CN115296241A - Suspension wire clamp for preventing ship body from falling off and implementation method thereof - Google Patents

Abstract

The invention discloses a suspension wire clamp for preventing a ship body from falling off and an implementation method thereof, and belongs to the technical field of suspension wire clamps. The suspension wire clamp comprises a hull wire clamp bracket and a prefabricated stranded wire sleeve, wherein a stress supporting hanging plate is arranged below the hull wire clamp bracket, the prefabricated stranded wire sleeve is installed inside the hull wire clamp bracket through a wire tightening groove, the wire tightening groove is of an arc-shaped structure, and a lock hoop wire tightening plate clamp is arranged above the prefabricated stranded wire sleeve. In the long-term outdoor environment in-process of using is pressed from both sides for solving current plumb bob, its connection metalwork and fastener self can receive the influence of environmental factor to the problem of corrosion appears, when the hull fastener bracket played the bearing to lock hoop grip block clamp and lock hoop sill stay backing plate, lock hoop sill stay backing plate can cooperate the stress support hanger plate of bottom to play the effect of a bearing to hull fastener bracket again, and then promoted the stability of whole fastener.

Description

Suspension wire clamp for preventing ship body from falling off and implementation method thereof

Technical Field

The invention relates to the technical field of suspension wire clamps, in particular to a suspension wire clamp for preventing a ship body from falling off and an implementation method thereof.

Background

The suspension clamp consists of a hanger U-shaped bolt, a clamp hull made of malleable cast iron and a pressure plate. The other type is a pre-twisted suspension clamp, and the suspension clamp is used for fixing a lead on an insulator string of a linear tower, or suspending a lightning conductor on the linear tower, and can also be used for supporting the fixing of a transposed lead and a tension corner tower jumper on a transposed tower; application number 201620176636.6 discloses a suspension clamp, when using this suspension clamp to carry out the wire installation, can ensure the grip of suspension clamp and wire, this suspension clamp can increase the grip of product when installing the wire and reduce the dislocation displacement between wire and the clamp.

1) When the suspension wire clip is used in a long-term outdoor environment, the connecting metal piece and the wire clip are influenced by environmental factors, so that the suspension wire clip is corroded;

2) Under the special weather condition, wind power can drive the cable to swing, and can constantly produce collision friction and pull between wobbling cable and the fastener, the problem that the fastener can appear metal fatigue in the past in this long time.

Disclosure of Invention

The invention aims to provide a suspension wire clamp for preventing a ship body from falling off and an implementation method thereof.

In order to achieve the purpose, the invention provides the following technical scheme: a suspension clamp for preventing a ship body from falling off comprises a ship body clamp bracket and a prefabricated stranded wire sleeve, wherein a stress supporting hanging plate is arranged below the ship body clamp bracket, the prefabricated stranded wire sleeve is installed inside the ship body clamp bracket through a wire tightening groove, the wire tightening groove is of an arc-shaped structure, a lock hoop wire tightening plate clamp is arranged above the prefabricated stranded wire sleeve, and a U-shaped support hanging plate is arranged above the lock hoop wire tightening plate clamp;

the lock cramping wire clamp comprises an arc-shaped clamp plate and a triangular support frame, the arc-shaped clamp plate and the triangular support frame are arranged into an integral structure, the arc-shaped clamp plate is connected with the prefabricated stranded wire sleeve in a laminating mode, the top of the triangular support frame is provided with a bearing rotary groove, and alignment penetrating grooves on two sides of the bearing rotary groove penetrate through the outer surface of the triangular support frame and extend to the outer surface of the triangular support frame.

Preferably, the lower part that the lock hoop stringing plate pressed from both sides is provided with the lock hoop shoe plate, and the lock hoop shoe plate is located the bottom of prefabricated hank silk thread cover, both sides between lock hoop shoe plate and the lock hoop stringing plate pressed from both sides all are provided with the extension and hang the davit, and the extension hangs the davit and is provided with four.

Preferably, the extension hangs the davit and includes otic placode, axle connecting rod and end axle sleeve, and wherein, the otic placode presss from both sides welded connection with prefabricated hank silk thread cover and lock clamp thread plate respectively, the end axle sleeve sets up the both ends at the axle connecting rod, and an end axle sleeve sets up the integral type structure with the otic placode, the telescopic inside of end axle is provided with stress spring, and the axle connecting rod passes through stress spring and an end axle sleeve sliding connection.

