CN116884155A - Alarm host based on vibration optical cable alarm system - Google Patents

Abstract

The invention discloses an alarm host based on a vibration optical cable alarm system, which relates to the technical field of vibration optical cable alarm systems and comprises a protection shell, a host and a locking bolt, wherein locking blocks are arranged on the upper side and the lower side of the protection shell, a positioning groove is formed in the inner side of the protection shell, an adjusting groove is formed in the outer side of the front part of the protection shell, a tension spring is connected to the left side of the inner part of the positioning groove, and a sealing block is connected to the outer end of the tension spring. When the host machine is powered off or briefly downtime occurs due to unexpected faults, the electromagnet is powered off by the power off and downtime, after the electromagnet is powered off, the locking bolt is pulled out of the butt joint groove by the reset spring due to the fact that magnetic force absorption is lost, the locking of the host machine and the protective shell can be released, at the moment, the host machine and the sealing block rebound due to the tensile force of the tension spring, and in the patrol process, workers only need to observe whether the host machine rebounds or not, and whether the host machine fails or not can be effectively judged.

Description

Alarm host based on vibration optical cable alarm system

Technical Field

The invention relates to the technical field of vibration optical cable alarm systems, in particular to an alarm host based on a vibration optical cable alarm system.

Background

The vibration optical cable sensing alarm system consists of five parts, namely a monitor, a main control instrument, a sensor, a sensing optical cable and an alarm host. The system monitor and the main control instrument are positioned in the monitoring room, the guide optical cable, the sensing optical cable and the alarm host are arranged outdoors, the guide optical cable and the sensing optical cable are connected into the alarm host, the alarm host analyzes data transmitted by the guide optical cable and the sensing optical cable, when the optical fiber sensor is affected by external interference, part of characteristics of transmitted light in the optical fiber can be changed, the optical sensing equipment is configured, the characteristic change of light can be detected through signal acquisition and analysis, the characteristic change of light is analyzed and processed by the alarm host to distinguish the intrusion behavior of a third party from normal interference, and when the alarm host analyzes the intrusion behavior of the third party, the alarm signal can be transmitted to the main control instrument to realize the function of alarm.

Because the alarm host needs to be connected with the guide optical cable and the sensing optical cable to realize optical cable vibration monitoring, in order to consider the arrangement convenience of the guide optical cable and the sensing optical cable, the alarm host is usually arranged outdoors, but the common alarm host on the market is poor in concealment, lawless persons can easily find the alarm host to damage, and in addition, the common alarm host on the market is difficult to effectively detect if the alarm host breaks down, and only careful overhaul can find the fault.

Accordingly, in view of the above, an alarm host based on a vibration optical cable alarm system is proposed, which is improved in view of the existing structure and the drawbacks.

Disclosure of Invention

The invention aims to provide an alarm host based on a vibration optical cable alarm system so as to solve the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides an alarm host computer based on vibration optical cable alarm system, includes protective housing, host computer and locking bolt, protective housing's upper and lower both sides are provided with the locking piece, and protective housing's inboard has been seted up the positioning groove, the adjustment groove has been seted up in protective housing's the front portion outside, the inside left side of positioning groove is connected with tension spring, tension spring's outer end is connected with the sealing block, and the front portion of sealing block has seted up first wire winding groove, the host computer is disposed in sealing block's left portion outside, and the second wire winding groove has been seted up in the front portion outside of host computer, the docking groove has been seted up on the front portion right side of host computer, and the inboard of docking groove is provided with the electro-magnet, protective housing's inboard is provided with reset spring, the locking bolt is settled in reset spring's outer end, the wire connection groove has been seted up to the inboard of host computer, and the inboard of wire connection groove is provided with the docking socket, the opening part of wire connection groove is provided with the rubber gasbag, the right side of wire connection groove has the automatically controlled valve, and the middle-end of gas-supply pipe has the butt joint cable, the outer end of docking socket is connected with the butt joint plug.

