CN210628812U - Connecting structure for installing distribution equipment on masonry wall - Google Patents

Abstract

The utility model discloses a connecting structure for mounting distribution equipment on a masonry wall, which comprises a top structure, a supporting upright rod connected between the top structure and the ground, a mounting bracket connected on the supporting upright rod, and distribution equipment connected on the mounting bracket; the mounting bracket comprises a horizontal connecting rod vertically connected with the supporting upright rod, adapter pieces connected with two ends of the horizontal connecting rod and a connecting piece connected between the adapter pieces and the distribution equipment; the mounting brackets are correspondingly arranged in the length direction of the supporting vertical rods according to the number of required power distribution equipment; the supporting upright stanchion is connected with the ground through an adjustable bottom connecting piece. The utility model can avoid the grooving after the construction of the masonry wall body is finished by reserving the mounting hole of the distribution equipment and the mounting hole of the distribution sleeve, thereby avoiding the problems of construction environment, quality and the like; the sleeve connection and the limiting plate are fixed in a limiting mode, and field adjustment can be conducted according to the site conditions, so that the connecting structure is more adaptive.

Description

Connecting structure for installing distribution equipment on masonry wall

Technical Field

The utility model relates to a masonry structure's electromechanical installation engineering field, in particular to build connection structure of installing distribution equipment on wall body by laying bricks or stones.

Background

The masonry structure is an important component in the form of a building structure, and the installation of electrical pipelines and boxes on a built wall is a key link of electromechanical installation in the masonry structure. The existing installation of distribution equipment, particularly a box body in the distribution equipment needs to perform slotting construction on a built wall, but the construction method of slotting installation and repairing has slow slotting and influences the construction period; in the grooving process, more dust is caused to influence the air quality and influence the health of workers; during the grooving process, the masonry wall body is cut and chiseled, and the quality of the wall body is affected to a certain extent.

In addition, after the distribution equipment box and the distribution sleeve are installed, the repairing difficulty is high, the repairing quality is difficult to guarantee, and hollowing and cracking can occur greatly to influence the quality of a decoration surface layer. Therefore, it is necessary to provide a connection structure for installing distribution equipment on a masonry wall, which is easy to install, reliable in connection, free from construction environmental pollution and capable of ensuring construction quality.

SUMMERY OF THE UTILITY MODEL

The utility model provides a build connection structure of installing distribution equipment on wall body for solve distribution equipment's convenient installation, distribution equipment and build reliable connection between the wall body, reduce construction environment's raise dust and distribution equipment's installation quality scheduling technical problem by laying bricks or stones.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a connecting structure for mounting distribution equipment on a masonry wall comprises a top structure, a supporting upright rod connected between the top structure and the ground, a mounting bracket connected to the supporting upright rod, and distribution equipment connected to the mounting bracket; the mounting bracket comprises a horizontal connecting rod vertically connected with the supporting upright rod, adapter pieces connected with two ends of the horizontal connecting rod and a connecting piece connected between the adapter pieces and the distribution equipment; the mounting brackets are correspondingly arranged in the length direction of the supporting vertical rods according to the number of required power distribution equipment; the supporting upright stanchion is connected with the ground through an adjustable bottom connecting piece.

Furthermore, the length direction of the horizontal connecting rods is parallel to the masonry wall, and the horizontal connecting rods are connected to the inner sides of the supporting vertical rods and are symmetrically arranged relative to the supporting vertical rods.

Furthermore, the adaptor is a rod piece, the adaptor is vertically connected with the horizontal connecting rod, and the adaptor lengthways vertically builds the outer vertical surface of the wall body; the length of the adapter adapts to the width from the support vertical rod to the installation of the distribution equipment between the masonry walls.

Furthermore, the connecting piece is an angle-shaped piece, and the connecting piece is connected to two corners of the outer side surface of the power distribution equipment in a full length mode; the connecting piece is vertically connected with the adapter piece, and an oblique reinforcing plate is connected between the connecting piece and the adapter piece.

