CN113415381A

CN113415381A - Novel dual fail-safe is broken out for lamp buoy tether based on internet of things

Info

Publication number: CN113415381A
Application number: CN202110663477.8A
Authority: CN
Inventors: 徐杰
Original assignee: Chaohu Qunli Marine Anchor Chain Co ltd
Current assignee: Chaohu Qunli Marine Anchor Chain Co ltd
Priority date: 2021-06-15
Filing date: 2021-06-15
Publication date: 2021-09-21

Abstract

The invention discloses a novel double-safety shackle for a light buoy tether based on the Internet of things technology, relates to the technical field of buoy tethers, and aims to solve the problems that in the prior art, due to the fact that a place is limited, most of beacon chains adopt a stacking mode, counting is difficult, tracking is difficult, confusion is easy to happen, and the like, and further the beacon chains are difficult to manage and inconvenient to use. The bottom of terminal shackle is provided with the hangers, and the hangers sets up to the integral type structure with terminal shackle, one side of terminal shackle is provided with the sign fluting, and the grooved surface of sign is provided with the resin filled glue, be provided with the metal bolt between the hangers, and the both ends of metal bolt all are provided with the round pin cap, the grooved inside of sign is provided with the aluminum product lagging, and the aluminum product lagging is connected with the laminating of sign fluting, the inside of aluminum product lagging is provided with the label caulking groove, and the both ends of label caulking groove all are provided with the signal basin.

Description

Novel dual fail-safe is broken out for lamp buoy tether based on internet of things

Technical Field

The invention relates to the technical field of buoy tethers, in particular to a novel double-safety shackle for a lamp buoy tether based on the technology of Internet of things.

Background

The buoy is a water surface navigation aid mark for marking a navigation channel, a shoal, an obstacle or showing special purposes, and is a metal device, one end of the buoy is tied to the water bottom, the buoy floats on the water surface to indicate the boundary of the navigation channel, the sailing obstacle and a dangerous area, in the navigation management, a buoy anchor chain is an important guarantee for the safety of the navigation channel, the chain systems are similar in appearance, large in quantity and weight and have no stable identity, and the traditional visual identification is corroded and worn during the application and operation of the navigation chain and is difficult to classify.

However, in reality, due to site limitation, most of the beacon chains adopt a stacking mode, and the problems of difficult statistics, difficult tracking, easy confusion and the like exist all the time, so that the beacon chains are difficult to manage and inconvenient to use; therefore, the existing requirements are not met, and a novel double-safety shackle for a buoy-lamp tether based on the internet of things technology is provided for the requirements.

Disclosure of Invention

The invention aims to provide a novel double-safety shackle for a buoy-light tether based on the Internet of things technology, and aims to solve the problems that due to site limitation, most of beacon chains adopt a stacking mode, counting is difficult, tracking is difficult, confusion is easy to happen, and the like, so that the beacon chains are difficult to manage and inconvenient to use.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a novel light buoy tether is broken out with dual fail-safe based on internet of things, breaks out including the end, the bottom that the end was broken out is provided with the hangers, and the hangers breaks out with the end and sets up to the integral type structure, one side that the end was broken out is provided with the sign fluting, and the grooved surface of sign is provided with the resin filling glue, be provided with the metal bolt between the hangers, and the both ends of metal bolt all are provided with the round pin cap.

Preferably, the aluminum sleeve plate is arranged inside the mark slot and is attached to the mark slot.

Preferably, the inside of aluminum product lagging is provided with the label caulking groove, and the both ends of label caulking groove all are provided with the signal basin groove.

Preferably, the inside of label caulking groove is provided with the passive label of high frequency, and the passive label of high frequency is connected with the laminating of label caulking groove.

Preferably, the inside of hangers is provided with the bolt perforation, and metal bolt passes through the bolt perforation and is connected with the hangers.

Preferably, the outer surface of the hangers is provided with transverse through holes, the two ends of the metal bolt are provided with through holes, and the aperture of each through hole is the same as that of each transverse through hole.

