CN213303767U

CN213303767U - Flame-retardant hollow compression-resistant double-layer insulating plate

Info

Publication number: CN213303767U
Application number: CN202021839325.6U
Authority: CN
Inventors: 赵俊力
Original assignee: Hunan Zhuoxing Electronics Co ltd
Current assignee: Hunan Zhuoxing Electronics Co ltd
Priority date: 2020-08-28
Filing date: 2020-08-28
Publication date: 2021-05-28
Anticipated expiration: 2030-08-28

Abstract

The utility model discloses a flame retardant formula hollow resistance to compression double-deck insulation board, including body, splice plate and cavity, the cavity has been seted up to the inside intermediate position department of body, the body inside of cavity top and bottom has all transversely been seted up and has been strengthened the chamber, and strengthens the fire-retardant layer of the inside equal horizontal fixedly connected with of body of chamber one end, the inside equal horizontal fixedly connected with waterproof layer of body of fire-retardant layer one end, and one side fixedly connected with splice plate of body, the spacing groove has all transversely been seted up all around on one side of splice plate, the both ends of splice plate top and bottom are all fixed articulated to have the apron, the equal horizontal fixedly connected with and spacing groove matched with stopper all around of body opposite side. The utility model discloses a set up compressive structures inside the cavity, utilize the resistance to compression gasbag after the inflation and buffer spring's elastic deformation, offset the influence that external force caused to the body, improve the crushing resistance of this device.

Description

Flame-retardant hollow compression-resistant double-layer insulating plate

Technical Field

The utility model relates to an insulation board technical field specifically is a hollow resistance to compression double-deck insulation board of flame retardant formula.

Background

Along with the development of society, the rapid development of electric power in China, and the popularization of electric power networks, we need to spend more time and manpower to engage in electric power operation, simultaneously in order to ensure the normal operation of electric power operation, need use the insulating board to assist work, avoid the incident that electric power leakage produced, but current hollow double-deck insulating board still has a lot of problems or defects:

firstly, the traditional hollow double-layer insulating plate has no compression-resistant structure when in use, and is easy to damage when being subjected to a larger external force;

secondly, the traditional hollow double-layer insulating plate is not provided with a splicing structure when in use, the size of the insulating plate is fixed, the insulating plate cannot be spliced and installed quickly, and the working efficiency is reduced;

third, traditional hollow double-deck insulation board, the function is more single during the use, and the insulation board can only play insulating effect alone, and the functionality is more single.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a hollow resistance to compression double-deck insulation board of flame retardant formula to solve inconvenient resistance to compression, inconvenient concatenation and the more single problem of function that proposes in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a flame retardant formula hollow resistance to compression double-deck insulation board, includes body, splice plate and cavity, the cavity has been seted up to the inside intermediate position department of body, and the inside of cavity evenly is provided with compressive structure, the enhancement chamber has all transversely been seted up to the body inside of cavity top and bottom, and strengthens the fire-retardant layer of the inside equal horizontal fixedly connected with of body of chamber one end, the inside equal horizontal fixedly connected with waterproof layer of the body of fire-retardant layer one end, and one side fixedly connected with splice plate of body, the spacing groove has all transversely been seted up all around on one side of splice plate, and the splice plate inside of spacing groove one end all is provided with mounting structure, the equal fixed articulated apron that has in both ends on splice plate top and bottom, the equal horizontal fixedly connected with all around of body opposite side and spacing.

Preferably, the reinforcing rib is uniformly and fixedly connected inside the reinforcing cavity, and the reinforcing rib is W-shaped.

Preferably, compressive structure's inside has set gradually resistance to compression case, resistance to compression gasbag, buffer spring, anti-pressing block and piston, the even fixed connection of resistance to compression gasbag is in the inside bottom of cavity, and the cavity of resistance to compression gasbag both sides is inside all to be provided with the resistance to compression case through the pipe, the intermediate position department of resistance to compression incasement portion evenly is provided with buffer spring, and the equal sliding connection in resistance to compression incasement portion of buffer spring top and bottom has the piston, piston one end all runs through have with the inside top of cavity and bottom welded anti-pressing block.

Preferably, mounting hole, installation piece, installation spring, fixed case and installation pole have been set gradually to mounting structure's inside, the equal fixed connection of fixed case is inside the splice plate of spacing groove one end, and the equal vertical installation pole that has run through in fixed roof end, the installation spring has all been twined to the fixed incasement portion of installation pole surface one end, and the equal fixedly connected with installation piece of fixed incasement portion of installation pole one end, the inside one side one end of stopper has all been seted up and has been installed piece matched with mounting hole.

