CN217461033U

CN217461033U - Composite wall panel mounting structure for modular substation

Info

Publication number: CN217461033U
Application number: CN202221361043.9U
Authority: CN
Inventors: 王明智; 刘延星; 李文昊; 路敦勇; 张传印; 刘文鑫
Original assignee: Shandong Lutai Building Industrialization Material Co ltd
Current assignee: Shandong Lutai Building Industrialization Material Co ltd
Priority date: 2022-06-01
Filing date: 2022-06-01
Publication date: 2022-09-20
Anticipated expiration: 2032-06-01

Abstract

The utility model relates to the technical field of building construction, in particular to a composite wallboard mounting structure for a modular transformer substation, which comprises two panels arranged oppositely, wherein the end parts of the two ends of the two panels are connected through a section bar frame; a cavity is formed between the two panels and the two section material frames, and heat insulation materials are filled in the cavity; the section frame comprises a heat insulation material fixing part and panel fixing parts connected to two ends of the heat insulation material fixing part; the side surfaces of two ends of the panel are provided with grooves, the panel fixing part is inserted into the grooves, and the heat insulation material fixing part is connected with the heat insulation material through a fixing part, so that the panel and the section bar frame are installed. The utility model discloses in can firmly fixing the panel in the fluting that the turn-ups of section bar frame was seted up as plug-in components disect insertion panel side in advance, two slots are the holistic intensity of reinforced section bar frame on the one hand on the section bar frame, and on the other hand is self-tapping screw's counter bore, guarantees that nailing back surface parallel and level, and the nail tail can not influence the installation of wallboard.

Description

Composite wall panel mounting structure for modular substation

Technical Field

The utility model relates to a construction technical field specifically relates to a modular transformer substation uses composite wall panel mounting structure.

Background

At present, a wall body is usually formed by splicing a single wallboard, and two adjacent wallboards can be connected through a connecting piece. Chinese patent CN106968361A discloses a composite wall panel structure and composite wall, including two panels arranged in opposite directions, the two panels are connected by a metal keel frame, the two panels and the keel frame enclose a cavity, a filler is provided in the cavity, the keel frame includes a first keel and a second keel arranged along the height direction of the panels, the first keel and the second keel are arranged in opposite directions and in parallel and are respectively located at the two side edges of the panels, the second keel is provided with a groove, and the first keel is provided with a tenon matched with the groove wall at the position with the same height as the groove. The tenon and the groove of the adjacent wall boards are joggled to form the whole composite wall body, the connection is relatively tight, the tenon and the groove are respectively arranged on the first keel and the second keel, and the keel frame formed by the first keel and the second keel is connected and installed between the two panels. There is still a problem of insecurity of the installation.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the shortcoming that prior art exists, propose and design a modular transformer substation uses composite wall panel mounting structure, make its installation more firm, further improved bulk strength.

The utility model provides a technical scheme that its technical problem adopted is:

a composite wallboard mounting structure for a modular transformer substation comprises two panels which are arranged in opposite directions, wherein the end parts of two ends of the two panels are connected through a profile frame; a cavity is formed between the two panels and the two section material frames, and heat insulation materials are filled in the cavity; the section frame comprises a heat insulation material fixing part and panel fixing parts connected to two ends of the heat insulation material fixing part; the side surfaces of two ends of the panel are provided with grooves, the panel fixing part is inserted into the grooves, and the heat insulation material fixing part is connected with the heat insulation material through a fixing part, so that the panel and the section bar frame are firmly installed.

Further, the panel fixing part comprises an L-shaped edge and a flanging; the flanging is connected with one side of the L-shaped edge and is vertically arranged, and the flanging is inserted into the slot to fix the panel.

Furthermore, the heat-insulating material fixing part comprises a bulge and transition edges arranged at two ends of the bulge; the transition edge is formed by butting three section angle degrees; the other side of L type limit is connected with transition limit one end, forms the trapezium structure, and the transition limit other end forms the slot with protruding tip, inserts the angle sign indicating number connecting piece in the slot, and the square positive of adjustable section bar frame is positive through the angle sign indicating number connecting piece.