Preferably, U type support link plate includes U type ear mouth and adversion end, the adversion end is installed in the inside of accepting the turn trough, and the groove is worn through counterpoint the screw rod with the counterpoint to the adversion end and is connected, the adversion end rotates with the counterpoint screw rod to be connected.

Preferably, the both sides of hull fastener bracket all are provided with the extension curb plate, and the counterpoint screw rod runs through the both sides surface that extends to the extension curb plate, the both sides of extension curb plate internal surface all are provided with the stop collar groove, and prefabricated hank silk thread cover and lock hoop tension line board all are connected with the stop collar groove through the otic placode.

Preferably, the both ends of extension curb plate all are provided with wears muscle hole axle, wear muscle hole axle and hull fastener bracket to set up to integrated into one piece structure, the inside of wearing muscle hole axle is provided with U type cuff lock pole, and U type cuff lock pole runs through and wears muscle hole axle and extend to the surface of stress support hanger plate.

Preferably, the inner side of the rib penetrating hole shaft is provided with a prefabricated lock groove, the U-shaped hoop lock rod is connected with the stress supporting hanging plate through a nut, and the U-shaped hoop lock rod is connected with the arc-shaped clamping plate in an attaching mode.

Preferably, the bottom of the stress supporting hanging plate is provided with a shaft penetrating screw rod, the shaft penetrating screw rod penetrates through the stress supporting hanging plate and extends to the inner side of the ship body wire clamp bracket, and the shaft penetrating screw rod is connected with the lock hoop bottom support base plate through a thread bottom hole.

Preferably, the top of the stress supporting hanging plate is of an arc structure, the bottom of the stress supporting hanging plate is of a plane structure, and the top of the stress supporting hanging plate is attached to the bottom of the ship body wire clamp bracket.

An implementation method of a suspension clamp for preventing a ship body from falling off comprises the following steps:

the method comprises the following steps: attaching the stress supporting hanging plate to the bottom of the ship body wire clamp bracket, locking and fixing the stress supporting hanging plate and the ship body wire clamp bracket through a shaft penetrating screw rod, then installing a lock hoop bottom support base plate above a hole groove in the ship body wire clamp bracket, and continuously screwing the shaft penetrating screw rod inwards to enable the lock hoop bottom support base plate to enter the lock hoop bottom support base plate;

step two: then the prefabricated stranded wire sleeve is installed on the surface of the cable, after the installation is finished, the cable with the prefabricated stranded wire sleeve penetrates through the space between the lock hoop bottom support base plate and the lock hoop tightening line plate clamp, and then the height of the U-shaped hoop lock rod at the two ends of the line clamp is adjusted;

step three: thereby utilize U type cover hoop lock lever to push down the arc mouth splint and accomplish tight operation of clamp to prefabricated hank twine line cover, pack into the adversion end of U type support link plate bottom the lock hoop grip line clamp top in accepting the turn trough, the rethread counterpoint screw rod is established ties hull fastener bracket, lock hoop grip line clamp and U type support link plate and is fixed.

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

1. according to the invention, the lock hoop bracing wire plate clamp and the lock hoop bottom support backing plate are respectively arranged above and below the prefabricated stranded wire sleeve, when the cable clamp is used, a cable with the prefabricated stranded wire sleeve penetrates through the lock hoop bottom support backing plate and the lock hoop bracing wire plate clamp, and finally, the whole suspension wire clamp is fixed below the insulating hanger through the U-shaped support hanging plate;

2. according to the invention, the lock hoop tightening line plate clamp is connected with the lock hoop bottom support base plate through the extension suspension arms, the four extension suspension arms are respectively positioned at two sides of the plate clamp and the base plate, the prefabricated stranded wire sleeve is inserted between the plate clamp and the base plate, the extension suspension arm main body consists of a bridge shaft connecting rod and a bridge shaft sleeve, wherein the bridge shaft sleeve is arranged at two ends of the bridge shaft connecting rod, a stress spring is arranged in the bridge shaft sleeve, the bridge shaft connecting rod is in telescopic connection with the bridge shaft sleeve through the stress spring, and the upper lock hoop tightening line plate clamp can perform high adjustment operation in the process of locking the prefabricated stranded wire sleeve so as to adapt to the prefabricated stranded wire sleeves with different size structures;