Furthermore, the supporting upright rod comprises a supporting rod body and a supporting rod foot, the supporting rod body is a square rod body, and the supporting rod foot is a round sleeve; the supporting rod foot is connected to the outer side face of the bottom end of the supporting rod body.

Further, the bottom connecting piece comprises a connecting column, a limiting plate connected to the connecting column and a base connected between the connecting column and the ground; the connecting column is correspondingly connected with the supporting column base, and the top surface of the limiting plate on the connecting column is abutted against the bottom end of the supporting column base.

Furthermore, the connecting column comprises a column body and adjusting threads arranged on the outer side surface of the column body, and the height of the adjusting threads is adapted to the adjusting height difference of the supporting column base; a ribbed plate is arranged between the column body and the base.

Furthermore, the supporting upright stanchions are connected with a top structure on the masonry wall through fixing pieces; the fixing piece is a rectangular piece or an I-shaped piece.

Furthermore, the distribution equipment comprises a weak current box, a switch box or a control box, a mounting hole is formed in the masonry wall body corresponding to the distribution equipment, and a mounting hole of a distribution sleeve is formed in the masonry wall body.

The beneficial effects of the utility model are embodied in:

1) the utility model can avoid the grooving after the construction of the masonry wall by reserving the mounting hole of the distribution equipment and the mounting hole of the distribution sleeve in the masonry wall, thereby avoiding the problems of construction environment, quality and the like caused by raised dust, wall damage, subsequent repair and the like caused by the grooving;

2) the utility model can connect the distribution equipment with the supporting vertical rod through the arrangement of the supporting vertical rod, the mounting vertical frame, the bottom connecting piece and other components, is convenient for mounting and replacing through the fixing of the mounting vertical frame, and the supporting vertical rod is respectively connected and fixed with the top structure and the ground, thereby further ensuring the connection stability of the distribution equipment;

3) the utility model has the advantages that the bottom connecting piece and the supporting upright rod are connected through the sleeve and are limited and fixed by the limiting plate, so that the on-site adjustment can be conveniently carried out according to the site conditions during construction and installation, and the connecting structure has better adaptability;

in addition, the arrangement of the prefabricated lintel on the distribution equipment and the reservation of the mounting hole on the masonry wall body can effectively ensure the effective mounting of the distribution equipment during construction, the components of the utility model are simple and easy to obtain, the construction method is easy to operate, and the construction quality can be effectively improved and the construction time can be saved; additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention; the primary objects and other advantages of the invention may be realized and attained by the structure particularly pointed out in the written description.

Drawings

FIG. 1 is a schematic view of a connection structure for installing distribution equipment on a masonry wall;

FIG. 2 is a schematic diagram of the construction and use of the connection structure for installing the power distribution equipment on the masonry wall;

FIG. 3 is a schematic view of the installation of power distribution equipment in connection with a masonry wall;

figure 4 is a schematic view of the support pole end connection and mounting bracket connection;

FIG. 5 is a schematic view of the installation of the distribution sleeve in connection with a masonry wall;

FIG. 6 is a schematic view of the connection of the power distribution equipment to the mounting stand;

fig. 7 is a schematic view of a bottom connector configuration.

Reference numerals: the concrete structure comprises 1-top structure, 2-masonry wall, 3-supporting upright rods, 31-supporting rod bodies, 32-supporting rod feet, 4-mounting brackets, 41-horizontal connecting rods, 42-adapters, 43-connectors, 44-reinforcing plates, 5-fasteners, 6-bottom connectors, 61-connecting columns, 611-columns, 612-adjusting threads, 613-ribbed plates, 62-bases, 63-limiting plates, 7-power distribution equipment, 71-weak power boxes, 72-switch boxes, 8-control lines, 9-power distribution sleeves and 10-shear walls.