Furthermore, one side of the slot is a connecting edge for connecting the protrusion and the transition edge, and the other side of the slot is an opening, so that the corner connector can be conveniently inserted; and the fixing piece is nailed into the connecting edge, the corner connector, the opening and the heat insulation material from outside to inside in sequence to finish the installation of the composite wallboard frame.

Furthermore, the surface of the panel is coated with a decorative surface by taking a fiber cement board or a fiber reinforced calcium silicate board as a substrate.

Furthermore, the heat insulation material can be a heat insulation material commonly used for buildings, such as a polystyrene board, an extruded sheet, a polyurethane board or a rock wool board.

Furthermore, a short column is arranged between two adjacent composite wall boards, and the upper end and the lower end of the short column seal the two adjacent composite wall boards through weather-resistant sealant.

Further, the top layer composite wall board and the main structure beam column connection node are provided with a frame column between two adjacent composite wall boards, the top of the frame column is connected with the embedded steel plate of the main structure frame column through a connecting steel plate, and the bottom of the frame column is sealed with the two adjacent composite wall boards through weather-proof sealant.

Furthermore, at the connection node of the internal corner and the external corner, the two composite wallboards are perpendicular to each other, the vertical composite wallboard and the horizontal composite wallboard are both provided with grooves on four sides and are changed into grooves on three sides, the length of the outer side panel is greater than that of the inner side panel, the bottom of the vertical composite wallboard is provided with a frame column, the end part of the horizontal composite wallboard is provided with a frame column, and the two frame columns are connected through a connecting steel plate; the top of the frame column at the end part of the horizontal composite wallboard is connected with the embedded steel plate of the main structure frame column through a connecting steel plate; the bottom of the outer side panel of the vertical composite wallboard is sealed with the end part of the outer side panel of the horizontal composite wallboard through weather-proof sealant.

The technical effects of the utility model:

compared with the prior art, the utility model discloses a composite wall panel mounting structure for modular transformer substation, with the turn-ups of section bar frame as plug-in components direct insert panel side in the fluting that has been seted up in advance, can firmly fix the panel, two slots on the section bar frame are the holistic intensity of reinforced section bar frame on the one hand, and on the other hand are the counter bore of self-tapping screw, guarantee that the surface is parallel and level after the nailing, the nail tail can not influence the installation of wallboard; the node adopts hidden connection structure, and the installation does not influence the installation of wallboard again simply, and the wholeness is good, firm anticollision.

Drawings

FIG. 1 is a schematic view of the structure of the composite wall panel of the present invention;

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

FIG. 3 is a schematic view of the structure of the section frame of the present invention;

FIG. 4 is a schematic view of the corner connector of the present invention;

fig. 5 is a schematic view of the connection node between two adjacent composite wallboards of the utility model;

fig. 6 is a schematic view of the connection node between the topmost composite wallboard and the main structure beam column of the present invention;

fig. 7 is a schematic view of the male and female corner connecting joint of the present invention.

In the figure, a panel 1, a section frame 2, a thermal insulation material 3, a self-tapping screw 4, an angle connector 5, weather-resistant sealant 6, a frame column 7, a slot 8, a short column 9, a pre-embedded steel plate 10, a connecting steel plate 11, an L-shaped edge 201, a flanging 202, a protrusion 203, a transition edge 204, a slot 205 and a connecting edge 206.

Detailed Description

To make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention are clearly and completely described below with reference to the accompanying drawings of the specification.

Example 1:

as shown in fig. 1, the composite wall panel mounting structure for the modular substation according to the present embodiment includes two panels 1 arranged in opposite directions, and both end portions of the two panels 1 are connected by a profile frame 2; a cavity is formed between the two panels 1 and the two section frames 2, and is filled with a heat insulation material 3, and the heat insulation material 3 is a polystyrene board.