2. according to the invention, the stress support hanging plate is attached to the bottom of the ship body wire clamp bracket, the attachment surface between the stress support hanging plate and the ship body wire clamp bracket is of an arch structure, the stress support hanging plate and the ship body wire clamp bracket are locked and fixed through the shaft penetrating screw rod on the outer surface of the stress support hanging plate, after the fixation is finished, the lock hoop bottom support base plate is installed above the hole groove in the ship body wire clamp bracket, and the shaft penetrating screw rod is continuously screwed inwards to enable the shaft penetrating screw rod to enter the threaded bottom hole in the bottom of the lock hoop bottom support base plate, so that the stress support hanging plate, the ship body wire clamp bracket and the lock hoop bottom support base plate are connected and fixed, and the lock hoop bottom support base plate can play a role in supporting and fixing the bracket through the U-shaped support hanging plate on the top of the lock hoop tightening plate clamp, so that even if a connecting piece of the ship body wire clamp bracket is corroded and broken, the lock hoop bottom support base plate and the stress support hanging plate can prevent the bracket from falling off.

Drawings

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

FIG. 2 is a schematic structural view of a U-shaped bracket hanging plate of the invention;

FIG. 3 is a schematic view of the structure of the plate clamp for locking and tightening the wire according to the present invention;

FIG. 4 is a schematic cross-sectional view of an extended suspension arm of the present invention;

FIG. 5 is a schematic view of the hull clamp bracket construction of the present invention;

fig. 6 is a schematic sectional structure view of the ship hull clamp bracket of the invention.

In the figure: 1. a hull wire clamp bracket; 2. a stress-supporting hanger plate; 3. prefabricating a twisted wire sleeve; 4. the wire clamp is locked and tightened; 5. a lock hoop bottom support backing plate; 6. a U-shaped bracket hanging plate; 7. expanding the suspension arm; 101. tightening a wire slot; 102. a bar hole shaft; 103. a U-shaped ferrule lock rod; 104. extending the side plates; 105. aligning the screw rod; 1021. prefabricating a lock groove; 1041. a limiting sleeve groove; 201. a shaft penetrating screw rod; 401. a curved jaw plate; 402. a triangular support frame; 4021. a receiving rotary trough; 4022. aligning and penetrating the groove; 501. a threaded bottom hole; 601. a U-shaped ear opening; 602. an inward turning end; 701. an ear plate; 702. a bridge shaft connecting rod; 703. an end shaft sleeve; 704. a stress spring.

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, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-3, a suspension clamp for preventing a ship body from falling off comprises a ship body clamp bracket 1 and a prefabricated stranded wire sleeve 3, wherein a stress supporting hanging plate 2 is arranged below the ship body clamp bracket 1, the prefabricated stranded wire sleeve 3 is installed inside the ship body clamp bracket 1 through a wire tightening groove 101, the wire tightening groove 101 is of an arc structure, a lock hoop wire tightening plate clamp 4 is arranged above the prefabricated stranded wire sleeve 3, a U-shaped support hanging plate 6 is arranged above the lock hoop wire tightening plate clamp 4, the lock hoop wire tightening plate clamp 4 comprises an arc-shaped clamping plate 401 and a triangular bracket 402, the arc-shaped clamping plate 401 and the triangular bracket 402 are of an integrated structure, the arc-shaped clamping plate 401 is connected with the prefabricated stranded wire sleeve 3 in a fit manner, a bearing rotary groove 4021 is arranged at the top of the triangular bracket 402, and alignment penetrating grooves 4022 at two sides of the bearing rotary groove 4021 penetrate through and extend to the outer surface of the triangular bracket 402;