Detailed Description

As shown in fig. 1, a connecting structure for installing distribution equipment on a masonry wall 2 comprises a top structure 1, a supporting upright 3 connected between the top structure 1 and the ground, a mounting bracket 4 connected to the supporting upright 3, and distribution equipment 7 connected to the mounting bracket 4; the mounting bracket 4 comprises a horizontal connecting rod 41 vertically connected to the supporting upright rod 3, an adapter 42 connected to two ends of the horizontal connecting rod 41, and a connecting piece 43 connected between the adapter 42 and the power distribution equipment 7; two power distribution devices 7 are arranged in the vertical supporting rod 3 in the longitudinal direction, and the mounting brackets 4 are correspondingly arranged according to the number of the required power distribution devices 7; the supporting upright stanchion 3 is connected with the ground through an adjustable bottom connecting piece 6.

In this embodiment, the top structure 1 is a structural beam, and may also be the top end of a top steel keel or a structural column; the masonry wall body 2 is arranged between the two shear walls 10; the power distribution equipment 7 comprises a weak current box 71, a switch box 72 or a control box, mounting holes are formed in the masonry wall 2 corresponding to the power distribution equipment 7, and mounting holes of the power distribution sleeve 9 are further formed in the masonry wall 2; the size of the mounting hole is adapted to the size of the cabinet of the electrical distribution equipment 7 or the mounting size of the distribution bushing 9.

As shown in fig. 2 to 4, a power distribution device 7 is disposed on the supporting upright 3, the supporting upright 3 includes a supporting rod 31 and a supporting rod foot 32, the supporting rod 31 is a square steel rod, and the supporting rod foot 32 is a circular steel sleeve; the prop foot 32 is welded to the outer side of the bottom end of the prop rod body 31. The supporting upright stanchions 3 are connected with the top structure 1 on the masonry wall 2 through rectangular steel fixing pieces 5; the fixing piece 5 is a rectangular steel pipe fitting, and the fixing piece 5 and the supporting vertical rod 3 are welded to be connected with the top structure 1 through embedded bolts or welded through embedded plates. As shown in fig. 5, the distribution sleeves 9 are fixedly installed in the masonry wall 2, and are embedded by pouring concrete, and are arranged at intervals in the installation holes reserved in the masonry wall 2.

As shown in fig. 6, the length direction of the horizontal connecting rod 41 is parallel to the masonry wall 2, the horizontal connecting rod 41 is made of right-angled steel, one outer side surface of the right-angled side of the horizontal connecting rod 41 is welded on the vertical surface of the inner side of the supporting upright 3, and the horizontal connecting rod 41 is arranged symmetrically in the longitudinal direction with respect to the supporting upright 3; the adaptor 42 is a round steel pipe or a rectangular steel pipe, the adaptor 42 is vertically connected with the horizontal connecting rod 41 and fixed through a bolt, and the adaptor 42 vertically builds the outer vertical surface of the wall body 2 in the longitudinal direction; the length of the adapter 42 is adapted to the width of the distribution equipment 7 installed between the support upright 3 and the masonry wall 2.

In this embodiment, the connecting member 43 is a steel angle member, the connecting member 43 is formed by welding two vertical steel plates, and the connecting member 43 is connected to two corners of the outer side surface of the power distribution equipment 7 in a full length manner; the connecting piece 43 is vertically welded to the adapter 42, and oblique reinforcing plates 44 are connected to the upper and lower sides between the connecting piece 43 and the adapter 42.

As shown in fig. 7, the bottom connecting member 6 includes a connecting column 61, a limiting plate 63 connected to the connecting column 61, and a base 62 connected between the connecting column 61 and the ground; the connecting column 61 is a steel pipe column and is correspondingly sleeved with a supporting column foot, the limiting plate 63 on the connecting column 61 is a circular ring steel plate, a thread is arranged in the limiting plate 63, the limiting plate 63 is correspondingly connected with an adjusting thread 612 arranged on the outer side surface of the column body 611, and the height of the adjusting thread 612 is adapted to the adjusting height difference of the supporting column foot 32; the base 62 is a circular steel plate base, and a steel rib plate is welded between the base 62 and the column 611 of the connecting column 61.