Further, the protection shell is in a cylinder shape, and the protection shell is fixedly connected with the cylinder through the locking block.

Furthermore, the adjusting groove is in a ring shape, and the radian of the sealing block and the radian of the host are the same as the radian of the adjusting groove.

Further, the tension spring is elastically connected with the sealing block, and the sealing block is integrated with the host.

Further, the optical cable is arranged in the second winding groove, and the second winding groove is communicated with the first winding groove.

Further, the locking bolt is elastically connected with the reset spring, and is in electromagnetic adsorption connection with the electromagnet.

Further, the butt joint groove enables the host machine to be clamped with the protection shell through clamping with the locking bolt.

Further, the rubber air bag is annular, and the rubber air bag is fixedly connected with the wiring groove.

Further, the air pipe is communicated with the rubber air bag, and the rubber air bag is attached to the outer surface of the optical cable after being inflated.

Further, the host is electrically connected with the docking plug through the docking socket, and the docking plug is electrically connected with the optical cable.

The invention provides an alarm host based on a vibration optical cable alarm system, which comprises the following steps of

The beneficial effects are that:

1. according to the invention, after the optical cable is in butt joint, the electric control valve is controlled to be opened by a worker, so that the gas pipe is communicated with the rubber airbag, at the moment, the worker can fill high-speed gas into the gas pipe, so that the rubber airbag is expanded and can be attached to the outer surface of the optical cable after expanding, the rubber airbag can fill a gap between the optical cable and the wiring groove so as to prevent external rainwater from entering the wiring groove, the situation of short circuit of the optical cable is caused, and meanwhile, the expanded rubber airbag can squeeze the butt joint plug towards the butt joint socket, so that the probability of releasing and separating the butt joint socket and the butt joint plug in the using process of the equipment can be reduced.

2. The invention starts the host machine, the host machine is electrified and runs, after the host machine is started, the host machine slides rightwards, the host machine can drive the sealing block to displace in the positioning groove, after the host machine is electrified, the electromagnet at the inner side of the butt joint groove can be electrified to generate magnetic force, after the host machine slides to the tail end of the positioning groove, the butt joint groove can be flush with the position of the locking bolt, at the moment, the locking bolt can pull the reset spring to pop out and be clamped into the inner side of the butt joint groove due to the magnetic attraction of the electromagnet, the host machine can be locked in the protection shell after displacement through the clamping of the butt joint groove and the locking bolt, and at the moment, the sealing block can shield the adjusting groove, so that the sealing block is matched with the protection shell, the host machine can be completely isolated from the external environment, the stability of the host machine in the working process is ensured, and meanwhile, when the host machine is in power failure or short-time down due to the unexpected faults, the power failure and the power failure of the electromagnet can lead to the power failure of the electromagnet, the locking bolt can be pulled out of the butt joint groove due to the loss of the magnetic force absorption, the locking bolt can be locked in the protection shell after the power failure, the host machine can be intuitively observed, if the failure can be avoided, and the failure of the host machine can be visually observed, and the failure can be avoided.

3. When the host machine is fixed and slides at the inner side of the positioning groove, the optical cable connected at the inner side of the host machine can be automatically bent and enter the inner side of the second winding groove due to the influence of sliding force and the limit of the protective shell, after the host machine is positioned in the protective shell, the optical cable can extend to the inner side of the first winding groove from the second winding groove and extend out of the device through the first winding groove, through the design, the device can automatically complete wiring of the optical cable when the host machine is fixed, the second winding groove and the first winding groove are in array-shaped design, the second winding groove and the first winding groove can be separated in the wiring process, so that confusion can be avoided in the repair process, in addition, after the host machine is fixed, the optical cable can be clamped in the protective shell of the host machine, the situation that external tension is transmitted to the butt joint plug to cause the optical cable to loose can be avoided, after the device is arranged, the whole device is fixed on the wire pole, the optical cable extends into the protective shell like a common wire, and the device can be camouflaged into a power distribution box of the wire pole, and the malicious damage probability can be reduced.

