CN114215465B

CN114215465B - Waterproof invasion device for underground power distribution room

Info

Publication number: CN114215465B
Application number: CN202111566025.4A
Authority: CN
Inventors: 刘凯; 周显达; 王占波; 韩啸旭; 和小波; 佘彦杰; 王晨晨; 戚弘亮; 王月萍; 马晓飞; 焦珊珊
Original assignee: State Grid Corp of China SGCC; Luoyang Power Supply Co of State Grid Henan Electric Power Co Ltd
Current assignee: State Grid Corp of China SGCC; Luoyang Power Supply Co of State Grid Henan Electric Power Co Ltd
Priority date: 2021-12-21
Filing date: 2021-12-21
Publication date: 2023-10-03
Anticipated expiration: 2041-12-21
Also published as: CN114215465A

Abstract

A waterproof invasion device of a basement power distribution room relates to a waterproof invasion device, wherein a frame (6) with rubber strips on the inner surface is fixed on the upper part of a power distribution room door (4) and wall bodies (5) on two sides; the two sides of the baffle (3) are respectively provided with an edge bulge (17), the inner surface (16) of the baffle is provided with a convex square frame (29) near the periphery, and the rubber seal is fixed around the convex square frame by a pressing strip (27); the edge parts of the two sides of the baffle are respectively connected with the outer side surfaces of the frames in a protruding way, the two sides of the rubber seal are in interference fit with the frames, and the lower parts of the rubber seal are tightly attached to the ground (9); the baffle is arranged as at least one block; according to the invention, the frame with the rubber strips is fixedly arranged on the wall body on the side of the power distribution room door to obtain the sealing of the frame and the wall body, and the baffle is connected with the frame to obtain the lower part or the whole sealing of the power distribution room door, so that water is effectively prevented from entering the underground power distribution room.

Description

Waterproof invasion device for underground power distribution room

Technical Field

The invention relates to a waterproof invasion device, in particular to a waterproof invasion device for a basement.

Background

In order to effectively expand the use space of a building, the influence of the magnetic field effect of a distribution room is considered, and the distribution room is usually arranged in a basement; the basement of the building in the depression is easier to enter water, and particularly, the basement is provided with a distribution room in an underground garage or a distribution room in an underground warehouse of the building, and the equipment in the distribution room is damaged after rainwater enters; the existing method is that a plurality of sand bags are piled up at the entrance of a basement to prevent water, and a baffle is used to prevent water, but the waterproof measures can play a role in water hours, but the sand bags can permeate in the long-time soaking process to remove water trouble by secondary water shoveling, and the baffle can also have water seepage phenomenon due to sealing problem. Especially when water is largely flooding the sandbags and baffles, only the water flooding apparatus can be seen.

Disclosure of Invention

In order to overcome the defects in the background art, the invention discloses a waterproof invasion device for an underground power distribution room, which is characterized in that a frame with rubber strips is fixedly arranged on a wall body on the side of a power distribution room door to obtain the sealing of the frame and the wall body, and the lower part or the whole sealing of the power distribution room door is obtained after the frame is connected by a baffle plate, so that water is effectively prevented from entering the underground power distribution room.

The technical scheme for realizing the invention is as follows:

the waterproof invasion preventing device for the underground power distribution room comprises a frame, rubber strips, a baffle, rubber seals and pressing strips, wherein the frame with the rubber strips on the inner surface is fixed on the upper part of a power distribution room door and wall bodies on two sides; the two sides of the baffle are respectively provided with an edge bulge, the inner surface of the baffle is provided with a convex square frame near the periphery, and the rubber seal is fixed around the convex square frame by the pressing strip; the two sides of the baffle are respectively connected with the outer side surfaces of the frame in a protruding way, the two sides of the rubber seal are in interference fit with the frame, the lower part of the rubber seal is tightly attached to the ground, and the baffle is used for acquiring waterproof invasion within the height of the baffle of the underground power distribution room; the baffle is arranged as at least one block.