With reference to fig. 1 to 7, a construction method of a connection structure for installing distribution equipment on a masonry wall 2 is further described, which specifically includes the following steps:

cleaning the ground or floor for work, and popping out construction control lines of the masonry wall body 2 and control lines 8 of doors, windows, plastering and the like on the ground or a concrete floor by using an ink fountain.

And step two, arranging the building blocks according to the size and the number of the power distribution equipment 7 in the masonry wall 2, reserving mounting holes of the power distribution equipment 7 and mounting holes of the power distribution sleeve 9 during arrangement, discharging the mortar joint width during arrangement of the building blocks, and arranging the mortar joint positions on the top surface and the bottom surface of the power distribution equipment 7, so that the workload of cutting the building blocks during masonry can be avoided, and the masonry methods of all parts on the same masonry wall surface are uniform and consistent from top to bottom.

Thirdly, after the building blocks are arranged, determining the bar planting positions of reinforcing bars such as tie bars, constructional columns, ring beams and the like of the masonry wall body 2 according to the size of the arranged building blocks and design requirements; the bar planting includes: the process of positioning, drilling, cleaning holes, glue preparation, glue injection, anchor bar and the like is characterized in that a tissue professional uniformly plants bars and reports the test in layers.

And step four, controlling the paying-off position according to the designed positions and the number of the power distribution equipment 7 and the masonry wall 2, determining the installation position of the supporting upright rods 3, and determining the lengths of the adapter 42, the connecting piece 43 and the horizontal connecting rod 41 by combining the size of the power distribution equipment 7.

Step five, when the wall body is built, the inside and the outside are built, the joint is staggered up and down, and the surface flatness, the verticality, the mortar joint thickness and the horizontal mortar joint straightness of the built wall body 2 are kept to meet the building requirements; when the pipeline and the box body are built, the building mortar is used for filling along with building; and (3) setting a rubber number rod at each corner of the masonry wall body 2, wherein the distance between the rubber number rods is not more than 15m, and the rubber number rods are marked with dimensional elevations such as door and window openings, tie bars, ring beams, lintels and the like.

Step six, pre-installing the power distribution equipment 7 in the reserved installation hole, and installing a power distribution sleeve 9; installing a supporting upright rod 3, connecting the top of the supporting upright rod 3 with the top structure 1 through a fixing piece 5, adjusting and connecting the bottom end of the supporting upright rod 3 with the ground through a bottom connecting piece 6, and connecting an installation support 4 on the supporting upright rod 3; the vertical line of the plastering surface is made through the laser leveling instrument, the position of the power distribution equipment 7 is adjusted according to the light of the laser leveling instrument, the power distribution equipment 7 is fixedly connected with the mounting bracket 4 after the position of the power distribution equipment meets the design requirement, and the power distribution sleeve 9 is completely installed once after the power distribution equipment 7 is installed in place, and the installation is firm.

Step seven, when the brickwork on the upper part of the power distribution equipment 7 is built, a prefabricated lintel is laid on the upper part of the power distribution equipment 7, the lintel is not less than 200mm when being put on the brickwork on two sides, and the box body is prevented from deforming under pressure; after the whole masonry of the masonry wall body 2 is finished, the periphery of the power distribution equipment 7 and the periphery of the power distribution sleeve 9 are leveled, the wall surface falling ash is cleaned, and the cleanness and the attractiveness of the wall surface are kept.

In addition, before building, the building blocks are arranged according to the size of the box body of the power distribution equipment 7 and the preassembly position of the power distribution sleeve 9, so that the building blocks at the positions of the box body and the sleeve are reasonably arranged without through seams; when the building blocks are arranged, the thickness of the mortar joint is determined, the bottom and the top of the box body are ensured to be just at the height of the masonry mortar joint as much as possible, and thus, the cutting of partial bricks can be avoided.

During the masonry process, attention is paid to the protection of the pre-installed distribution equipment 7 and the distribution sleeve 9; gaps of the power distribution equipment 7 and the power distribution sleeve 9 must be filled with masonry mortar along with the building, so that the compactness of the gap outlet of the box and the pipeline is ensured, and hollowing and cracking are avoided; the building blocks at the positions of the power distribution equipment 7 and the power distribution sleeve 9 are built after being cut according to the conditions of the power distribution equipment 7 and the power distribution sleeve 9, and the cut building blocks clean dust.

