CN215111907U - Firm antidetonation support for building electromechanical device of installation - Google Patents

Abstract

An anti-seismic support for building electromechanical equipment which is stably installed comprises two reinforcing hanging rods vertically fixed on the top of a wall, a lateral anti-seismic diagonal brace for resisting lateral vibration, two longitudinal anti-seismic diagonal braces for resisting longitudinal vibration and a fixing frame for installing the building electromechanical equipment, wherein the lateral anti-seismic diagonal brace and the longitudinal anti-seismic diagonal brace are arranged to resist the lateral vibration and the longitudinal vibration, so that bidirectional anti-seismic is realized; simultaneously, the top of lateral anti-seismic diagonal brace and the top of longitudinal anti-seismic diagonal brace are all fixed to the wall top through anti-seismic connecting component I, the bottom of lateral anti-seismic diagonal brace and the bottom of longitudinal anti-seismic diagonal brace are all connected with the fixing frame through anti-seismic connecting component II, anti-seismic connecting component I is anchored to the wall top, and anti-seismic connecting component II is pressed and buckled to connect the fixing frame, so that the production and installation of the whole anti-seismic support are realized, the structure is simple, the installation is convenient and fast, the installation is very stable, and the safety protection performance of the anti-seismic support is greatly improved.

Description

Firm antidetonation support for building electromechanical device of installation

Technical Field

The utility model relates to a building electromechanical device antidetonation technical field, concretely relates to firm antidetonation support for building electromechanical device of installation.

Background

In modern building construction, by adding a building earthquake-resistant technology, the earthquake-resistant performance of a building body is improved, and the building body can still be kept stable and stable under the existing earthquake force. As is well known, when an earthquake occurs, the proportion of secondary casualties caused by secondary injuries (such as fire, falling objects, leakage and the like) caused by falling of electromechanical devices such as electric wires, pipelines, fire-fighting systems and the like accounts for more than half of casualties, and as the earthquake force causes failure or falling of the fire-fighting systems, the water supply systems and the alarm systems, larger casualties are caused. Therefore, the anti-seismic support is needed to fix the pipeline, and falling is avoided. However, the existing anti-seismic support is complex in structure and troublesome to install, the installation working efficiency is reduced, and some anti-seismic supports with simple structures are poor in stability and easy to generate potential safety hazards.

SUMMERY OF THE UTILITY MODEL

In order to overcome the not enough of prior art, the utility model provides a building electromechanical device that the installation is firm is with antidetonation support.

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

an anti-seismic support for building electromechanical equipment with stable installation comprises two reinforcing hanging rods vertically fixed on a wall top, a lateral anti-seismic diagonal brace used for resisting lateral vibration, two longitudinal anti-seismic diagonal braces used for resisting longitudinal vibration and a fixing frame used for installing the building electromechanical equipment, wherein two ends of each reinforcing hanging rod are respectively fixed on the wall top and the fixing frame, the tops of the lateral anti-seismic diagonal brace and the longitudinal anti-seismic diagonal brace are fixed on the wall top through an anti-seismic connecting component I, the bottoms of the lateral anti-seismic diagonal brace and the longitudinal anti-seismic diagonal brace are connected with the fixing frame through an anti-seismic connecting component II, the anti-seismic connecting component I comprises an adjustable buffer hinge I and an anchoring component used for anchoring the top of the buffer hinge I into the wall top, and the anti-seismic connecting component II comprises an adjustable buffer hinge II and a buckling component used for connecting the buffer hinge II with the fixing frame in a buckling manner, the pressing piece pressing buckle is arranged on the fixing frame, and the buffer hinge II is arranged on the pressing piece.

As a further improvement, the reinforcing suspender includes the channel-section steel of vertical setting and follows the screw rod that passes the channel-section steel and extend to be connected to the mount extremely down, the one end of screw rod is fixed at the wall crown, it is fixed through the cooperation of V type stiffening device between channel-section steel and the screw rod, V type stiffening device penetrates from the channel-section steel side and supports and press the screw rod lateral wall.