The waterproof invasion preventing device for the underground power distribution room comprises a panel, two frame vertical plates, a plurality of screw holes A and a plurality of fixing holes, wherein the two sides of the panel of the frame are respectively and fixedly connected to the upper ends of the two frame vertical plates, the panel and the two frame vertical plates form a door-shaped structure, and the panel is provided with the plurality of screw holes A and the plurality of fixing holes at intervals; a middle plate is arranged between two vertical plates of the rubber strip, an H-shaped structure is formed by the two vertical plates of the rubber strip and the middle plate, the rubber strip of the H-shaped structure is positioned in a concave of the frame, a plurality of expansion screws respectively penetrate through fixing holes of the frame and the middle plate of the rubber strip and then are connected with expansion pipes on a wall body, and the two vertical plates of the rubber strip of the H-shaped structure respectively prop against the panel and the wall body; the side parts of the plurality of screw holes A of the panel connected with the baffle are protruded.

The waterproof invasion device of the underground power distribution room is characterized in that a thickened inner bulge is arranged on the lower surface of the middle part of the panel.

The waterproof invasion device of the underground power distribution room is characterized in that a plurality of protruding connections are arranged on the upper surface and the lower surface of a middle plate between two vertical plates of a rubber strip of the rubber strip at intervals.

The waterproof invasion device of the underground power distribution room is characterized in that a plurality of through holes are formed in the edge protrusions on two sides of the baffle, and a plurality of screws respectively penetrate through the through holes and then are connected with a plurality of screw holes A on the frame panel.

The waterproof invasive device of the underground power distribution room is characterized in that a plurality of baffles are arranged, the edges of two sides of the baffle at the upper part of the lowermost baffle are protruded to be respectively connected with the outer side surfaces of the frames, and rubber seals around the protruded square frames of the baffles are respectively and tightly connected with the rubber seals of the adjacent baffles up and down; the upper rubber seal strips of the rubber seal strips around the protruding square frame of the uppermost upper baffle plate of the plurality of baffle plates are tightly connected with the upper horizontal frame of the door-shaped structural frame to form the full-closed distribution room door.

The waterproof invasion device of the underground power distribution room is characterized in that an edge bulge is arranged at the upper end of the upper baffle, and the edge bulge at the upper end of the upper baffle is connected with an upper end horizontal frame of the frame.

The underground distribution room waterproof invasion device is characterized in that a plurality of blind holes are formed in the upper end face of each baffle at intervals, blind holes corresponding to the blind holes of the upper end face of each baffle are formed in the lower end face of each baffle, connecting columns are respectively arranged in the blind holes of the upper end face of each baffle, and a conical plug at the upper end of each connecting column is inserted into the blind holes of the lower end face of each baffle.

The waterproof invasion preventing device for the underground power distribution room is characterized in that an inclined plane is arranged on the outer side of a convex square frame on the inner surface of the baffle, and a recess is arranged between the outer side of the inclined plane and four sides of the baffle; grooves with the same width as the raised square frames are respectively arranged on two sides of the middle part of the rubber seal, a diamond-shaped inner edge is arranged in the rubber seal, double bulges are arranged on two sides of the outer part of the rubber seal, V-shaped bulges are respectively arranged on two sides of the outer side surface of the double bulge of the rubber seal, concave grooves are respectively arranged on the inner sides of the two V-shaped bulges, and M-shaped bulges are arranged on the biconvex outer side surface between the two concave grooves; the inner side of the pressing strip is provided with a V-shaped groove; grooves on two sides of the rubber seal are respectively clamped outside the raised square frame and the pressing strip, V-shaped grooves of the pressing strip are clamped on the inner edge of the diamond, and a plurality of screws penetrate through round holes on the outer part of the pressing strip and the through holes of the rubber strip between the two grooves of the rubber seal and then are connected with screw holes B arranged on the raised square frame.

Waterproof invasion device of basement distribution room, protruding square middle part interval of baffle inner face is equipped with many reinforced protruding strips.