The above description is only for the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any changes or substitutions that can be considered by those skilled in the art within the technical scope of the present invention should be covered by the protection scope of the present invention.

Claims (9)

1. A connecting structure for mounting distribution equipment on a masonry wall is characterized by comprising a top structure (1), a supporting upright rod (3) connected between the top structure (1) and the ground, a mounting bracket (4) connected to the supporting upright rod (3), and distribution equipment (7) connected to the mounting bracket (4); the mounting bracket (4) comprises a horizontal connecting rod (41) vertically connected to the supporting upright rod (3), adapters (42) connected to two ends of the horizontal connecting rod (41) and connecting pieces (43) connected between the adapters (42) and the power distribution equipment (7); the mounting brackets (4) are correspondingly arranged in the length direction of the supporting upright stanchions (3) according to the number of required power distribution equipment (7); the supporting upright stanchion (3) is connected with the ground through an adjustable bottom connecting piece (6).

2. A connecting structure for installing distribution equipment on a masonry wall according to claim 1, characterized in that the length direction of the horizontal connecting rods (41) is parallel to the masonry wall (2), and the horizontal connecting rods (41) are connected to the inner side of the supporting upright (3) and are symmetrically arranged about the supporting upright (3).

3. The connecting structure for mounting distribution equipment on a masonry wall according to claim 1, characterized in that the adaptor (42) is a rod, the adaptor (42) is vertically connected with the horizontal connecting rod (41), and the adaptor (42) is vertically arranged on the outer vertical surface of the masonry wall (2) in the length direction; the length of the adapter piece (42) is suitable for the width of the power distribution equipment (7) arranged between the supporting upright rod (3) and the masonry wall (2).

4. A connecting structure for mounting distribution equipment on a masonry wall according to claim 1, characterized in that the connecting members (43) are angle-shaped members, and the connecting members (43) are connected to two corner portions of the outer side surface of the distribution equipment (7) in a full length; the connecting piece (43) is vertically connected with the adapter piece (42), and an oblique reinforcing plate (44) is connected between the connecting piece (43) and the adapter piece (42).

5. A connecting structure for mounting distribution equipment on a masonry wall according to claim 1, characterized in that said supporting uprights (3) comprise a supporting rod body (31) and supporting rod feet (32), the supporting rod body (31) being a square rod body, the supporting rod feet (32) being circular sleeves; the supporting rod foot (32) is connected with the outer side surface of the bottom end of the supporting rod body (31).

6. A connecting structure for mounting distribution equipment on a masonry wall according to claim 1 or 5, characterized in that the bottom connecting piece (6) comprises a connecting column (61), a limiting plate (63) connected to the connecting column (61) and a base (62) connected between the connecting column (61) and the ground; the connecting column (61) is correspondingly connected with the supporting column base, and the top surface of the limiting plate (63) on the connecting column (61) is abutted against the bottom end of the supporting column base.

7. A connecting structure for mounting distribution equipment on a masonry wall according to claim 6, characterized in that the connecting column (61) comprises a column body (611) and adjusting threads (612) arranged on the outer side surface of the column body (611), and the height of the adjusting threads (612) is adapted to the adjusting height difference of the supporting column base; a ribbed plate (613) is arranged between the column (611) and the base (62).

8. A connecting structure for mounting distribution equipment on a masonry wall according to claim 1, characterized in that the supporting uprights (3) are connected with the top structure (1) on the masonry wall (2) by means of fixing members (5); the fixing piece (5) is a rectangular piece or an I-shaped piece.

9. A connecting structure for mounting distribution equipment on a masonry wall according to claim 1, wherein the distribution equipment (7) comprises a weak current box (71), a switch box (72) or a control box, mounting holes are formed in the masonry wall (2) corresponding to the distribution equipment (7), and mounting holes of a distribution sleeve (9) are further formed in the masonry wall (2).

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