Preferably, the inside of the transverse through hole is provided with a locking thimble, the locking thimble is connected with the through hole and the transverse through hole in a combined manner, the two ends of the transverse through hole are respectively provided with a sealing plug, and the sealing plugs are in fit connection with the transverse through hole.

Preferably, the locking thimble comprises a tensioning end and a withdrawing end.

Compared with the prior art, the invention has the beneficial effects that:

1. the cross-shaped penetrating structure can be formed by the bolt penetrating hole and the transverse penetrating hole, so that a transverse supporting stress can be formed by matching the locking thimble with the hanging lug on the basis of bolt welding to form a double-insurance design, and the whole shackle structure can not fall off even if the situation of welding line corrosion breakage occurs;

2. in the process of installing the bolt, the through holes on the surfaces of the two ends of the bolt and the transverse through holes on the inner side of the hanging lug need to be corrected, after the correction is finished, the tensioning end head at one end of the locking thimble is pinched and then inserted into the transverse through holes, the hammer body is used for knocking the needle withdrawing end head at the other end, the whole locking thimble traverses the hanging lug and the bolt, the locking thimble is fixed in the hanging lug and the bolt by utilizing the rebound tension of the tensioning end head, and finally the sealing plugs are installed in the residual spaces of the two transverse through holes, so that the sediment in water is prevented from blocking the two ends of the locking thimble;

3. under the condition of not influencing the use of the fairway buoy anchor chain and the shackle, the anchor chain and the shackle body are subjected to slotting to fix the JY-K9522 passive tag and are subjected to sealing and waterproof treatment, so that good waterproof and wear-resistant effects can be achieved, and the JY-U7920 ultrahigh frequency handset is used for scanning and identifying.

Drawings

FIG. 1 is an overall front view of the present invention;

FIG. 2 is a schematic view of the mark slot structure of the present invention;

FIG. 3 is a schematic structural view of an aluminum sheathing of the present invention;

FIG. 4 is a schematic view of the structure of the hanger of the present invention;

fig. 5 is a schematic view of a locking thimble according to the present invention.

In the figure: 1. end shackle; 2. hanging a lug; 3. a metal bolt; 4. a pin cap; 5. marking and slotting; 6. resin filling glue; 7. an aluminum sheathing plate; 8. inserting a label into the groove; 9. a high-frequency passive tag; 10. a signal basin; 11. punching a bolt; 12. transversely perforating; 13. locking the thimble; 14. sealing; 15. perforating; 16. tensioning the end head; 17. withdrawing the needle tip.

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, an embodiment of the present invention: novel dual fail-safe is broken out for light buoy tether based on internet of things, including terminal 1 that breaks out, terminal 1 area that breaks out is 1661.06/mm²And the tensile load is 548.8KN, the breaking load is 1097.60KN, the bottom of the tail-end shackle 1 is provided with a hanging lug 2, the hanging lug 2 and the tail-end shackle 1 are arranged into an integrated structure, one side of the tail-end shackle 1 is provided with an identification slot 5, the outer surface of the identification slot 5 is provided with resin filling glue 6, the size structure of the identification slot 5 is 100 × 25 × 7mm, a metal bolt 3 is arranged between the hanging lugs 2, two ends of the metal bolt 3 are both provided with pin caps 4, the metal bolt 3 is inserted between the hanging lugs 2 from a perforation when in use, then the pin caps 4 are installed at two ends of the metal bolt 3, after the product is installed, the pin holes on the front side and the back side of the shackle are welded to be dead so as to prevent the corrosion and the falling of the pin from causing the buoy flow to cause the float flowThe target phenomenon.

