CN115143321A - A gallows for building electromechanical installation - Google Patents

Abstract

The invention discloses a support and hanger frame for electromechanical installation of a building, which comprises a shielding plate, a strut, a first transverse support and an angle adjusting mechanism, wherein the first transverse support is connected with the angle adjusting mechanism; the number of the support columns is multiple, and the plurality of the support columns are arranged on the periphery of the top of the shielding plate respectively; the top end of the strut is a fixed connecting end for fixed installation; the first cross brace is connected between the plurality of struts; the angle adjusting mechanisms are arranged in a plurality and are connected with the supporting columns in a one-to-one correspondence manner; the angle adjusting mechanism comprises a supporting seat and a connecting rod; the supporting seat is connected with the corresponding supporting column; one end of the connecting rod is hinged with the supporting seat, and the other end of the connecting rod is a fixed connecting end for fixed installation. The angle adjusting mechanism is ingenious in structure, and can be fixed at multiple positions on the top of a wall or fixed on a vertical wall, so that the practicability is improved, and the complex conditions of different construction sites can be met.

Description

A gallows for building electromechanical installation

Technical Field

The invention relates to the field of building electromechanical installation, in particular to a supporting and hanging bracket for building electromechanical installation.

Background

The support and the hanger are the combined name of the support and the hanger, play a role in bearing the weight of each accessory and a medium thereof, restraining and limiting unreasonable displacement of building components, controlling vibration of the components and the like in each construction link, and play an extremely important role in safe operation of building facilities. The support and hanger frame is mainly used for electromechanical engineering facilities of building water supply and drainage, fire fighting, heating, ventilation, air conditioning, gas, heat, power, communication and the like, and generates heat displacement and equipment thereof during operation.

The support hanger is widely applied to the fields of electric power and chemical industry, is used for hanging and supporting pipelines and equipment, bears the gravity of the pipelines, bears accidental impact load and controls the displacement and vibration of the pipelines in a working state. The existing pipeline supporting and hanging frame is divided into a variable spring supporting and hanging frame, a constant force spring supporting and hanging frame and a rigid supporting and hanging frame according to different mechanical functions. The variable-force spring hanger and the constant-force spring hanger can be divided into a plurality of forms of an A-type upper thread suspension type, a B-type single-lug suspension type, a C-double-lug suspension type, a D-type upper adjustment shelving type, an E-lower adjustment shelving type, an F-type support shelving type and a G-parallel suspension type according to different pipe parts and root structures. Meanwhile, the same type of the support and hanger may be in the following different forms: the mechanical functions of the bracket, the hanger single head and the hanger double head are not changed although the forms are different.

With the development of social economy, various pipelines are distributed in modern industrial engineering and underground buildings of buildings, a support hanger plays the roles of bearing weight, balancing counter force, properly displacing, reducing noise and the like, the design and the form of a pipeline support hanger pipe support structure are selected as an important component in the design of a pipeline system, a specially-made pipe support can balance the acting force of a pipeline system besides the weight of the supporting pipeline, the displacement of the pipeline is limited, and vibration is absorbed.

The pipeline support hanger is used for an overhead laying pipeline support structure, supports the pipeline, limits the deformation and displacement of the pipeline, and bears the internal pressure, external load and elastic force of temperature deformation transmitted by the pipeline. As a supporting structure of the pipeline, the pipe frame is divided into a fixed structure and a movable structure according to the running performance and the arrangement requirement of the pipeline. The location of the fixing point is a fixing support, the pipe support and the pipeline support can not generate relative displacement, and the deformation of the fixed pipe support after being stressed is small compared with the deformation value of the pipeline compensator, because the pipe support has enough rigidity. The movable pipe frame is adopted at the position where the middle support is arranged, relative displacement is allowed to be generated between the pipelines and the pipe frame, and thermal deformation of the pipelines is not restrained.

