic stripes (22) on the inner wall of stopping cover (2).

2. An anti-climb barrier according to claim 1, characterized in that a number of said magnetic strips (22) are in one-to-one correspondence with the annular positions of a number of said magnetically conductive cylinders (12), each of said magnetic strips (22) being located in the middle of two non-magnetic conductive strips (21).

3. The anti-climbing isolation barrier according to claim 1, characterized in that the sliding stroke of the magnetic conductive cylinder (12) is larger than the wall thickness of the isolation transverse pipe (1) and the maximum rotation radius of the magnetic conductive cylinder (12) is equal to the outer wall radius of the isolation transverse pipe (1).