the whole suspension clamp consists of a ship body clamp bracket 1, a prefabricated stranded wire sleeve 3, a stress supporting hanging plate 2, a lock hoop tightening plate clamp 4 and a lock hoop bottom bracing base plate 5 below the lock hoop tightening plate clamp 4, wherein the lock hoop tightening plate clamp 4 and the lock hoop bottom bracing base plate 5 are respectively arranged above and below the prefabricated stranded wire sleeve 3, when in use, a cable with the prefabricated stranded wire sleeve 3 passes through the space between the lock hoop bottom bracing base plate 5 and the lock hoop tightening plate clamp 4, and finally, the whole suspension wire is clamped and fixed below an insulating hanger through a U-shaped bracket hanging plate 6, between the whole clamps, the ship body clamp bracket 1 plays a role of supporting the lock hoop tightening plate clamp 4 and the lock hoop tightening plate clamp 5, and the lock hoop bottom bracing base plate 5 can play a role of supporting the clamp bracket 1 by matching with the stress supporting hanging plate 2 at the bottom, thereby improving the stability of the whole clamp,

referring to fig. 2-4, a lock hoop shoe plate 5 is disposed below the lock hoop stringing plate clamp 4, the lock hoop shoe plate 5 is located at the bottom of the preformed twisted wire sleeve 3, two sides between the lock hoop shoe plate 5 and the lock hoop stringing plate clamp 4 are provided with four extension suspension arms 7, the extension suspension arms 7 include four extension suspension arms 701, each extension suspension arm 7 includes an ear plate 701, a bridge shaft connecting rod 702 and an end shaft sleeve 703, wherein the ear plates 701 are respectively welded to the preformed twisted wire sleeve 3 and the lock hoop stringing plate clamp 4, the end shaft sleeves 703 are disposed at two ends of the bridge shaft connecting rod 702, the end shaft sleeves 703 and the ear plates 701 are configured as an integral structure, a stress spring 704 is disposed inside the end shaft sleeves, the bridge shaft connecting rod 702 is slidably connected to the end shaft sleeve 703 through the stress spring, the U-shaped bracket hanging plate 6 includes a U-shaped ear 601 and an inner turning end 602, the inner turning end 602 is disposed inside the receiving turning groove 4021, the inner turning end 602 is connected to the alignment groove 4022 through an alignment screw 105, and the rotary screw 602 is connected to the alignment screw 105;

the lock hoop tightening plate clamp 4 is connected with the lock hoop bottom support base plate 5 through an extension suspension arm 7, the four extension suspension arms 7 are respectively positioned at two sides of the plate clamp and the base plate, the prefabricated stranded wire sleeve 3 penetrates through the plate clamp and the base plate, the extension suspension arm 7 main body consists of a bridge shaft connecting rod 702 and an end shaft sleeve 703, wherein the end shaft sleeve 703 is arranged at two ends of the bridge shaft connecting rod 702, a stress spring 704 is arranged in the end shaft sleeve 703, the bridge shaft connecting rod 702 is in telescopic connection with the end shaft sleeve 703 through the stress spring 704, the upper lock hoop tightening plate clamp 4 can be subjected to height adjustment operation in the process of locking the prefabricated stranded wire sleeve 3 so as to adapt to the prefabricated stranded wire sleeves 3 with different size structures, and meanwhile, a certain gap can be reserved on the U-shaped sleeve locking rod 103 in the process of matching with the locking of the U-shaped hoop tightening plate clamp 103, so that when a cable swings, the internal stress spring 704 can assist the lock hoop tightening plate clamp 4 to play a role in buffering the shock absorption connection piece, thereby prolonging the service life of the shock absorption connection piece;

u type support link plate 6 is installed at the top of lock cramping line plate clamp 4, is the suspension support piece of whole fastener structure, and its both ends design respectively has U type ear mouth 601 and adversion end 602, and wherein, adversion end 602 is installed in the inside of accepting runner 4021 to wear to be connected through counterpoint screw rod 105 between the groove 4022 with counterpointing, U type ear mouth 601 then can be with insulating stores pylon between be connected fixedly.