The mechanical and electrical installation support and hanger for the building is a mechanical connection system for supporting and positioning the facilities such as pipelines and lines in the building. At present, in the installation and construction of building machinery, to some complicated construction environment, the unable installation of a gallows of present, or the installation back support effect is not good, and later stage maintenance is troublesome.

Disclosure of Invention

The invention aims to provide a support and hanger for electromechanical installation of a building, which is applicable to different installation environments and provides good support.

In order to solve the technical problems, the technical scheme adopted by the invention is as follows: a supporting and hanging frame for building electromechanical installation comprises a shielding plate, a supporting column, a first transverse support and an angle adjusting mechanism; the number of the support columns is multiple, and the plurality of the support columns are arranged on the periphery of the top of the shielding plate respectively; the top end of the strut is a fixed connecting end for fixed installation; the first cross brace is connected between the plurality of struts; the angle adjusting mechanisms are arranged in a plurality and are connected with the supporting columns in a one-to-one correspondence manner; the angle adjusting mechanism comprises a supporting seat and a connecting rod; the supporting seat is connected with the corresponding supporting column; one end of the connecting rod is hinged with the supporting seat, and the other end of the connecting rod is a fixed connecting end for fixed installation.

As a further technical scheme of the scheme, the connecting rod is a telescopic rod.

As a further technical scheme of the above scheme, the angle adjusting mechanism further comprises a fixed block, a connecting rod, a sliding plate and a bracket; the fixed block is hinged with the fixed connecting end of the connecting rod; one end of the connecting rod is connected with the fixed block, and the other end of the connecting rod is connected with the sliding plate; the support is connected with the sliding plate in a relatively sliding mode, and the support is also used as a foundation for fixed installation.

As a further technical scheme of the above scheme, the support is provided with two support arms arranged in parallel relatively, and a chute is arranged in each support arm; two ends of the sliding plate are respectively connected in the sliding grooves of the two support arms in a sliding manner; the angle adjusting mechanism also comprises two screw rods which are respectively and correspondingly arranged in the sliding chutes of the two support arms and can freely move in the sliding chutes; the screw is in threaded connection with the tail end of the support arm, and the end part of the screw, which is positioned in the sliding groove, is abutted to the sliding plate.

As a further technical scheme of the scheme, the bracket is provided with a fastening piece for fixing and mounting.

As a further technical scheme of the above scheme, the device further comprises a first positioning connecting piece; the first transverse support is provided with a slide way, and the first positioning connecting piece is connected in the slide way in a sliding manner.

As a further technical solution of the above aspect, the vehicle further comprises a second transverse support; the second cross support is connected between the plurality of struts; the second cross support is positioned above the first cross support.

As a further technical solution of the above solution, the device further comprises a second positioning connecting piece; the second transverse support is provided with a slide way, and the second positioning connecting piece is connected in the slide way in a sliding manner.

As a further technical scheme of the scheme, the top end of the support is connected with a support, and a fastening piece for fixed installation is arranged on the support.

As a further technical solution of the above, the fastener is an expansion bolt.

Compared with the prior art, the invention has the following advantages and beneficial effects: the invention has smart structure, the angle adjusting mechanism can be fixed at a plurality of positions on the wall top, or fix it on vertical wall to improve the practicality, can be to the complicated condition of different job sites. The position of the positioning connecting piece can be adjusted, and good fixation can be realized for different specifications and sizes of equipment boxes and pipelines.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural view of the angle adjustment mechanism of the present invention.

The definitions of the reference symbols in the figures are: the device comprises a support column 1, a shielding plate 2, a first transverse support 3, an equipment box body 4, a first positioning connecting piece 5, a second transverse support 6, a second positioning connecting piece 7, a pipeline 8, a support 9, an angle adjusting mechanism 10, a support seat 101, a connecting rod 102, a fixing block 103, a connecting rod 104, a support 105, a sliding plate 106, a screw 107 and a fastener 108.