Through the above disclosure, the beneficial effects of the invention are:

according to the waterproof invasion device for the underground power distribution room, double water isolation is formed between the waterproof invasion device and a wall body by the rubber strips of the H-shaped structure in the frame, and the waterproof invasion underground power distribution room with the height of the baffle is obtained by mutually engaging the rubber seals around the convex square frame on the inner surface of the baffle with the frame and the rubber seals of the ground and the upper adjacent baffle; the invention utilizes the fixed baffle plate arranged on the side frame of the power distribution room door, and obtains the lower part or the whole sealing of the power distribution room door through one or a plurality of baffle plates, thereby effectively preventing water from entering the underground power distribution room.

Drawings

FIG. 1 is a schematic view of a three-dimensional assembly structure of the present invention;

FIG. 2 is a schematic view of the overall structure of the baffle plate of the present invention;

FIG. 3 is a schematic perspective view of a baffle plate according to the present invention;

FIG. 4 is a schematic view of the raised frame, rubber seal and bead assembly of the present invention;

FIG. 5 is a schematic view of the assembled structure of the frame and rubber strip of the present invention;

FIG. 6 is a schematic view of the V-shaped notch B structure of the rubber strip of the present invention;

FIG. 7 is a schematic view of the V-shaped notch B of the frame of the present invention;

FIG. 8 is a schematic perspective view of a connecting column according to the present invention;

in the figure: 1. an upper baffle; 2. a connecting column; 3. a baffle; 4. a power distribution room door; 5. a wall body; 6. a frame; 7. a through hole; 8. a blind hole; 9. ground surface; 10. a screw hole A; 11. a fixing hole; 12. a screw; 13. a recess; 14. a screw hole B; 15. a protruding strip; 16. an inner face; 17. the edge part is protruded; 18. v-shaped protrusions; 19. an M-shaped protrusion; 20. perforating; 21. double bulges; 22. an inclined plane; 23. a groove; 24. a round hole; 25. a screw; 26. a diamond inner edge; 27. pressing strips; 28. a V-shaped groove; 29. a raised square frame; 30. an expansion screw; 31. a panel; 32. an inner protrusion; 33. a frame riser; 34. the bulges are connected; 35. a middle plate; 36. rubber strip two vertical plates; 37. v-shaped notch A; 38. v-shaped notch B; 39. a conical plug.

Detailed Description

The invention is further illustrated below with reference to examples; the following examples are not intended to limit the invention, but merely as a means for supporting the practice of the invention, and any equivalent structural substitutions within the technical framework of the invention disclosed herein are intended to be within the scope of the invention;

the underground power distribution room waterproof invasion device comprises a frame 6, rubber strips, a baffle 3, rubber seals and pressing strips 27, wherein the frame 6 with the rubber strips on the inner surface is fixed on the upper part of a power distribution room door 4 and wall bodies 5 on the two sides; the two sides of the baffle 3 are respectively provided with an edge bulge 17, the inner surface 16 of the baffle 3 is provided with a raised square frame 29 near the periphery, and the pressing bar 27 fixes the rubber seal around the raised square frame 29; the edge bulges 17 at two sides of the baffle plate 3 are respectively connected with the outer side surfaces of the frame 6, two sides of the rubber seal are in interference fit with the frame 6, the lower part of the rubber seal is tightly attached to the ground 9, and the baffle plate 3 acquires the waterproof invasion within the height of the baffle plate 3 of the underground power distribution room; the baffle 3 is provided as at least one piece.

Referring to fig. 1, 5, 6 or 7, two sides of a panel 31 of a frame 6 are fixedly connected to upper ends of two frame vertical plates 33 respectively, a door-shaped structure is formed by the panel 31 and the two frame vertical plates 33, a thickened inner protrusion 32 is arranged on the lower surface of the middle part of the panel 31, and a plurality of screw holes a10 and a plurality of fixing holes 11 are formed on the panel 31 at intervals; a middle plate 35 is arranged between two vertical plates 36 of the rubber strip, a plurality of convex connection 34 are arranged at intervals on the upper surface and the lower surface of the middle plate 35 between the two vertical plates 36 of the rubber strip, the two vertical plates 36 of the rubber strip and the middle plate 35 form an H-shaped structure, the rubber strip of the H-shaped structure is positioned in a concave of the frame 6, a plurality of expansion bolts 30 respectively penetrate through the fixing holes 11 of the frame 6 and the middle plate 35 of the rubber strip and then are connected with expansion pipes on the wall 5, and the two vertical plates 36 of the rubber strip of the H-shaped structure respectively prop against the panel 31 and the wall 5; the screw holes A10 of the panel 31 are connected with the edge bulge 17 of the baffle 3, the edge bulge 17 at two sides of the baffle 3 is provided with a plurality of through holes 7, and a plurality of screws 12 respectively penetrate through the through holes 7 and then are connected with the screw holes A10 on the panel 31 of the frame 6;