Referring to fig. 2-3, an aluminum sleeve plate 7 is arranged inside a mark slot 5, the aluminum sleeve plate 7 is in fit connection with the mark slot 5, a label embedding groove 8 is arranged inside the aluminum sleeve plate 7, signal grooves 10 are respectively arranged at two ends of the label embedding groove 8, a high-frequency passive label 9 is arranged inside the label embedding groove 8, the high-frequency passive label 9 is in fit connection with the label embedding groove 8, when the aluminum sleeve plate is used, the high-frequency passive label 9 is arranged inside the aluminum sleeve plate 7, wave frequency signals emitted from the back of the label can be gathered and reflected through the signal grooves 10 at the two ends of the sleeve plate, so that the signal penetrating power of the high-frequency passive label 9 can be enhanced, the stability of a signal source is guaranteed, the type of the high-frequency passive label 9 is JY-K9522, and JY-K9522 passive labels are fixed by slotting anchor chains and shackle bodies under the condition that the use of the navigation mark anchor chains and shackles is not affected, and sealed waterproof treatment is carried out, good waterproof and wear-resistant effects can be achieved, and JY-U7920 ultrahigh frequency handset is used for scanning and identification.

JY-K9522 product function:

main material	FR4	Operating temperature	25 to 85 DEG below zero
				Frequency of operation	902-928MHz	Preservation temperature	40 to 120 DEG below zero
Over-the-air protocol	EPC Class1 Gen2；ISO18000-6C	Preservation humidity						5％～95％
				Chip type	Alien H3 (optional H4 chip)	Mounting means	3M300LSE back glue, or screw, rivet, super glue
Chip memory	EPC 96bits, user interval 512bits	IP level	IP63
				Read-write performance	Readable and writable	Polarization mode of label	Linear polarization
Distance between reading and writing	0-6 m	Alcohol testing	Test pass of 95% alcohol
				Size of product	95223.0mm	Gasoline test	No. 92 gasoline wiping pass
Size of positioning hole	The diameter of the tube is 3.5mm, and the center distance is 87.8mm	High and low temperature alternation	100 times at-40- +85 DEG CAlternating cycle 30 days test pass
				Product weight	13.2 g	Drop test	1 m high and 200 times drop test pass

Referring to fig. 4-5, a pin through hole 11 is formed inside the suspension loop 2, the metal pin 3 is connected to the suspension loop 2 through the pin through hole 11, a horizontal through hole 12 is formed on the outer surface of the suspension loop 2, opposite through holes 15 are formed at both ends of the metal pin 3, the aperture of the opposite through holes 15 is the same as that of the horizontal through hole 12, the pin through hole 11 and the horizontal through hole 12 can form a cross-shaped penetrating structure, so that a horizontal supporting stress can be formed by matching the locking thimble 13 with the suspension loop 2 on the basis of pin welding, a double-safety design is formed, so that the whole shackle structure can be prevented from falling off even if the welding line is rusted and broken, the locking thimble 13 is arranged inside the horizontal through hole 12, the locking thimble 13 is combined with the opposite through hole 15 and the horizontal through hole 12, and the sealing plugs 14 are arranged at both ends of the horizontal through hole 12, and the sealing plug 14 is in fit connection with the transverse through hole 12, the locking thimble 13 comprises a tensioning end 16 and a withdrawing end 17, the through hole 15 on the surface of the two ends of the locking thimble and the transverse through hole 12 on the inner side of the hanging lug 2 need to be calibrated in the process of installing the bolt, after the calibration is finished, the tensioning end 16 at one end of the locking thimble 13 is pinched and then inserted into the transverse through hole 12, the withdrawing end 17 at the other end is knocked by a hammer body, the whole locking thimble 13 passes through the hanging lug 2 and the bolt, the locking thimble 13 is fixed in the hanging lug 2 and the bolt by the rebound tension of the tensioning end 16, and finally the sealing plug 14 is installed in the residual space of the two transverse through holes 12, so that the sediment in water is prevented from blocking the two ends of the locking thimble 13.

