CN218990624U - Suspension type hanging bracket - Google Patents

Abstract

The utility model discloses a suspension type hanging bracket, which comprises a fixed component and an adjusting component; the fixing component comprises a branch frame and a supporting plate, the branch frame is sleeved on the inclined steel structure, the supporting plate is abutted to the lower surface of the inclined steel structure, and the branch frame and the supporting plate are clamped and fixed on the inclined steel structure together; the adjusting part sets up in fixed subassembly below, including hanging the connecting piece under, surely change the dibit pole, hang extension pole and lower position die-pin down, hang the connecting piece under and be fan-shaped, open on upper portion has the round hole, and open the lower part has the arc slot hole, and two are surely changeed the dibit pole and pass round hole and arc slot hole respectively, will hang the extension pole down and install on hanging the connecting piece down, hang the extension pole lower extreme down and connect the lower position die-pin down, surely change the position that the dibit pole is located the arc slot hole and be used for adjusting the angle of lower position die-pin in vertical plane. The utility model has simple structure, is suitable for inclined steel structures with different inclined angles, has adjustable lower hanging angle, is convenient to use, can be used for operating in narrow space, and has wide applicability.

Description

Suspension type hanging bracket

Technical Field

The utility model relates to the technical field of electromechanical installation, in particular to a suspension type hanging bracket.

Background

Due to rapid development of the building industry, more and more buildings are built in a steel structure form, a better solution for bracket installation on an inclined steel structure does not exist at present, and meanwhile, the installation of pipelines, equipment, suspended ceilings and the like under the steel structure is seriously affected due to the fact that welding is not suitable for the steel structure.

Therefore, how to create a new hanging hanger is one of the important research and development problems at present.

Disclosure of Invention

The utility model aims to solve the technical problem of providing a suspension type hanging bracket which can suspend facilities such as pipelines, suspended ceilings, keels and the like on an inclined steel structure, is stable in connection and adjustable in angle, thereby overcoming the defects in the prior art.

In order to solve the technical problems, the utility model provides a suspension type hanging bracket, which comprises a fixing component and an adjusting component; the fixing component comprises a branch frame and a supporting plate, the branch frame is sleeved on the inclined steel structure, the supporting plate is abutted to the lower surface of the inclined steel structure, and the branch frame and the supporting plate are clamped and fixed on the inclined steel structure together; the adjusting part sets up in fixed subassembly below, including hanging the connecting piece down, surely change dibit pole, hang extension pole and lower level die-pin down, hang the connecting piece down and be fan-shaped, open on upper portion has the round hole, and open the lower part has the arc slot hole, and two surely change dibit poles pass round hole and arc slot hole respectively, will hang the extension pole down and install on hanging the connecting piece down, hang the extension pole lower extreme down and connect the lower level die-pin, surely change the position that the dibit pole is located the arc slot hole and be used for adjusting the angle of lower level die-pin in vertical plane.

As an improvement of the utility model, the fixing component further comprises a telescopic rod, an adjusting sleeve, an orientation rotating shaft and an orientation rod, wherein the orientation rod is horizontally arranged at the lower end of the branch frame, the orientation rotating shaft is of a structure that a sleeve ring is fixedly connected with a shaft, the sleeve ring is sleeved on the orientation rod, the shaft is connected with the lower end of the adjusting sleeve, the upper end of the adjusting sleeve is in threaded connection with the telescopic rod, the telescopic rod is fixedly connected with the supporting plate, the orientation rotating shaft can rotate around the orientation rod and is used for adjusting the facing direction of the supporting plate, and the adjusting sleeve can rotate around the axis of the adjusting sleeve and is used for pushing the supporting plate to be tightly pressed against the inclined steel structure.

Further, the bottom of adjusting sleeve is equipped with the afterbody solid fixed ring, the afterbody solid fixed ring is the flange structure that extends to adjusting sleeve inside, the top of directional pivot is equipped with axial and prevents shaking section of thick bamboo and jacking ring, and axial prevents shaking section of thick bamboo and jacking ring are the flange structure that extends to directional pivot outside, and the afterbody solid fixed ring card is gone into in the clearance between axial and is prevented shaking section of thick bamboo and the jacking ring, makes and can rotate relatively between adjusting sleeve and the directional pivot to the joint is fixed.

Further, the axial anti-shaking cylinder is detachably connected with the directional rotating shaft.

Further, four cross-shaped opposite perforations distributed in a cross shape are formed in the horizontal direction of the outer wall of the adjusting sleeve, and the adjusting rod is used for penetrating the adjusting rod into the cross-shaped opposite perforations to drive the adjusting sleeve to rotate.

Further, the branch frames are of a radial structure formed by converging and connecting the three rectangular frames at the root, and the included angle between every two adjacent rectangular frames is 30 degrees.