further, considering the sealing of both sides of the upper end of the frame 6, a V-shaped opening B38 is provided at the folded corner of the frame 6, that is, one of the two frame uprights 33 and the panel 31 are cut to form the V-shaped opening B38, and the other of the two frame uprights 33 is bent to obtain a right-angle connection; one of the rubber strip uprights 36 of the rubber strip and the middle plate 35 are also cut with V-shaped notches a37 to match the frame 6.

With reference to fig. 1, 2, 3, 4 or 8, the baffle plates 3 are provided with a plurality of baffle plates 3, the edge protrusions 17 at two sides of the baffle plate 3 at the upper part of the lowest baffle plate 3 are respectively connected with the outer side surfaces of the frames 6, and the rubber seals around the protruding square frame 29 of the baffle plate 3 are respectively and tightly connected with the rubber seals of the adjacent baffle plates 3 up and down; the upper rubber seal strips of the rubber seal strips around the raised square frame 29 of the upper baffle plate 1 at the uppermost part of the plurality of baffle plates 3 are tightly connected with the upper horizontal frame of the door-shaped structural frame 6 to form a full-closed distribution room door 4, the upper end of the upper baffle plate 1 is provided with an edge bulge 17, and the edge bulge 17 at the upper end of the upper baffle plate 1 is connected with the upper horizontal frame of the frame 6; a plurality of blind holes 8 are arranged on the upper end face of each baffle plate 3 at intervals, blind holes corresponding to the blind holes 8 on the upper end face of each baffle plate 3 are arranged on the lower end face of each baffle plate 3, connecting columns 2 are respectively arranged in the blind holes 8 on the upper end face of each baffle plate 3, and a conical plug 39 at the upper end of each connecting column 2 is inserted into the blind holes on the lower end face of each baffle plate 3.

With reference to fig. 1, 2, 3 or 4, a plurality of reinforced raised strips 15 are arranged at intervals in the middle of a raised square frame 29 of the inner surface 16 of the baffle 3; an inclined plane 22 is arranged at the outer side of a convex square frame 29 of the inner surface 16 of the baffle plate 3, and a concave 13 is arranged between the outer side of the inclined plane 22 and four sides of the baffle plate 3; grooves 23 with the width equal to that of the raised square frames 29 are respectively arranged on two sides of the middle part of the rubber seal, a diamond-shaped inner edge 26 is arranged inside the rubber seal, double protrusions 21 are arranged on two sides of the outer side of the rubber seal, V-shaped protrusions 18 are respectively arranged on two sides of the outer side surface of the double protrusions 21 of the rubber seal, concave grooves are respectively arranged on the inner sides of the two V-shaped protrusions 18, and M-shaped protrusions 19 are arranged on the outer side surface of the double protrusions 21 between the two concave grooves; the inner side of the pressing bar 27 is provided with a V-shaped groove 28; grooves 23 on two sides of the rubber seal are respectively clamped on the outsides of the raised square frame 29 and the pressing strips 27, V-shaped grooves 28 of the pressing strips 27 are clamped on the inner edges 26 of the diamond shapes, and a plurality of screws 25 penetrate through round holes 24 of the pressing strips 27 close to the outsides and screw holes B14 arranged on the raised square frame 29 after penetrating through adhesive tape perforations 20 between the two grooves 23 of the rubber seal.

According to the waterproof invasion preventing device for the underground power distribution room, the baffle plate 3 and the pressing strips 27 are made of plastic materials and are obtained through injection molding of a mold; rubber strips and rubber seals are processed by rubber with good elasticity and weather resistance; the frame 6 is made of aluminum alloy; the connecting column 2 is made of plastic or metal stainless steel.