Drawings

FIG. 1 is a schematic diagram of the overall perspective structure of an alarm host based on a vibration optical cable alarm system of the present invention;

FIG. 2 is a schematic cross-sectional structure diagram of an alarm host based on a vibration optical cable alarm system of the present invention;

FIG. 3 is a schematic diagram of a perspective structure of an alarm host based on a vibration optical cable alarm system according to the present invention;

FIG. 4 is a schematic diagram of a locking bolt structure of an alarm host based on a vibration optical cable alarm system;

FIG. 5 is a schematic diagram of the internal structure of a wiring trough of an alarm host based on a vibration optical cable alarm system.

In the figure: 1. a protective housing; 2. a locking block; 3. a positioning groove; 4. an adjustment groove; 5. a tension spring; 6. a sealing block; 7. a first wire winding groove; 8. a host; 9. a second wire winding groove; 10. a butt joint groove; 11. an electromagnet; 12. a return spring; 13. a locking bolt; 14. wiring grooves; 15. a docking receptacle; 16. a rubber air bag; 17. a gas pipe; 18. an electric control valve; 19. a docking plug; 20. an optical cable.

Detailed Description

Referring to fig. 1 to 5, the present invention provides the following technical solutions: the utility model provides an alarm host computer based on vibration optical cable alarm system, including protective housing 1, host computer 8 and locking bolt 13, protective housing 1's upper and lower both sides are provided with locking piece 2, and protective housing 1's inboard has been seted up positioning groove 3, adjusting groove 4 has been seted up in protective housing 1's the front portion outside, positioning groove 3's inside left side is connected with tension spring 5, tension spring 5's outer end is connected with sealing block 6, and sealing block 6's front portion has been seted up first wire winding groove 7, host computer 8 settles in sealing block 6's left portion outside, and second wire winding groove 9 has been seted up in host computer 8's front portion outside, docking groove 10 has been seted up on host computer 8's front portion right side, and docking groove 10's inboard is provided with electro-magnet 11, protective housing 1's inboard is provided with reset spring 12, locking bolt 13 has been settled in reset spring 12's outer end, grafting groove 14 has been seted up to host computer 8's inboard, and wiring groove 14's inboard is provided with docking socket 15, the opening department of grafting groove 14 is provided with rubber gasbag 16, the right side of grafting groove 14 is connected with a pipe 17, and the well electric control valve 19 is provided with in the front end of the port cable 17, and the end is connected with the end of the butt joint plug 19, the end of the electric control valve 19 is connected with the end of the gas-line 19.

Referring to fig. 1 to 5, a protection housing 1 is in a cylindrical shape, the protection housing 1 is fixedly connected with a column body through a locking block 2, an adjusting groove 4 is in a circular ring shape, the radian of a sealing block 6 and a host 8 is the same as that of the adjusting groove 4, a tension spring 5 is elastically connected with the sealing block 6, the sealing block 6 is integrated with the host 8, an optical cable 20 is arranged in a second winding groove 9, the second winding groove 9 is communicated with a first winding groove 7, a locking bolt 13 is elastically connected with a reset spring 12, the locking bolt 13 is in electromagnetic adsorption connection with an electromagnet 11, a butting groove 10 is fixedly connected with a wiring groove 14 through the host 8 and the protection housing 1, a rubber air bag 16 is in a circular shape, a gas pipe 17 is communicated with the rubber air bag 16, the rubber air bag 16 is adhered to the outer surface of the optical cable 20 after being expanded, the host 8 is electrically connected with a butting plug 19 through a butting socket 15, and the butting plug 19 is electrically connected with the optical cable 20;