Preferably, the limiting groove and the limiting block are symmetrically distributed about the transverse central axis of the body, and the limiting groove and the limiting block are convex in shape.

Preferably, one side of the splicing plate, which is far away from the body, is fixedly connected with a sealing ring in an annular manner, and one side of the splicing plate, which is far away from the inside of the body, is provided with a sealing groove matched with the sealing ring in an annular manner.

Compared with the prior art, the beneficial effects of the utility model are that:

(1) by uniformly arranging the compression-resistant structures in the cavity, when the body is subjected to a large external force, pressure is transmitted into the cavity, so that the compression-resistant block moves towards the direction close to the compression-resistant box, the piston is driven to slide in the compression-resistant box to compress the buffer spring, meanwhile, the relative motion of the piston conveys air in the compression-resistant box to the interior of the compression-resistant air bag through the guide pipe, the compression-resistant air bag is expanded, the influence of the expanded compression-resistant air bag and the buffer spring on the body is counteracted by utilizing the elastic deformation of the compression-resistant air bag and the buffer spring, the compression resistance of the device is further improved, the body is prevented from being damaged by the large external force, and the production cost;

(2) the limiting groove is formed in one side inside the splicing plate, the limiting block is arranged on one side, away from the splicing plate, of the body, the mounting block is moved to be completely separated from the mounting hole by pulling the mounting rod, the limiting block on one side of the other body is inserted into the limiting groove, the mounting block is moved and clamped into the mounting hole by utilizing the elasticity of the mounting spring, splicing and fixing between the two bodies are achieved, the operation is repeated, multiple times of splicing can be carried out, the area of the device can be assembled according to the size of an actual construction place, the practicability of the device is improved, meanwhile, the body before splicing is small in size, and is convenient for a worker to carry, and the transportation difficulty is reduced;

(3) through set up the waterproof layer inside the body, fire-retardant layer and strengthening rib, through the strengthening rib that sets up the W type, can improve the mechanical strength of body self, and then prolong the life of this device, and set up the waterproof layer and avoid not using this device, be convenient for make this device infiltration because of ponding, lead to the body slowly rotten, and set up fire-retardant layer and improve the device fire behavior, avoid in the electric power work progress, lead to the body to catch fire because of the accident, and then lead to bigger electrical safety accident.

Drawings

FIG. 1 is a schematic front sectional view of the present invention;

FIG. 2 is a schematic side view of the present invention;

FIG. 3 is a schematic view of an enlarged structure of the connecting plate of the present invention from above;

fig. 4 is the utility model discloses splicing department orthographic view enlargies the structure sketch map.

In the figure: 1. a body; 2. a waterproof layer; 3. a flame retardant layer; 4. reinforcing ribs; 5. a reinforcement cavity; 6. a compression resistant structure; 601. a compression box; 602. a compression-resistant air bag; 603. a buffer spring; 604. anti-briquetting; 605. a piston; 7. a cover plate; 8. a mounting structure; 801. mounting holes; 802. mounting blocks; 803. installing a spring; 804. a fixed box; 805. mounting a rod; 9. a limiting groove; 10. splicing plates; 11. a seal ring; 12. a cavity; 13. a limiting block; 14. sealing the groove.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides a technical solution: a flame-retardant hollow compression-resistant double-layer insulation board comprises a body 1, a splice plate 10 and a cavity 12, wherein the cavity 12 is formed in the middle of the inside of the body 1, and compression-resistant structures 6 are uniformly arranged inside the cavity 12;

the interior of the pressure-resistant structure 6 is sequentially provided with a pressure-resistant box 601, a pressure-resistant air bag 602, a buffer spring 603, a pressure-resistant block 604 and a piston 605, the pressure-resistant air bag 602 is uniformly and fixedly connected to the bottom end of the interior of the cavity 12, the interiors of the cavities 12 on two sides of the pressure-resistant air bag 602 are respectively provided with the pressure-resistant box 601 through a guide pipe, the buffer spring 603 is uniformly arranged at the middle position of the interior of the pressure-resistant box 601, the interiors of the pressure-resistant boxes 601 at the top end and the bottom end of the buffer spring 603 are respectively connected with the piston 605 in a sliding manner, and one end of the piston;