The specific installation process comprises the following steps:

with reference to fig. 1 to 8, a small amount of glass cement is smeared at the connection part between the inner surfaces of the two frame vertical plates 33 of the frame 6 and the panel 31, then rubber strips are put into the recesses of the frame 6, at this time, the rubber strip vertical plates 36 of the rubber strips are exposed out of the two frame vertical plates 33 of the frame 6 by at least two millimeters, a fixing hole 11 ' in fig. 5 ' capable of submerging the nut of the expansion screw 30 is punched in the middle part of the panel 31 at a proper position of the frame 6 by using a puncher, then a hole ' is punched on the panel 31 of the frame 6 according to the edge bulge 17 of the baffle 3 and the upper baffle 1 ', preferably, a straight tapping screw is used in the later installation of the screw 12, and the hole is formed into a screw hole A10 ' by the straight tapping screw or the screw hole A10 is processed on the panel 31 in advance; drawing an installation line on a wall body 5 of the distribution room door 4 according to the total height of the baffle plate 3 and the upper baffle plate 1, wherein the height of the frame 6 can not be limited by the rigidity of the door frame of the distribution room door 4, the height of the frame 6 is set by the total height of the baffle plate 3 and the upper baffle plate 1, a shovel or an electric cutting machine is used for processing the included angle between the lower part of the wall body 5 and the ground 9, such as a shoveling pit can be filled with glass cement after the frame 6 is installed, so that the frame 6 is completely sealed with the wall body 5; after the wall 5 is perforated, an expansion pipe is put in, and then an expansion screw 30 is used for fixing the frame 6;

the rubber seal is arranged on the raised square frames 29 of the baffle plate 3 and the upper baffle plate 1 by using the screws 25 and the pressing strips 27, the rubber seal can be cut into forty-five degree angles at four corners for butt joint, and then the rubber seal is bonded by using glass cement or solidified flexible rubber cement, and the rubber seal can be made into a whole; the installed baffle 3 and the upper baffle 1 are provided with matched connecting columns 2 and screws 12 for standby.

When the baffle plate 3 is used, when water conditions occur, the screw driver is used for installing the baffle plate 3 at the lower part of the frame 6, water lower than the baffle plate 3 can be blocked, if the water level rises, the connecting column 2 can be inserted into the blind hole 8 of the baffle plate 3, then the blind hole on the lower surface of the other baffle plate 3 is sleeved on the connecting column 2 on the blind hole 8 of the lowest baffle plate 3, and then the other baffle plate 3 is installed at the upper part of the baffle plate 3 of the frame 6 until the baffle plate 3 reaches the required height.

The invention is not described in detail in the prior art.

Claims

1. The utility model provides a waterproof invasion device of basement distribution room, includes frame (6), rubber strip, baffle (3), rubber strip of paper used for sealing and layering (27), characterized by: the frame (6) with rubber strips on the inner surface is fixed on the upper part of the distribution room door (4) and the wall bodies (5) on the two sides; the two sides of the baffle (3) are respectively provided with an edge bulge (17), the inner surface (16) of the baffle (3) is provided with a bulge square frame (29) near the periphery, and the rubber seal is fixed around the bulge square frame (29) by the pressing bar (27); the edge parts of the two sides of the baffle plate (3) are protruded (17) and are respectively connected with the outer side surface of the frame (6), the two sides of the rubber seal are in interference fit with the frame (6), the lower part of the rubber seal is tightly attached to the ground (9), and the baffle plate (3) is used for acquiring the waterproof invasion of the underground power distribution room within the height of the baffle plate (3); the baffle (3) is arranged into at least one block;

two sides of a panel (31) of the frame (6) are respectively and fixedly connected to the upper ends of two frame vertical plates (33), a door-shaped structure is formed by the panel (31) and the two frame vertical plates (33), and a plurality of screw holes A (10) and a plurality of fixing holes (11) are formed in the panel (31) at intervals; a middle plate (35) is arranged between two vertical plates (36) of the rubber strip, an H-shaped structure is formed by the two vertical plates (36) of the rubber strip and the middle plate (35), the rubber strip of the H-shaped structure is positioned in a concave of the frame (6), a plurality of expansion bolts (30) respectively penetrate through fixing holes (11) of the frame (6) and the middle plate (35) of the rubber strip and then are connected with expansion pipes on the wall (5), and the two vertical plates (36) of the rubber strip with the H-shaped structure respectively prop against the panel (31) and the wall (5); the plurality of screw holes A (10) of the panel (31) are connected with the edge bulge (17) of the baffle plate (3);