Detailed Description

In order that those skilled in the art will better understand the technical solutions of the present invention, the present invention will be further described in detail with reference to the following embodiments.

In the description of the present invention, it should be understood that the orientation or positional relationship referred to in the description of the orientation, such as the upper, lower, front, rear, left, right, etc., is based on the orientation or positional relationship shown in the drawings, and is only for convenience of description and simplification of description, and does not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the description of the present invention, a plurality of means is one or more, a plurality of means is two or more, and greater than, less than, more than, etc. are understood as excluding the essential numbers, and greater than, less than, etc. are understood as including the essential numbers. The terms first, second and the like, if any, are used for distinguishing technical features only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated or implicitly indicating the precedence of technical features indicated.

In the description of the present invention, unless otherwise explicitly limited, terms such as arrangement, installation, connection and the like should be understood in a broad sense, and those skilled in the art can reasonably determine the specific meanings of the above terms in the present invention in combination with the specific contents of the technical solutions.

As shown in fig. 1, a support and hanger for electromechanical installation of a building according to an embodiment of the present invention includes a canopy plate 2, a pillar 1, a first cross brace 3, and an angle adjustment mechanism 10.

The shielding plate 2 is a large flat plate horizontally arranged, serves as a mounting and supporting base for other components, and can prevent dust, impurities and the like from entering the upper portion of the shielding plate.

The pillar 1 is provided with a plurality of, and all vertical settings. A plurality of pillars 1 are arranged around the top of the shielding plate 2. Namely, the lower end of the support 1 is connected with the top of the shielding plate 2, and the upper end of the support 1 is used as a fixed connecting end for fixedly mounting with a wall surface or a ceiling.

In order to facilitate the installation and fixation of the pillar 1 on the wall or the ceiling, a support 9 may be connected to the top end of the pillar 1, and a fastening member such as an expansion bolt may be attached to the support 9 to facilitate the fixed installation on the wall or the ceiling.

The first cross brace 3 is connected between the plurality of pillars 1. For example, when the pillars 1 are provided in only two as shown in fig. 1, both ends of the first lateral support 3 are connected between the two pillars 1, respectively. The first cross support 3 may serve as a mounting base for the equipment cabinet 4, for example.

As shown in fig. 2, the angle adjusting mechanism 10 includes a support base 101 and a connecting rod 102. The supporting seat 101 is connected to the pillar 1, the supporting seat 101 may be connected to one side of the pillar 1 far away from the first cross brace 3, or may be connected to any suitable position on the pillar 1, preferably to the upper portion of the pillar 1, so that the angle adjusting mechanism 10 is fixedly installed on the wall or ceiling. One end of the connecting rod 102 is hinged to the supporting seat 101, the other end of the connecting rod 102 is a fixed connecting end for fixed installation, and the fixed connecting end of the connecting rod 102 is used for realizing fixed installation with a wall surface or a ceiling. In the present invention, an angle adjusting mechanism 10 is connected to each pillar 1 to achieve good fixation.

The connecting rod 102 may preferably be a telescopic rod to facilitate adaptive adjustment of the fixed mounting position with the wall or ceiling.

In some embodiments, the angle adjustment mechanism 10 further includes a fixed block 103, a link 104, a sliding plate 106, and a bracket 105. The fixed block 103 is hinged with the fixed connection end of the connecting rod 102. One end of the connecting rod 104 is connected with the fixed block 103, and the other end of the connecting rod 104 is connected with the sliding plate 106. The bracket 105 is connected with the sliding plate 106 in a relatively sliding manner, and the bracket 105 also serves as a base for fixed installation.

In this way, the bracket 105 serves as a base for fixed installation with a wall surface or a ceiling, and serves as a sliding base for the sliding plate 106, so that the support base 101 and the bracket 105 are movably connected, that is, the connection angle between the connecting rod 102 and the connecting rod 104 between the support base 101 and the bracket 105 can be adjusted as required, so as to meet different installation position requirements of the wall surface or the ceiling.