As shown in fig. 2, the side surfaces of both ends of the panel 1 are provided with slots 8; as shown in fig. 3, the profile frame 2 includes a heat insulating material fixing portion and panel fixing portions connected to both ends of the heat insulating material fixing portion; the panel fixing part comprises an L-shaped edge 201 and a turned edge 202; the flange 202 is connected with one side of the L-shaped edge 201 and is vertically arranged, the flange 202 is inserted into the slot 8, and the flange 202 is directly hung into the slot 8 as an insert, as shown in fig. 1, so as to fix the panel 1; the heat insulation material fixing part comprises a bulge 203 and transition edges 204 arranged at two ends of the bulge 203; the transition edge 204 is formed by butt joint of three sections at an angle of 90 degrees; the other side of the L-shaped edge 201 is connected with one end of a transition edge 204 to form a trapezoidal structure, the other end of the transition edge 204 and the end part of the protrusion 203 form a slot 205, a corner connector 5 is inserted into the slot 205, and as shown in fig. 1 and 4, the square and the positive of the profile frame can be adjusted through the corner connector 5; the heat insulation material fixing part is connected with the heat insulation material 3 through a fixing part, and the installation of the panel and the section bar frame 2 is realized.

As shown in fig. 3, one side of the insertion slot 205 is a connecting edge 206 for connecting the protrusion 203 and the transition edge 204, and the other side is an opening for facilitating insertion of the corner connector 5; as shown in fig. 1, the fixture may employ self-tapping screws 4. And the self-tapping screws 4 are sequentially nailed into the connecting edges 206, the corner connector 5, the opening and the thermal insulation material 3 from outside to inside, so that the composite wallboard frame is installed. The utility model discloses in the fluting 8 that the 1 side of section bar frame 2's turn-ups 202 was seted up in advance as plug-in components disect insertion panel, firmly fixed with panel 1, two slots 205 are the holistic intensity of reinforcing section bar frame 2 on the one hand on section bar frame 2, and on the other hand is self-tapping screw 4's counter bore, guarantees nailing back surface parallel and level, and the nail tail can not influence the installation of wallboard.

The panel 1 takes a high-strength fiber cement board or a fiber reinforced calcium silicate board as a substrate, and inner and outer wall finishing materials such as fluorocarbon paint, emulsion paint, real stone paint and the like are coated on the surface of the substrate to form a decorative surface; the section frame 2 is made of aluminum alloy sections, the side edges of the plates are provided with grooves 8, and the flanging inserts on the two sides of the aluminum alloy sections are directly hung in the grooves 8 of the side edges of the plates for fixation to complete the installation of the panel 1.

When this embodiment is to composite wall panel construction, the node structure is as follows:

as shown in fig. 6, a short column 9 is arranged between two adjacent composite wall panels, and the upper and lower ends of the short column 9 seal the two adjacent composite wall panels through weather-resistant sealant 6; as shown in fig. 5, at the joint of the topmost composite wallboard and the main structure beam column, a frame column 7 is arranged between two adjacent composite wallboards, the top of the frame column 7 is connected with an embedded steel plate 10 of a main structure frame column 17 through a connecting steel plate 11, and the bottom of the frame column is sealed by a weather-resistant sealant 6; as shown in fig. 7, at the internal and external corner connecting node, the two composite wallboards are perpendicular to each other, the vertical composite wallboard and the horizontal composite wallboard are changed from being provided with the slots 8 on four sides to being provided with the slots 8 on three sides, the length of the outer side panel 1 is greater than that of the inner side panel 1, the bottom of the vertical composite wallboard is provided with a frame column 7, the end part of the horizontal composite wallboard is provided with the frame column 7, and the two frame columns 7 are connected through a connecting steel plate 11; the top of the frame column 7 at the end part of the horizontal composite wallboard is connected with the embedded steel plate 10 of the main structure frame column 17 through the connecting steel plate 11; the bottom of the vertical composite wallboard outer side panel 1 and the end part of the horizontal composite wallboard outer side panel 1 are sealed through weather-proof sealant.