the specific operation is as follows: when a worker lays equipment, the protective shell 1 is sleeved on a telegraph pole, the protective shell 1 can be fixed at the outer end of the telegraph pole by screwing a locking bolt into the locking block 2, after the protective shell 1 is laid, the wiring groove 14 of the host 8 can be at the exposed position of the adjusting groove 4, the worker inserts an optical cable 20 which needs to be in butt joint with the equipment into the inner side of the wiring groove 14, the butt joint plug 19 of the optical cable 20 can be in butt joint with the butt joint socket 15 of the inner side of the wiring groove 14, so that the connection between the optical cable 20 and the host 8 is realized, after the butt joint of the optical cable 20 is completed, the worker controls the opening of the electric control valve 18, the gas pipe 17 can be communicated with the rubber airbag 16, at the moment, the worker can pour high-speed gas into the gas pipe 17, the high-speed gas can enter the rubber airbag 16 to expand the rubber airbag 16, and after the rubber airbag 16 expands, can be attached to the outer surface of the optical cable 20, so that the rubber air bag 16 can fill the gap between the optical cable 20 and the wiring groove 14, so as to prevent external rainwater from entering the wiring groove 14, the condition of short circuit of the optical cable 20 is caused, meanwhile, the inflated rubber air bag 16 can squeeze the docking plug 19 towards the direction of the docking socket 15, the probability of the docking socket 15 and the docking plug 19 being separated in the use process of the device can be reduced, after the optical cable 20 is fixed, a worker starts the host 8, the host 8 is electrified to run, after the host 8 is started, the worker slides the host 8 rightwards, the host 8 can drive the sealing block 6 to displace in the positioning groove 3, after the host 8 is electrified, the electromagnet 11 at the inner side of the docking groove 10 generates magnetic force, after the host 8 slides to the tail end of the positioning groove 3, the docking groove 10 is flush with the position of the locking bolt 13, the locking bolt 13 can pull the reset spring 12 to pop up due to the magnetic attraction of the electromagnet 11 and is clamped into the inner side of the docking groove 10, the host computer 8 can be locked in the protective shell 1 after displacement through the clamping of the docking groove 10 and the locking bolt 13, the sealing block 6 can shield the adjusting groove 4, the sealing block 6 is matched with the protective shell 1, the host computer 8 can be completely isolated from the external environment, the stability of the host computer 8 in the working process is ensured, meanwhile, the use safety of the equipment can be ensured through the double protection of the protective shell 1 and the sealing block 6, when the host computer 8 is powered off or temporarily crashed due to unexpected faults, the electromagnet 11 is powered off and crashed, after the electromagnet 11 is powered off, the locking bolt 13 can be pulled out of the docking groove 10 by the reset spring 12 due to the fact that the magnetic attraction is lost, the locking of the host computer 8 and the protective shell 1 can be relieved, at this time, the host 8 and the sealing block 6 rebound due to the tension of the tension spring 5, and a worker only needs to observe whether the host 8 rebounds or not in the patrol process, so as to effectively judge whether the host 8 fails, which can effectively reduce the probability of failure of the host 8 but no discovery, and simultaneously, the failure of the equipment can be visualized, in addition, when the host 8 slides inside the positioning slot 3 in the fixing process, the optical cable 20 connected inside the host 8 automatically bends and enters the inner side of the second winding slot 9 due to the influence of sliding force and the limit of the protective housing 1, after the host 8 completes positioning inside the protective housing 1, the optical cable 20 extends to the inner side of the first winding slot 7 from the second winding slot 9, and extends out of the equipment through the first winding slot 7, through the design, the equipment can automatically complete the wiring of the optical cable 20 when the host 8 is fixed, because the second wire winding groove 9 and the first wire winding groove 7 are all in array form design, this can guarantee that every optical cable line 20 can both separate at the wiring in-process, so as not to examine and repair the in-process and take place to confuse, after host computer 8 accomplishes fixedly in addition, optical cable line 20 can block and carry out spacingly at host computer 8 protective housing 1, this can avoid external pulling force to transmit to butt joint plug 19 department, lead to the condition emergence that optical cable 20 is taken off, after the equipment is laid and is accomplished, because of equipment is wholly fixed on the wire pole, optical cable line 20 stretches into inside protective housing 1 like ordinary electric wire, this makes equipment can camouflage into the block terminal of wire pole, thereby reduce the probability of being maliciously damaged.