Referring to fig. 5-6, both sides of a ship body wire clamp bracket 1 are provided with extension side plates 104, alignment screws 105 penetrate and extend to both side surfaces of the extension side plates 104, both sides of the inner surface of the extension side plates 104 are provided with limit sleeve grooves 1041, a prefabricated stranded wire sleeve 3 and a lock hoop tension plate are connected with the limit sleeve grooves 1041 through lug plates 701, both ends of the extension side plates 104 are provided with reinforcement through hole shafts 102, the reinforcement through hole shafts 102 and the ship body wire clamp bracket 1 are arranged into an integrated structure, the reinforcement through hole shafts 102 are internally provided with U-shaped sleeve lock rods 103, the U-shaped sleeve lock rods 103 penetrate through the reinforcement through hole shafts 102 and extend to the outer surface of a stress support hanging plate 2, the inner sides of the reinforcement through hole shafts 102 are provided with prefabricated lock grooves 1021, the U-shaped sleeve lock rods 103 are connected with the stress support hanging plate 2 through nuts, the U-shaped sleeve lock rods 103 are connected with an arc-mouth clamp plate 401 in an attaching manner, the bottom of the stress support hanging plate 2 is provided with shaft screws 201, the shaft screws 201 penetrate through the stress support hanging plate 2 and extend to the inner sides of the ship body wire clamp bracket 1, the stress support hanging plate 2 is arranged as a plane structure, and the top of the support hanging plate 2 is connected with the stress support hanging plate 501;

stress support hanger plate 2 laminating is installed in the bottom of hull fastener bracket 1, binding face between the two is domes, then it is fixed to lock the two through the axle screw 201 that wears of stress support hanger plate 2 surface, after accomplishing fixed, install lock hoop heel brace backing plate 5 in the inside hole groove top of hull fastener bracket 1, continue to inwards screw and wear axle screw 201, make and closely wear axle screw 201 and enter into the screw bottom hole 501 of lock hoop heel brace backing plate 5 bottom, stress support hanger plate 2 like this, hull fastener bracket 1 and lock hoop heel brace backing plate 5 between have just realized connecting fixedly, wherein, lock hoop heel brace backing plate 5 links to each other with the stores pylon through the U type support link plate 6 at lock hoop tight wire clamp 4 top again, so even the cracked condition of corrosion appears in the connecting piece of hull fastener bracket 1, lock hoop heel brace backing plate 5 cooperation stress support hanger plate 2 can also play a bearing fixed effect to the bracket, prevent to appear coming off.

In order to better show the implementation process of the suspension clamp for preventing the hull from falling off, the embodiment provides an implementation method of the suspension clamp for preventing the hull from falling off, which comprises the following steps:

the method comprises the following steps: attaching the stress supporting hanging plate 2 to the bottom of the ship body wire clamp bracket 1, locking and fixing the stress supporting hanging plate and the ship body wire clamp bracket 1 through a shaft penetrating screw rod 201, then installing the lock hoop bottom support base plate 5 above a hole groove in the ship body wire clamp bracket 1, and continuously screwing the shaft penetrating screw rod 201 inwards to enable the lock hoop bottom support base plate to enter the lock hoop bottom support base plate 5;

step two: then the prefabricated stranded wire sleeve 3 is installed on the surface of the cable, after the installation is finished, the cable with the prefabricated stranded wire sleeve 3 passes through the space between the lock hoop bottom support base plate 5 and the lock hoop tightening plate clamp 4, and then the height of the U-shaped hoop lock rod 103 at the two ends of the cable clamp is adjusted;

step three: utilize U type cuff locking lever 103 to push down the arc mouth splint 401 and thus accomplish the tight operation of clamp to prefabricated stranded conductor line cover 3, pack the interior commentaries on classics end 602 of U type support link plate 6 bottom into the groove 4021 of accepting at lock hoop grip block clamp 4 top finally, rethread counterpoint screw 105 with hull fastener bracket 1, lock hoop grip block clamp 4 and U type support link plate 6 carry out the series connection fixed.