specifically, as shown in fig. 1, when the structure is used, firstly, when the body 1 is subjected to a large external force, pressure is transmitted to the inside of the cavity 12, so that the pressure-resistant block 604 moves toward the pressure-resistant box 601, and then the piston 605 is driven to slide in the pressure-resistant box 601 to compress the buffer spring 603, and meanwhile, the relative motion of the piston 605 conveys air in the pressure-resistant box 601 to the inside of the pressure-resistant airbag 602 through the conduit, so that the pressure-resistant airbag 602 expands, and further, the influence of the external force on the body 1 is offset by using the elastic deformation of the expanded pressure-resistant airbag 602 and the buffer spring 603, so as to further improve the pressure resistance of the device;

reinforcing cavities 5 are transversely formed in the body 1 at the top end and the bottom end of the cavity 12;

reinforcing ribs 4 are uniformly and fixedly connected inside the reinforcing cavity 5, and the reinforcing ribs 4 are W-shaped;

specifically, as shown in fig. 1, when the structure is used, firstly, the W-shaped reinforcing ribs 4 are arranged, so that the mechanical strength of the body 1 can be improved, and the service life of the device can be prolonged;

the interior of the body 1 at one end of the reinforced cavity 5 is transversely and fixedly connected with a flame-retardant layer 3, the interior of the body 1 at one end of the flame-retardant layer 3 is transversely and fixedly connected with a waterproof layer 2, and one side of the body 1 is fixedly connected with a splice plate 10;

a sealing ring 11 is fixedly connected to one side of the splice plate 10 far away from the body 1 in an annular manner, and a sealing groove 14 matched with the sealing ring 11 is formed in one side of the interior of the body 1 far away from the splice plate 10 in an annular manner;

specifically, as shown in fig. 1, 2, 3 and 4, when the structure is used, the sealing ring 11 is firstly clamped into the sealing groove 14, so that the sealing performance of the splicing part of the body 1 is improved, and the normal use of the device after splicing is ensured;

limiting grooves 9 are transversely formed in the periphery of one side of each splicing plate 10, and mounting structures 8 are arranged inside the splicing plates 10 at one ends of the limiting grooves 9;

the mounting structure 8 is internally provided with a mounting hole 801, a mounting block 802, a mounting spring 803, a fixed box 804 and a mounting rod 805 in sequence, the fixed box 804 is fixedly connected inside the splice plate 10 at one end of the limiting groove 9, the top end of the fixed box 804 vertically penetrates through the mounting rod 805, the mounting spring 803 is wound inside the fixed box 804 at one end of the surface of the mounting rod 805, the mounting block 802 is fixedly connected inside the fixed box 804 at one end of the mounting rod 805, and one end of one side inside the limiting block 13 is provided with the mounting hole 801 matched with the mounting block 802;

specifically, as shown in fig. 1 and 4, when the structure is used, firstly, the mounting bar 805 is pulled to move the mounting block 802 to be completely separated from the mounting hole 801, then the limiting block 13 on one side of the other body 1 is inserted into the limiting groove 9, then the mounting block 802 is moved and clamped into the mounting hole 801 by using the elastic force of the mounting spring 803, so that the splicing and fixing between the two bodies 1 are realized, the area of the device can be assembled according to the size of an actual construction site, and the practicability of the device is improved;

the two ends of the top end and the bottom end of the splice plate 10 are fixedly hinged with cover plates 7, and the periphery of the other side of the body 1 is transversely and fixedly connected with limit blocks 13 matched with the limit grooves 9;

the limiting groove 9 and the limiting block 13 are symmetrically distributed about the transverse central axis of the body 1, and the limiting groove 9 and the limiting block 13 are both convex in shape;

specifically, as shown in fig. 1, 3 and 4, when the structure is used, the convex limiting groove 9 and the convex limiting block 13 are firstly utilized, so that the two bodies 1 are better in fixation after being spliced, the stability of fixed splicing is improved, and subsequent electric power construction operation is facilitated.