The earthquake-proof design must be carried out in the building electromechanical engineering in the area with the earthquake fortification intensity of 6 degrees or more specified in the building electromechanical engineering earthquake-proof design specification, and the aim is to reduce the damage of the earthquake to electromechanical engineering facilities. The electromechanical engineering facilities mainly comprise water supply and drainage, heating, ventilation, air conditioning, gas, heat, power, communication, fire control and the like of buildings. At present, in the existing anti-seismic support and hanger structure, a single bolt and nut connecting structure is adopted for connecting the inclined pull channel steel with the horizontal channel steel and connecting the inclined pull channel steel with the top building structure. But because the continuous shake condition can appear in the earthquake in-process, the condition that becomes flexible takes place easily for single bolt and nut connection structure like this to lose and draw fixed effect to one side, influence the overall stability of a gallows structure of combatting earthquake, cause the potential safety hazard. The angle adjusting mechanism 10 in the embodiment of the present application also has a certain shock resistance, that is, when the wall surface vibrates, the connection angle between the connecting rod 102 and the connecting rod 104 can be adjusted adaptively.

In some embodiments, the support 105 has two arms disposed in parallel, and the arms have sliding grooves therein. The two ends of the sliding plate 106 are slidably connected to the sliding grooves of the two support arms, respectively. The angle adjusting mechanism 10 further includes two screws 107, and the two screws 107 are respectively disposed in the sliding grooves of the two support arms and can move freely in the sliding grooves. The screw 107 is screwed to the end of the arm, and the end of the screw 107 in the slide groove abuts against the slide plate 106.

The slide plate 106 is freely slid in the two arms of the bracket 105 to adjust the proper position, and after being adjusted in position, the position of the slide plate 106 in the two arms of the bracket 105 is locked by the screw 107, thereby determining the installation posture of the entire angle adjusting mechanism 10.

Similarly, the embodiment of the present application may also be provided with a fastening member 108, such as an expansion bolt, at the fixed connection end of the bracket 105, so as to facilitate the fixed installation with the wall or ceiling.

In the embodiment of the present application, the first horizontal support 3 may serve as a mounting base for the equipment box 4, for example. In order to make the installation position of the equipment box 4 more reasonable, the embodiment of the application further comprises a first positioning connecting piece 5. The first transverse support 3 is provided with a slide way, the first positioning connecting piece 5 is connected in the slide way in a sliding manner, and the equipment box body 4 is connected with the first transverse support 3 through the first positioning connecting piece 5. The first positioning connecting piece 5 can not only strengthen the connection strength between the equipment box body 4 and the first transverse support 3, but also adjust the installation position of the equipment box body 4 on the first transverse support 3.

The first positioning connector 5 is configured according to the components to be connected, for example, if it is used for connecting the equipment cabinet 4, a box clamp with an L-shaped cross section may be used. The box card is connected to two ends of the equipment box body 4 and then connected with the sliding groove on the first transverse support 3, and therefore the connecting purpose is achieved.

In order to mount other components, such as the duct 8, on the present embodiment, the present embodiment further includes a second cross brace 6. The second cross brace 6 is connected between the plurality of struts 1, and the second cross brace 6 is located above the first cross brace 3.

Similarly, the present embodiment may further include a second positioning connection 7. The second transverse support 6 is provided with a slide way, the second positioning connecting piece 7 is connected in the slide way in a sliding manner, and the pipeline 8 is connected with the second transverse support 6 through the second positioning connecting piece 7. The second positioning connecting piece 7 can not only strengthen the connection strength between the pipeline 8 and the second transverse support 6, but also adjust the installation position of the pipeline 8 on the second transverse support 6.