The working principle is that the locking and hooping wire tightening plate clamp 4 is connected with the locking and hooping bottom bracing base plate 5 through the extension suspension arm 7, four extension suspension arms 7 are respectively positioned at two sides of the plate clamp and the base plate, the prefabricated wire stranding sleeve 3 is inserted between the plate clamp and the base plate, the extension suspension arm 7 main body is composed of a bridge shaft connecting rod 702 and an end shaft sleeve 703, wherein the end shaft sleeve 703 is arranged at two ends of the bridge shaft connecting rod 702, a stress spring 704 is arranged inside the end shaft sleeve 703, the bridge shaft connecting rod 702 is in telescopic connection with the end shaft sleeve 703 through the stress spring 704, the upper locking and hooping wire tightening plate clamp 4 can perform height adjustment operation in the locking process of the prefabricated wire stranding sleeve 3 so as to adapt to the prefabricated wire stranding sleeves 3 with different sizes, and meanwhile, a certain gap can be reserved on the U-shaped hoop locking rod 103 in the locking process of matching the U-shaped hoop locking rod 103, thus, when the cable swings, the internal stress spring 704 can assist the lock hoop tightening plate clamp 4 to play a role in buffering and damping, so that the service life of the connecting piece is prolonged, when in use, the stress supporting hanging plate 2 is attached to the bottom of the ship body wire clamp bracket 1 and is locked and fixed through the shaft penetrating screw rod 201, then the lock hoop bottom support backing plate 5 is installed above the hole groove in the ship body wire clamp bracket 1, the shaft penetrating screw rod 201 is continuously screwed inwards to enable the stress supporting hanging plate 2 to enter the inside of the lock hoop bottom support backing plate 5, the stress supporting hanging plate 2 is attached to the bottom of the ship body wire clamp bracket 1, the attachment surface between the two is of an arch structure, then the two are locked and fixed through the shaft penetrating screw rod 201 on the outer surface of the stress supporting hanging plate 2, after the fixation is completed, the lock hoop bottom support backing plate 5 is installed above the hole groove in the ship body wire clamp bracket 1, continue inwards to screw and wear axle screw 201, make and tightly wear axle screw 201 and enter into the screw bottom hole 501 of lock hoop sill backing plate 5 bottom, stress support hanger plate 2 like this, just it is fixed to have realized connecting between hull fastener bracket 1 and the lock hoop sill backing plate 5, wherein, lock hoop sill backing plate 5 links to each other with the stores pylon through the U type support link plate 6 at lock hoop tightening wire clamp 4 top again, so even the cracked condition of corrosion appears in the connecting piece of hull fastener bracket 1, lock hoop sill backing plate 5 cooperation stress support hanger plate 2 also can play the fixed effect of a bearing to the bracket, prevent to appear droing.

It should be noted that, in this document, relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that various changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides a prevent suspension clamp that hull drops, includes hull clamp bracket (1) and prefabricated stranded wire cover (3), its characterized in that: the hull fastener bracket is characterized in that a stress supporting hanging plate (2) is arranged below the hull fastener bracket (1), the prefabricated stranded wire sleeve (3) is installed in the hull fastener bracket (1) through a wire tightening groove (101), the wire tightening groove (101) is of an arc-shaped structure, a lock hoop tightening plate clamp (4) is arranged above the prefabricated stranded wire sleeve (3), and a U-shaped support hanging plate (6) is arranged above the lock hoop tightening plate clamp (4).

2. The suspension clamp for preventing the hull from falling off as claimed in claim 1, wherein: the lock hoop stringing board clamp (4) comprises an arc opening clamp plate (401) and a triangular bracket (402), the arc opening clamp plate (401) and the triangular bracket (402) are arranged into an integral structure, the arc opening clamp plate (401) is connected with a prefabricated stranded wire sleeve (3) in a laminating mode, the top of the triangular bracket (402) is provided with a bearing rotary groove (4021), a contraposition through groove (4022) of two sides of the bearing rotary groove (4021) penetrates through the outer surface of the triangular bracket (402), a lock hoop bottom support base plate (5) is arranged below the lock hoop stringing board clamp (4), the lock hoop bottom support base plate (5) is located at the bottom of the prefabricated stranded wire sleeve (3), both sides of the lock hoop bottom support base plate (5) and the lock hoop stringing board clamp (4) are provided with extension suspension arms (7), and the extension suspension arms (7) are provided with four extension suspension arms.

3. The suspension clamp for preventing the hull from falling off as claimed in claim 2, wherein: the extension suspension arm (7) comprises an ear plate (701), a bridge shaft connecting rod (702) and an end shaft sleeve (703), wherein the ear plate (701) is respectively connected with the prefabricated stranded wire sleeve (3) and the locking and tightening wire clamp (4) in a welding mode, the end shaft sleeve (703) is arranged at two ends of the bridge shaft connecting rod (702), the end shaft sleeve (703) and the ear plate (701) are arranged into an integrated structure, a stress spring (704) is arranged inside the end shaft sleeve (703), and the bridge shaft connecting rod (702) is connected with the end shaft sleeve (703) in a sliding mode through the stress spring (704).