The working principle is as follows: when the device is used, firstly, the device is spliced according to the requirements of an actual working site, the cover plate 7 is opened, then the mounting rod 805 is pulled, the mounting block 802 moves to compress the mounting spring 803 to be completely separated from the mounting hole 801, then the limiting block 13 on one side of the other body 1 is inserted into the limiting groove 9, then the mounting rod 805 is loosened, the mounting block 802 moves and is clamped into the mounting hole 801 by utilizing the elasticity of the mounting spring 803, splicing and fixing between the two bodies 1 are realized, and then the operation is repeated, so that multiple times of splicing can be carried out;

the device can be normally used, the W-shaped reinforcing ribs 4 are arranged, the mechanical strength of the body 1 can be improved, the waterproof layer 2 is arranged to prevent the device from being used, water seepage of the device due to water accumulation is facilitated, the body 1 is slowly rotted, the flame-retardant layer 3 is arranged to improve the fire resistance of the device, and the body 1 is prevented from being ignited due to accidents in the electric power construction process;

meanwhile, when the body 1 is subjected to a large external force, the pressure is transmitted to the inside of the cavity 12, so that the pressure-resistant block 604 moves towards the direction close to the pressure-resistant box 601, the piston 605 is driven to slide in the pressure-resistant box 601 to compress the buffer spring 603, the external force is reduced by the aid of the elastic force of the buffer spring 603, and meanwhile, the relative motion of the piston 605 conveys air in the pressure-resistant box 601 to the inside of the pressure-resistant air bag 602 through the guide pipe, so that the pressure-resistant air bag 602 expands to abut against the top end and the bottom end of the cavity 12, and the pressure resistance of the device is further.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that 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

1. The utility model provides a hollow resistance to compression double-deck insulation board of flame retardant formula, includes body (1), splice plate (10) and cavity (12), its characterized in that: a cavity (12) is arranged in the middle of the inner part of the body (1), and pressure-resistant structures (6) are uniformly arranged in the cavity (12), the inner parts of the body (1) at the top end and the bottom end of the cavity (12) are transversely provided with reinforced cavities (5), and the inner part of the body (1) at one end of the reinforced cavity (5) is transversely and fixedly connected with a flame-retardant layer (3), a waterproof layer (2) is transversely and fixedly connected inside the body (1) at one end of the flame-retardant layer (3), and one side of the body (1) is fixedly connected with a splice plate (10), the periphery of one side of the splice plate (10) is transversely provided with a limit groove (9), and the inner parts of the splice plates (10) at one end of the limiting groove (9) are all provided with mounting structures (8), both ends of the top end and the bottom end of the splice plate (10) are fixedly hinged with cover plates (7), the periphery of the other side of the body (1) is transversely and fixedly connected with a limiting block (13) matched with the limiting groove (9).

2. The flame-retardant hollow compression-resistant double-layer insulating plate according to claim 1, wherein: strengthen the even fixedly connected with strengthening rib (4) in inside of chamber (5), and the shape of strengthening rib (4) is W shape.

3. The flame-retardant hollow compression-resistant double-layer insulating plate according to claim 1, wherein: the utility model discloses a pressure-resistant structure, including resistance to compression structure (6), compression structure (6) the inside resistance to compression case (601), resistance to compression gasbag (602), buffer spring (603), resistance to compression piece (604) and piston (605) have set gradually, the even fixed connection of resistance to compression gasbag (602) is in the inside bottom of cavity (12), and cavity (12) inside of resistance to compression gasbag (602) both sides all is provided with resistance to compression case (601) through the pipe, the inside intermediate position department of resistance to compression case (601) evenly is provided with buffer spring (603), and inside equal sliding connection of resistance to compression case (601) of buffer spring (603) top and bottom has piston (605), piston (605) one end all runs through have with cavity (12) inside top and bottom welded resistance to compression piece (604).

4. The flame-retardant hollow compression-resistant double-layer insulating plate according to claim 1, wherein: mounting hole (801), installation piece (802), installation spring (803), fixed case (804) and installation pole (805) have set gradually in the inside of mounting structure (8), the equal fixed connection of fixed case (804) is inside splice plate (10) of spacing groove (9) one end, and fixed case (804) top is all vertically run through has installation pole (805), installation spring (803) have all been twined in fixed case (804) of installation pole (805) surface one end inside, and the equal fixedly connected with installation piece (802) of fixed case (804) inside of installation pole (805) one end, mounting hole (801) with installation piece (802) matched with have all been seted up to the inside one side one end of stopper (13).

5. The flame-retardant hollow compression-resistant double-layer insulating plate according to claim 1, wherein: limiting groove (9) and stopper (13) all are about body (1) horizontal axis symmetric distribution, and the shape of limiting groove (9) and stopper (13) is the convex.

6. The flame-retardant hollow compression-resistant double-layer insulating plate according to claim 1, wherein: one side of the splicing plate (10) far away from the body (1) is fixedly connected with a sealing ring (11) in an annular mode, and one side of the body (1) far away from the splicing plate (10) is provided with a sealing groove (14) matched with the sealing ring (11) in an annular mode.