In summary, when the alarm host based on the vibration optical cable alarm system is used, firstly, when a worker lays equipment, the protective shell 1 is sleeved on a telegraph pole, and the protective shell 1 can be fixed at the outer end of the telegraph pole by screwing a locking bolt into the locking block 2, after the protective shell 1 is laid, the wiring groove 14 of the host 8 is at the exposed position of the adjusting groove 4, and the worker inserts an optical cable 20 which needs to be in butt joint with the equipment into the inner side of the wiring groove 14, so that the butt joint plug 19 of the optical cable 20 is in butt joint with the butt joint socket 15 at the inner side of the wiring groove 14, and the connection between the optical cable 20 and the host 8 is realized;

then after the optical cable 20 is in butt joint, the electric control valve 18 is controlled to be opened by a worker, so that the air pipe 17 is communicated with the rubber air bag 16, at the moment, the worker can fill high-speed air into the air pipe 17, the high-speed air can enter the rubber air bag 16 to expand the rubber air bag 16, the rubber air bag 16 can be attached to the outer surface of the optical cable 20 after being expanded, the rubber air bag 16 can fill a gap between the optical cable 20 and the wiring groove 14 so as to prevent external rainwater from entering the inside of the wiring groove 14, the situation that the optical cable 20 is in short circuit occurs, meanwhile, the expanded rubber air bag 16 can squeeze the butt joint plug 19 towards the direction of the butt joint plug 15, and the probability of loosening and separating the butt joint plug 19 from the butt joint plug 15 in the use process of the equipment can be reduced;

after the optical cable 20 is fixed, a worker starts the host 8 to enable the host 8 to be electrified and run, after the host 8 is started, the worker slides the host 8 to the right, the host 8 can drive the sealing block 6 to displace in the positioning groove 3, after the host 8 is electrified, the electromagnet 11 on the inner side of the butt joint groove 10 can be electrified to generate magnetic force, after the host 8 slides to the tail end of the positioning groove 3, the butt joint groove 10 can be flush with the position of the locking bolt 13, at the moment, the locking bolt 13 can pull the reset spring 12 to pop up due to the magnetic attraction of the electromagnet 11 and is clamped into the inner side of the butt joint groove 10, the host 8 can be locked in the protective shell 1 after displacement through the clamping of the butt joint groove 10 and the locking bolt 13, and at the moment, the sealing block 6 can shield the adjusting groove 4, so that the sealing block 6 is matched with the protective shell 1, the host 8 can be completely isolated from the external environment, the stability of the host 8 in the working process can be ensured, meanwhile, the use safety of equipment can be ensured through the double protection of the protective shell 1 and the electromagnet 11 can be temporarily stopped due to the fact that the power failure or breakdown occurs when the host 8 is failed or the power failure happens;

after the electromagnet 11 is powered off, the locking bolt 13 is pulled out of the butt joint groove 10 by the reset spring 12 due to the fact that magnetic force absorption is lost, so that the locking of the host computer 8 and the protective shell 1 is released, at the moment, the host computer 8 and the sealing block 6 rebound due to the tensile force of the tension spring 5, a worker only needs to observe whether the host computer 8 rebounds or not in the patrol process, whether the host computer 8 fails or not can be effectively judged, the probability that the host computer 8 fails but no person is found can be effectively reduced, and meanwhile, the failure of equipment can be visualized;