4. The suspension clamp for preventing the hull from falling off as claimed in claim 3, wherein: u type support link plate (6) include U type ear mouth (601) and adversion end (602), adversion end (602) are installed and are being accepted the inside of runner (4021), and adversion end (602) are worn groove (4022) with counterpointing and are connected through counterpoint screw rod (105), adversion end (602) are rotated with counterpoint screw rod (105) and are connected.

5. The suspension clamp for preventing the hull from falling off as claimed in claim 4, wherein: both sides of hull fastener bracket (1) all are provided with extension curb plate (104), run through the both sides surface that extends to extension curb plate (104) counterpoint screw rod (105), the both sides of extension curb plate (104) internal surface all are provided with stop collar groove (1041), and prefabricated hank silk thread cover (3) and lock hoop tightening plate all are connected with stop collar groove (1041) through otic placode (701).

6. The suspension clamp for preventing the falling of the ship body according to claim 5, characterized in that: both ends of the extension side plates (104) are provided with a rib penetrating shaft (102), the rib penetrating shaft (102) and the ship body wire clamp bracket (1) are arranged to be of an integrally formed structure, a U-shaped hoop locking rod (103) is arranged inside the rib penetrating shaft (102), and the U-shaped hoop locking rod (103) penetrates through the rib penetrating shaft (102) and extends to the outer surface of the stress supporting hanging plate (2).

7. The suspension clamp for preventing the hull from falling off as claimed in claim 6, wherein: the inner side of the rib hole penetrating shaft (102) is provided with a prefabricated lock groove (1021), the U-shaped hoop lock rod (103) is connected with the stress supporting hanging plate (2) through a nut, and the U-shaped hoop lock rod (103) is connected with the arc-shaped clamping plate (401) in a fitting mode.

8. The suspension clamp for preventing the falling of the ship body according to claim 7, characterized in that: the bottom of the stress supporting hanging plate (2) is provided with a shaft penetrating screw rod (201), the shaft penetrating screw rod (201) penetrates through the stress supporting hanging plate (2) and extends to the inner side of the ship body wire clamp bracket (1), and the shaft penetrating screw rod (201) is connected with the lock hoop bottom support base plate (5) through a threaded bottom hole (501).

9. The suspension clamp for preventing the hull of the ship from falling off as claimed in claim 8, wherein: the top of the stress supporting hanging plate (2) is of an arc structure, the bottom of the stress supporting hanging plate (2) is of a plane structure, and the top of the stress supporting hanging plate (2) is attached to the bottom of the ship body wire clamp bracket (1) and is connected with the bottom of the ship body wire clamp bracket.

10. An implementation method of the suspension clamp for preventing the hull from falling off is realized on the basis of the suspension clamp for preventing the hull from falling off in claim 9, and comprises the following steps:

the method comprises the following steps: attaching the stress supporting hanging plate (2) to the bottom of the ship body wire clamp bracket (1), locking and fixing the stress supporting hanging plate and the ship body wire clamp bracket through a shaft penetrating screw rod (201), then installing the lock hoop bottom support base plate (5) above a hole groove in the ship body wire clamp bracket (1), and continuously screwing the shaft penetrating screw rod (201) inwards to enable the lock hoop bottom support base plate to enter the lock hoop bottom support base plate (5);

step two: then the prefabricated stranded wire sleeve (3) is installed on the surface of the cable, after the installation is finished, the cable with the prefabricated stranded wire sleeve (3) penetrates through the space between the lock hoop bottom support base plate (5) and the lock hoop tightening plate clamp (4), and then the height of the U-shaped hoop lock rod (103) at the two ends of the cable clamp is adjusted;

step three: the U-shaped hoop lock rod (103) is utilized to press the arc-shaped clamping plate (401) downwards to clamp the prefabricated stranded wire sleeve (3), finally, an inward turning end (602) at the bottom of the U-shaped support hanging plate (6) is arranged in a bearing rotating groove (4021) at the top of the locking and tightening wire plate clamp (4), and then the ship body wire clamp bracket (1), the locking and tightening wire plate clamp (4) and the U-shaped support hanging plate (6) are fixed in series through the aligning screw rod (105).

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