an inclined surface (22) is arranged on the outer side of a raised square frame (29) of the inner surface (16) of the baffle plate (3), and a concave (13) is arranged between the outer side of the inclined surface (22) and four sides of the baffle plate (3); grooves (23) with the same width as the raised square frames (29) are respectively arranged on two sides of the middle part of the rubber seal, a diamond inner edge (26) is arranged inside the rubber seal, double bulges (21) are arranged on two sides of the outer part of the rubber seal, V-shaped bulges (18) are respectively arranged on two sides of the outer side surface of the double bulges (21) of the rubber seal, concave grooves are respectively arranged on the inner sides of the two V-shaped bulges (18), and M-shaped bulges (19) are arranged on the outer side surface of the biconvex (21) between the two concave grooves; the inner side of the pressing bar (27) close to the inner side is provided with a V-shaped groove (28); grooves (23) on two sides of the rubber seal are respectively clamped outside the raised square frame (29) and the pressing strip (27), V-shaped grooves (28) of the pressing strip (27) are clamped on the inner edge (26) of the diamond, and a plurality of screws (25) penetrate through round holes (24) of the pressing strip (27) close to the outside and screw holes B (14) arranged on the raised square frame (29) after the rubber strip is perforated (20) between the two grooves (23) of the rubber seal.

2. The underground utility room waterproof intrusion device of claim 1, wherein: a thickened inner bulge (32) is arranged on the lower surface of the middle part of the panel (31).

3. The underground utility room waterproof intrusion device of claim 1, wherein: a plurality of convex connection (34) are arranged at intervals on the upper surface and the lower surface of a middle plate (35) between two vertical plates (36) of the rubber strip.

4. The underground utility room waterproof intrusion device of claim 1, wherein: a plurality of through holes (7) are arranged on the edge bulges (17) on two sides of the baffle plate (3), and a plurality of screws (12) respectively penetrate through the through holes (7) and then are connected with a plurality of screw holes A (10) on a panel (31) of the frame (6).

5. The underground utility room waterproof intrusion device of claim 1, wherein: the baffle plates (3) are arranged in a plurality of blocks, the edge parts of the two sides of the baffle plate (3) at the upper part of the baffle plate (3) at the lowest part are protruded (17) and are respectively connected with the outer side surfaces of the frames (6), and the rubber seals around the protruded square frames (29) of the baffle plate (3) are respectively and tightly connected with the rubber seals of the adjacent baffle plates (3) up and down; the upper rubber seal of the rubber seal around the protruding square frame (29) of the uppermost upper baffle (1) of the plurality of baffles (3) is tightly connected with the upper horizontal frame of the door-shaped structural frame (6) to form the full-closed distribution room door (4).

6. The underground utility room waterproof intrusion device of claim 5, wherein: the upper end of the upper baffle plate (1) is provided with an edge bulge (17), and the edge bulge (17) at the upper end of the upper baffle plate (1) is connected with the upper end horizontal frame of the frame (6).

7. The underground utility room waterproof intrusion device of claim 5, wherein: a plurality of blind holes (8) are arranged on the upper end face of each baffle plate (3) at intervals, blind holes corresponding to the blind holes (8) on the upper end face of each baffle plate (3) are arranged on the lower end face of each baffle plate (3), connecting columns (2) are respectively arranged in the blind holes (8) on the upper end face of each baffle plate (3), and conical plugs (39) at the upper ends of the connecting columns (2) are inserted into the blind holes on the lower end face of each baffle plate (3).

8. The underground utility room waterproof intrusion device of claim 1, wherein: a plurality of reinforced raised strips (15) are arranged at intervals in the middle of a raised square frame (29) of the inner surface (16) of the baffle plate (3).