The form of the second positioning connection 7 is also determined by the components to be connected, for example, if it is used to connect pipes 8, it is possible to use pipe clamps with an arc-shaped cross section. The pipe clamp is sleeved on the pipeline 8 and then connected with the sliding groove on the second transverse support 6, so that the connection purpose is realized.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above preferred embodiments should not be considered as limiting the invention, which is subject to the scope defined by the claims. It will be apparent to those skilled in the art that various modifications and adaptations can be made without departing from the spirit and scope of the invention, and these modifications and adaptations should be considered within the scope of the invention.

Claims (10)

1. A prop up gallows for building electromechanical installation which characterized in that: comprises a shielding plate (2), a strut (1), a first transverse support (3) and an angle adjusting mechanism (10); the number of the support columns (1) is multiple, and the plurality of support columns (1) are respectively arranged on the periphery of the top of the shielding plate (2); the top end of the strut (1) is a fixed connecting end for fixed installation; the first cross support (3) is connected among the plurality of pillars (1); a plurality of angle adjusting mechanisms (10) are arranged, and the angle adjusting mechanisms (10) are connected with the supporting columns (1) in a one-to-one corresponding mode; the angle adjusting mechanism (10) comprises a supporting seat (101) and a connecting rod (102); the supporting seat (101) is connected with the corresponding strut (1); one end of the connecting rod (102) is hinged to the supporting seat (101), and the other end of the connecting rod (102) is a fixed connecting end for fixed installation.

2. A support and hanger for electromechanical installation in a building as claimed in claim 1, wherein: the connecting rod (102) is a telescopic rod.

3. A support and hanger for electromechanical installation in a building as claimed in claim 1 or claim 2, wherein: the angle adjusting mechanism (10) further comprises a fixed block (103), a connecting rod (104), a sliding plate (106) and a bracket (105); the fixed block (103) is hinged with the fixed connecting end of the connecting rod (102); one end of the connecting rod (104) is connected with the fixed block (103), and the other end of the connecting rod (104) is connected with the sliding plate (106); the bracket (105) is connected with the sliding plate (106) in a relatively sliding mode, and the bracket (105) also serves as a base for fixed installation.

4. A support and hanger for electromechanical installation in a building as claimed in claim 3, wherein: the support (105) is provided with two support arms which are arranged in parallel relatively, and a sliding groove is arranged in each support arm; two ends of the sliding plate (106) are respectively connected in the sliding grooves of the two support arms in a sliding manner; the angle adjusting mechanism (10) further comprises two screw rods (107), and the two screw rods (107) are respectively arranged in the sliding grooves of the two support arms correspondingly and can move freely in the sliding grooves; the screw (107) is screwed on the tail end of the support arm, and the end of the screw (107) positioned in the sliding groove is abutted with the sliding plate (106).

5. A support and hanger for electromechanical installation in a building as claimed in claim 3, wherein: and a fastener (108) for fixed installation is arranged on the bracket (105).

6. A support and hanger for electromechanical installation in a building as claimed in claim 1, wherein: the device also comprises a first positioning connecting piece (5); the first transverse support (3) is provided with a slide way, and the first positioning connecting piece (5) is connected in the slide way in a sliding manner.

7. A support and hanger for electromechanical installation in a building as claimed in claim 1, wherein: the device also comprises a second transverse support (6); the second transverse support (6) is connected among the plurality of pillars (1); the second transverse support (6) is positioned above the first transverse support (3).

8. A support and hanger for electromechanical installation in a building as claimed in claim 7, wherein: also comprises a second positioning connecting piece (7); the second transverse support (6) is provided with a slide way, and the second positioning connecting piece (7) is connected in the slide way in a sliding manner.

9. A support and hanger for electromechanical installation in a building as claimed in claim 1, wherein: the top end of the support column (1) is connected with a support seat (9), and a fastening piece for fixed installation is arranged on the support seat (9).

10. A support and hanger for electromechanical installation in a building as claimed in claim 9, wherein: the fastener is an expansion bolt.

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