And (3) checking and detecting reports:

the working principle is as follows: when the device is used, the metal bolt 3 is inserted into the space between the hanging lugs 2 from the through hole, then the pin caps 4 are installed at two ends of the metal bolt 3, after the product is installed, the pin holes on the front side and the back side of the shackle are welded to prevent the corrosion and the falling of the pin from causing the buoy flow mark phenomenon, the opposite through holes 15 on the surfaces of two ends of the bolt and the transverse through holes 12 on the inner sides of the hanging lugs 2 need to be calibrated in the process of installing the bolt, after the calibration is finished, the tensioning end head 16 at one end of the locking thimble 13 is pinched and then inserted into the transverse through holes 12, the hammer body is used for knocking the withdrawing end head 17 at the other end, the whole locking thimble 13 transversely penetrates through the hanging lugs 2 and the bolt, the locking thimble 13 is fixed in the hanging lugs 2 and the bolt by utilizing the rebound tension of the tensioning end head 16, finally the sealing plug 14 is installed in the residual space of the two transverse through holes 12 to prevent silt in water from blocking at two ends of the locking thimble 13, and be provided with sign fluting 5 in one side of end shackle 1, and sign fluting 5's size structure is 100 × 25 × 7mm, be provided with aluminum product lagging 7 in sign fluting 5's inside, this aluminum product lagging 7 is connected with sign fluting 5 laminating, pack into the inside of aluminum product lagging 7 with high frequency passive label 9 during the equipment, the signal basin 10 through the lagging both ends can be gathered together the reflection with the wave frequency signal that the label back sent, can strengthen the signal penetrating power of high frequency passive label 9 like this, ensure the stability of signal source, later carry out sealed water repellent, can accomplish fine waterproof, wear-resisting effect, and use JY-U7920 ultrahigh frequency handset to scan the discernment.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. The utility model provides a novel lamp buoy is dual fail-safe is broken out for tether based on internet of things, includes terminal break out (1), its characterized in that: the bottom of terminal shackle (1) is provided with hangers (2), and hangers (2) and terminal shackle (1) set up to the integral type structure, one side of terminal shackle (1) is provided with sign fluting (5), and the surface of sign fluting (5) is provided with resin filling glue (6), be provided with between hangers (2) metal bolt (3), and the both ends of metal bolt (3) all are provided with round pin cap (4).

2. The novel double-insurance shackle for the buoy light tether based on the internet of things technology of claim 1, is characterized in that: the inside of sign fluting (5) is provided with aluminum product lagging (7), and aluminum product lagging (7) and sign fluting (5) laminating are connected.

3. The novel double-insurance shackle for the buoy light tether based on the internet of things technology as claimed in claim 2, wherein: the aluminum product lagging (7) is internally provided with a label caulking groove (8), and both ends of the label caulking groove (8) are provided with signal basin grooves (10).

4. The novel double-insurance shackle for a buoy-lamp tether based on the internet of things technology of claim 3, wherein: the inside of label caulking groove (8) is provided with high frequency passive label (9), and high frequency passive label (9) are connected with label caulking groove (8) laminating.

5. The novel double-insurance shackle for the buoy light tether based on the internet of things technology of claim 1, is characterized in that: the inside of hangers (2) is provided with bolt perforation (11), and metal bolt (3) are connected with hangers (2) through bolt perforation (11).

6. The novel double-insurance shackle for the buoy light tether based on the internet of things technology of claim 5, wherein: the outer surface of hangers (2) is provided with horizontal perforation (12), and the both ends of metal bolt (3) all are provided with perforation (15), it is the same with horizontal perforation (12) bore to perforation (15).

7. The novel double-insurance shackle for the buoy light tether based on the internet of things technology of claim 6, wherein: the novel horizontal perforation structure is characterized in that a locking ejector pin (13) is arranged inside the horizontal perforation (12), the locking ejector pin (13) is connected with the opposite perforation (15) and the horizontal perforation (12) in a combined mode, sealing plugs (14) are arranged at two ends of the horizontal perforation (12), and the sealing plugs (14) are connected with the horizontal perforation (12) in a matched mode.

8. The novel dual-safety shackle for the buoy light tether based on the internet of things technology of claim 7, wherein: the locking thimble (13) comprises a tensioning end (16) and a withdrawing end (17).