finally, when the host 8 slides inside the positioning groove 3 in the fixing process, the optical cable 20 connected to the inner side of the host can be automatically bent and enter the inner side of the second winding groove 9 due to the influence of sliding force and the limit of the protective shell 1, after the host 8 completes positioning inside the protective shell 1, the optical cable 20 can extend to the inner side of the first winding groove 7 from the second winding groove 9 and extend out of the device through the first winding groove 7, through the design, the device can automatically complete wiring of the optical cable 20 when the host 8 is fixed, the second winding groove 9 and the first winding groove 7 are all in an array-shaped design, each optical cable 20 can be separated in the wiring process so as to avoid confusion in the repair process, in addition, after the host 8 completes fixing, the optical cable 20 can be clamped inside the protective shell 1 of the host 8, the situation that the external world is transmitted to the butt joint plug 19 is avoided, the optical cable 20 is loose is prevented from being generated, after the device is integrally fixed on a wire rod, the device extends into the protective shell 1 like an ordinary wire, and the wire 20 can be camouflaged inside the protective shell, and the malicious probability of the wire rod can be reduced.

The embodiments of the invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (10)

1. The utility model provides an alarm host computer based on vibration optical cable alarm system, its characterized in that, including protective housing (1), host computer (8) and locking bolt (13), the upper and lower both sides of protective housing (1) are provided with locking piece (2), and the inboard of protective housing (1) has been seted up and has been adjusted positioning groove (3), adjustment groove (4) have been seted up in the anterior outside of protective housing (1), the inside left side of adjusting positioning groove (3) is connected with tension spring (5), the outer end of tension spring (5) is connected with sealing block (6), and the front portion of sealing block (6) has been seted up first wire winding groove (7), host computer (8) are settled in the left portion outside of sealing block (6), and the second wire winding groove (9) have been seted up in the front portion outside of host computer (8), docking groove (10) have been seted up on the front portion right side of host computer (8), and docking groove (10) are provided with electro-magnet (11), the inboard of protective housing (1) is provided with reset spring (12), the front end of sealing bolt (13) has been seted up in the front portion outside of sealing block (6), the inside (13) has been set up in the wire connection groove (13), the right side of wiring groove (13) is connected with gas-supply pipe (17), and the middle-end of gas-supply pipe (17) is provided with automatically controlled valve (18), the outer end of butt joint socket (15) is connected with butt joint plug (19), and the end-to-end connection of butt joint plug (19) has optical cable line (20).

2. The alarm host machine based on the vibration optical cable alarm system according to claim 1, wherein the protection shell (1) is cylindrical, and the protection shell (1) is fixedly connected with the column body through the locking block (2).

3. The alarm host machine based on the vibration optical cable alarm system according to claim 1, wherein the adjusting groove (4) is in a ring shape, and the radian of the sealing block (6) and the radian of the host machine (8) are the same as the radian of the adjusting groove (4).

4. The alarm host machine based on the vibration optical cable alarm system according to claim 1, wherein the tension spring (5) is elastically connected with the sealing block (6), and the sealing block (6) is integrated with the host machine (8).

5. An alarm host based on a vibrating fiber optic cable alarm system according to claim 1, wherein the fiber optic cable (20) is disposed within a second wire-winding slot (9), and the second wire-winding slot (9) is in communication with the first wire-winding slot (7).

6. The alarm host machine based on the vibration optical cable alarm system according to claim 1, wherein the locking bolt (13) is elastically connected with the reset spring (12), and the locking bolt (13) is in electromagnetic adsorption connection with the electromagnet (11).

7. The alarm host based on the vibration optical cable alarm system according to claim 1, wherein the docking groove (10) enables the host (8) to be clamped with the protective shell (1) through clamping with the locking bolt (13).

8. The alarm host machine based on the vibration optical cable alarm system according to claim 1, wherein the rubber air bag (16) is annular, and the rubber air bag (16) is fixedly connected with the wiring groove (13).

9. The alarm host machine based on the vibration optical cable alarm system according to claim 1, wherein the air pipe (17) is communicated with the rubber air bag (16), and the rubber air bag (16) is attached to the outer surface of the optical cable (20) after being inflated.

10. The alarm host based on the vibration optical cable alarm system according to claim 1, wherein the host (8) is electrically connected with the docking plug (19) through the docking socket (15), and the docking plug (19) is electrically connected with the optical cable (20).