The above embodiments are only specific ones of the present invention, and the protection scope of the present invention includes but is not limited to the above embodiments, any changes or modifications properly made by those skilled in the art according to the claims of the present invention and the appended claims should fall within the protection scope of the present invention.

Claims

1. The utility model provides a composite wall panel mounting structure for modular substation, includes two blocks of panels of subtend-operated, its characterized in that: the end parts of the two ends of the two panels are connected through a section bar frame; a cavity is formed between the two panels and the two section material frames, and heat insulation materials are filled in the cavity; the section bar frame comprises a heat insulation material fixing part and panel fixing parts connected to two ends of the heat insulation material fixing part; the side surfaces of two ends of the panel are provided with grooves, the panel fixing part is inserted into the grooves, and the heat insulation material fixing part is connected with the heat insulation material through a fixing part.

2. The composite wall panel mounting structure for a modular substation of claim 1, wherein: the panel fixing part comprises an L-shaped edge and a turned edge; the flanging is connected with one side of the L-shaped edge and is vertically arranged, and the flanging is inserted into the slot.

3. The composite wall panel mounting structure for a modular substation of claim 2, wherein: the heat-insulating material fixing part comprises a bulge and transition edges arranged at two ends of the bulge; the transition edge is formed by butting three section angle degrees; the other side of the L-shaped edge is connected with one end of the transition edge to form a trapezoidal structure, the other end of the transition edge and the end part of the bulge form a slot, and a corner connector is inserted into the slot.

4. The composite wall panel mounting structure for a modular substation of claim 3, wherein: one side of the slot is a connecting edge used for connecting the bulge and the transition edge, and the other side of the slot is an opening; the fixing piece is nailed into the connecting edge, the corner connector, the opening and the heat insulation material from outside to inside in sequence.

5. The composite wall panel mounting structure for a modular substation of claim 1, wherein: the panel takes a fiber cement board or a fiber reinforced calcium silicate board as a substrate, and the surface of the panel is coated with a decorative surface.

6. The composite wall panel mounting structure for a modular substation of claim 1, wherein: the heat insulation material is a polystyrene board, an extruded board, a polyurethane board or a rock wool board.

7. A composite wall panel mounting structure for a modular substation according to any one of claims 1-6, characterized in that: and a short column is arranged between two adjacent composite wallboards, and the upper end and the lower end of the short column seal the two adjacent composite wallboards through weather-proof sealant.

8. A composite wall panel mounting structure for a modular substation according to any one of claims 1-6, characterized in that: the top layer composite wallboard and the main structure beam column are connected at the joint, a frame column is arranged between every two adjacent composite wallboards, the top of the frame column is connected with the embedded steel plate of the main structure frame column through a connecting steel plate, and the bottom of the frame column is sealed with the two adjacent composite wallboards through weather-resistant sealant.

9. A composite wall panel mounting structure for a modular substation according to any one of claims 1-6, characterized in that: at the connection node of the internal corner and the external corner, the two composite wallboards are mutually vertical, the vertical composite wallboard and the horizontal composite wallboard are changed from being provided with grooves on four sides to being provided with grooves on three sides, the length of the outer side panel is longer than that of the inner side panel, the bottom of the vertical composite wallboard is provided with a frame column, the end part of the horizontal composite wallboard is provided with a frame column, and the two frame columns are connected through a connecting steel plate; the top of the frame column at the end part of the horizontal composite wallboard is connected with the embedded steel plate of the main structure frame column through the connecting steel plate.

10. The composite wall panel mounting structure for a modular substation of claim 9, wherein: the bottom of the outer side panel of the vertical composite wallboard is sealed with the end part of the outer side panel of the horizontal composite wallboard through weather-proof sealant.