As a further improvement, the mount includes last whippletree and lower whippletree that the interval set up from top to bottom, go up whippletree and the equal level setting of whippletree down, go up whippletree, lower whippletree and two screw rods that consolidate the jib form square frame structure, still be equipped with in the mount and be used for carrying out two fixed angle steel in both sides to building electromechanical device, two angle steel symmetries set up on the whippletree down, two spaced double-layered trench that presss from both sides that forms building electromechanical device of angle steel.

As a further improvement, the upper and lower sides of the upper and lower horizontal bars are provided with the pressing member for positioning, and the pressing member is screwed on the screw rod.

As a further improvement, the V-shaped stiffening device includes stiffening bolt, the stiffening wing section nut of spiro union on stiffening bolt and rotates the preforming of putting more energy into of connection at the stiffening bolt front end, be equipped with the stiffening tooth's socket on the fin of the stiffening wing section nut, be equipped with in the channel-section steel with the stiffening tooth's socket complex, be the sawtooth of putting more energy into of continuous sawtooth structure, the preforming of putting more energy into cooperatees with the screw rod in order to incite somebody to action the channel-section steel is fixed on the screw rod.

The utility model has the advantages that: the anti-seismic support resists lateral vibration and longitudinal vibration by arranging the lateral anti-seismic diagonal brace and the longitudinal anti-seismic diagonal brace, thereby realizing bidirectional anti-seismic; simultaneously, the top of lateral anti-seismic diagonal brace and the top of longitudinal anti-seismic diagonal brace are all fixed to the wall top through anti-seismic connecting component I, the bottom of lateral anti-seismic diagonal brace and the bottom of longitudinal anti-seismic diagonal brace are all connected with the fixing frame through anti-seismic connecting component II, anti-seismic connecting component I is anchored to the wall top, and anti-seismic connecting component II is pressed and buckled to connect the fixing frame, so that the production and installation of the whole anti-seismic support are realized, the structure is simple, the installation is convenient and fast, the installation is very stable, and the safety protection performance of the anti-seismic support is greatly improved.

Drawings

The invention will be further explained with reference to the drawings and the embodiments below:

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

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

FIG. 3 is a schematic view of a connection structure of the reinforcing hanger rod, the lateral anti-seismic diagonal brace and the longitudinal anti-seismic diagonal brace according to the embodiment;

FIG. 4 is a schematic structural view of the seismic connecting member I of the present embodiment;

FIG. 5 is a schematic structural diagram of an earthquake-resistant connecting member II according to the embodiment;

FIG. 6 is an enlarged view of portion A of FIG. 1;

fig. 7 is an enlarged view of a portion B in fig. 2.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the drawings in the embodiments of the present invention are combined below to clearly and completely describe the technical solutions in the embodiments of the present invention.

Example (b):

as shown in fig. 1 to 7, the embodiment discloses a stably installed anti-seismic support for building electromechanical devices, which includes two vertically fixed reinforcing hanger rods 1 on the wall top, one lateral anti-seismic diagonal brace 2 for resisting lateral vibration, two longitudinal anti-seismic diagonal braces 3 for resisting longitudinal vibration, and a fixing frame 4 for installing building electromechanical devices, two ends of the reinforcing hanger rods 1 are respectively fixed on the wall top and the fixing frame 4, tops of the lateral anti-seismic diagonal brace 2 and the longitudinal anti-seismic diagonal brace 3 are fixed on the wall top through an anti-seismic connecting member i 5, the lateral anti-seismic diagonal brace 2 and the longitudinal anti-seismic diagonal brace 3 are both arranged at an included angle of 45 degrees with the reinforcing hanger rods 1, and the lateral anti-seismic diagonal brace 2 and the longitudinal anti-seismic diagonal brace 3 are arranged at a right angle of 90 degrees in space, so that lateral anti-seismic performance and longitudinal anti-seismic performance are balanced. The bottom of lateral anti-seismic diagonal brace 2 and longitudinal anti-seismic diagonal brace 3 is connected with a fixing frame 4 through an anti-seismic connecting component II 6, the anti-seismic connecting component I5 comprises an adjustable buffer hinge I51 and an anchoring part 52 used for anchoring the top of the buffer hinge I51 into the wall top, the anti-seismic connecting component II 6 comprises an adjustable buffer hinge II 61 and a buckling and pressing part 62 used for buckling and connecting the buffer hinge II 61 with the fixing frame 4, the buckling and pressing part 62 is installed on the fixing frame 4 in a buckling and pressing mode, and the buffer hinge II 61 is installed on the buckling and pressing part 62. Lateral vibration and longitudinal vibration are resisted by arranging the lateral anti-vibration inclined strut 2 and the longitudinal anti-vibration inclined strut 3, so that bidirectional vibration resistance is realized; simultaneously, the top of lateral anti-seismic diagonal brace 2 and longitudinal anti-seismic diagonal brace 3 is fixed to the wall top through anti-seismic connecting component I5, the bottom of lateral anti-seismic diagonal brace 2 and longitudinal anti-seismic diagonal brace 3 is connected with fixing frame 4 through anti-seismic connecting component II 6, anti-seismic connecting component I5 is anchored to the wall top, and anti-seismic connecting component II 6 is pressed and buckled to be connected with fixing frame 4, so that the production and installation of the whole anti-seismic support are realized, the structure is simple, the installation is convenient and fast, the installation is very stable, and the safety protection performance of the anti-seismic support is greatly improved.

As a preferred embodiment, the reinforcing hanger rod 1 includes a vertically arranged channel steel 11 and a screw 12 passing through the channel steel 11 from top to bottom and extending to be connected to the fixing frame 4, one end of the screw 12 is fixed on the wall top, the channel steel 11 and the screw 12 are fixed in a matching manner through a V-shaped stiffening device 13, and the V-shaped stiffening device 13 penetrates from the side surface of the channel steel 11 and presses against the side wall of the screw 12.

In a preferred embodiment, the fixing frame 4 includes an upper horizontal bar 41 and a lower horizontal bar 42 which are arranged at intervals up and down, the upper horizontal bar 41 and the lower horizontal bar 42 are both arranged horizontally, the upper horizontal bar 41, the lower horizontal bar 42 and the two screw rods 12 of the reinforcing suspension rod 1 form a square frame structure, two angle steels 43 for fixing the building electromechanical devices on two sides are further arranged in the fixing frame 4, the two angle steels 43 are symmetrically arranged on the lower horizontal bar 42, and the two angle steels 43 form clamping slots 44 of the building electromechanical devices at intervals. The upper and lower sides of the upper and lower cross bars 41 and 42 are provided with a buckling piece 62 for positioning, and the buckling piece 62 is connected to the screw 12 by screw thread. The double-layered dress groove of this embodiment is for adopting square structure, and the applicable exterior structure that corresponds is suitable for square building electromechanical device, certainly the utility model discloses an antidetonation support also can come the design according to building electromechanical device's actual conditions to press from both sides dress trench 44 when the design, makes the structure looks adaptation of pressing from both sides dress trench 44 and building electromechanical device. In addition, set up in last whippletree 41 and lower whippletree 42 from last regulation hole to running through down, this regulation hole can supply to consolidate jib 1, side direction antidetonation bracing 2 and vertical antidetonation bracing 3 the regulation installation on horizontal mounted position, makes the utility model discloses an installation is more convenient and the commonality is higher.

In a preferred embodiment, the V-shaped stiffening device 13 includes a stiffening bolt 131, a stiffening wing nut 132 screwed on the stiffening bolt 131, and a stiffening pressing sheet 133 rotatably connected to the front end of the stiffening bolt 131, a stiffening tooth slot is provided on a wing of the stiffening wing nut 132, a stiffening tooth 111 in a continuous tooth structure is provided in the channel 11, the stiffening tooth is matched with the stiffening tooth slot, and the stiffening pressing sheet 133 is matched with the screw 12 to fix the channel 11 on the screw 12.

The above description is only the preferred embodiment of the present invention, and the technical solutions of the objects of the present invention are all within the protection scope of the present invention as long as the objects are achieved by the substantially same means.

Claims (5)

1. The utility model provides a firm antidetonation support for building electromechanical device of installation, includes that two are vertical fixes reinforcing jib (1) at the wall crown, one is used for resisting lateral vibration's lateral vibration bracing (2), two vertical antidetonation bracing (3) that are used for resisting longitudinal vibration and one mount (4) that are used for installing building electromechanical device, the both ends of reinforcing jib (1) are fixed respectively at wall crown and mount (4), its characterized in that: the top of side direction antidetonation bracing (2) and vertical antidetonation bracing (3) all is fixed to the wall top through antidetonation connecting elements I (5), the bottom of side direction antidetonation bracing (2) and vertical antidetonation bracing (3) all connects mount (4) through antidetonation connecting elements II (6), antidetonation connecting elements I (5) are including adjustable buffering hinge I (51) and be used for with the anchor assembly (52) of buffering hinge I (51) top anchor in the wall top, antidetonation connecting elements II (6) are including adjustable buffering hinge II (61) and be used for withholding piece (62) of connecting mount (4) with buffering hinge II (61) pressure-withhold, withhold piece (62) pressure-withhold and install on mount (4), buffering hinge II (61) are installed on withholding piece (62).

2. An earthquake-resistant support for stably installed building electromechanical equipment according to claim 1, characterized in that: consolidate jib (1) including channel-section steel (11) of vertical setting and from last to passing channel-section steel (11) and extending the screw rod (12) that are connected to mount (4) down, the one end of screw rod (12) is fixed at the wall crown, it is fixed to put more energy into through V type stiffening device (13) cooperation between channel-section steel (11) and screw rod (12), V type stiffening device (13) penetrate from channel-section steel (11) side and press screw rod (12) lateral wall.

3. An earthquake-resistant support for stably installed building electromechanical equipment according to claim 2, wherein: the utility model discloses a building electromechanical device, including two angle steel (43) that are used for carrying out both sides fixed to building electromechanical device, the mount (4) including last whippletree (41) and lower whippletree (42) that the interval set up from top to bottom, go up whippletree (41) and the equal level setting of whippletree (42) down, go up whippletree (41), whippletree (42) and two screw rods (12) of reinforcing jib (1) form square frame structure down, still be equipped with in mount (4) and be used for carrying out two angle steel (43) of both sides fixed to building electromechanical device, two angle steel (43) symmetry sets up under on whippletree (42), and two angle steel (43) spaced apart dress trench (44) that press from both sides that form building electromechanical device.

4. An earthquake-resistant support for stably installed building electromechanical equipment according to claim 3, wherein: and buckling parts (62) are arranged on the upper side and the lower side of the upper cross bar (41) and the lower cross bar (42) for positioning, and the buckling parts (62) are in threaded connection with the screw (12).

5. An earthquake-resistant support for stably installed building electromechanical equipment according to claim 2, wherein: v type device (13) of putting more energy into includes stiffening bolt (131), spiral connection stiffening wing section nut (132) and rotation on stiffening bolt (131) and connects stiffening pressure piece (133) at stiffening bolt (131) front end, be equipped with the stiffening tooth groove on the fin of stiffening wing section nut (132), be equipped with in channel-section steel (11) with the stiffening tooth groove complex, be stiffening sawtooth (111) of continuous sawtooth structure, the stiffening pressure piece (133) cooperate with screw rod (12) in order to incite somebody to action channel-section steel (11) are fixed on screw rod (12).

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