Further, the central angle corresponding to the arc-shaped long hole on the lower hanging connecting piece is 90 degrees.

Further, anti-slip pads are arranged between the branch frames and the inclined steel structure and between the supporting plates and the inclined steel structure.

With such a design, the utility model has at least the following advantages:

1. the supporting plate can be tightly pressed by screwing the adjusting sleeve, so that the supporting plate is stably fixed on the inclined steel structure in cooperation with the branch frame, and the supporting is firm;

2. the angle of the lower support rod can be conveniently and rapidly adjusted by adjusting the position of the fixed rotation double-position rod, and the lower support rod is adjusted to be horizontal so as to be more beneficial to the suspension support of the lower equipment;

3. the angle of the support plate facing can be adjusted by rotating the directional rotating shaft so as to be suitable for inclined steel structures with different inclination angles;

4. can be used for operating in a narrow space, and has wide application range.

Drawings

The foregoing is merely an overview of the present utility model, and the present utility model is further described in detail below with reference to the accompanying drawings and detailed description.

Fig. 1 is an exploded view of a hanger according to the present utility model.

FIG. 2 is a schematic view of a partial structure of the junction of the adjustment sleeve and the positioning shaft.

Reference numerals illustrate: 1. a branching frame; 2. an anti-slip pad; 3. tilting the steel structure; 4. a support plate; 5. a telescopic rod; 6. an adjustment sleeve; 7. an adjusting rod; 8. a directional rotating shaft; 9. a lower hanging connecting piece; 10. a fixed rotation double-position rod; 11. a first fixing bolt; 12. a directional rod; 13. a second fixing bolt; 14. hanging an extension rod downwards; 15. a lower support rod; 16. cross-paired perforations; 17. a tail fixing ring; 18. an axial anti-shake cylinder; 19. and lifting the ring.

Detailed Description

Referring to fig. 1, the present utility model provides a suspension hanger, which includes a fixing component and an adjusting component. The fixing component is used for being stably connected to the inclined steel structure and comprises a branch frame 1, a supporting plate 4, a telescopic rod 5, an adjusting sleeve 6, an orientation rotating shaft 8 and an orientation rod 12. The adjusting component is used for adjusting the lower hanging angle and supporting the lower hanging label object and comprises a lower hanging connecting piece 9, a fixed rotation double-position rod 10, a lower hanging extension rod 14 and a lower support rod 15.

The branch frame 1 is in a radial structure formed by converging and connecting three rectangular frames at the root, the angle between two adjacent rectangular frames is 30 degrees, and the root of the branch frame 1 is provided with a mounting hole for mounting the directional rod 12.

The supporting plate 4 is of a flat plate-shaped structure, the branch frame 1 is sleeved above the inclined steel structure 3, the supporting plate 4 is abutted to the lower surface of the inclined steel structure 3, the branch frame 1 and the supporting plate 4 are clamped together, and the fixing assembly is fixed on the inclined steel structure.

Preferably, anti-slip pads 2 are arranged between the branch frames 1 and the inclined steel structures 3 and between the supporting plates 4 and the inclined steel structures 3.

The telescopic rod 5 is of a rod-shaped structure and is fixedly connected below the supporting plate 4, and external threads are arranged on the periphery of the telescopic rod 5 and used for being connected with the adjusting sleeve 6.

The inner wall of the adjusting sleeve 6 is provided with internal threads, the upper end of the adjusting sleeve is in threaded connection with the telescopic rod 5, and the lower end of the adjusting sleeve is connected with the directional rotating shaft 8.

The directional rotating shaft 8 is of a structure that a lantern ring is fixedly connected with a shaft, the lantern ring is sleeved on the directional rod 12, and the shaft is connected with the lower end of the adjusting sleeve 6.

The directional rod 12 passes through the mounting hole at the root of the branch frame 1, and the two ends are fixed by the first fixing bolts 11.

The components are connected to form a fixed assembly together to play a role of being connected with the inclined steel structure 3, wherein the directional rotating shaft 8 can rotate around the directional rod 12 and is used for adjusting the direction faced by the supporting plate 4 so as to adapt to the inclined steel structure 3 with different inclination angles, and the adjusting sleeve 6 can rotate around the axis of the adjusting sleeve and is used for pushing the telescopic rod 5 and the supporting plate 4 to press the inclined steel structure 3.

The lower hanging connecting piece 9 is fixedly connected below the lantern ring of the directional rotating shaft 8, the lower hanging connecting piece 9 is connected with the lower supporting rod 15 through the lower hanging extension rod 14, the lower supporting rod 15 is used for hanging and supporting a target object, and the hanging and supporting target object can be a pipeline, equipment, a ceiling lamp, a keel or other facilities according to construction requirements.

The lower hanging connecting piece 9 is fan-shaped, a round hole is formed in the upper portion of the lower hanging connecting piece, and an arc-shaped long hole is formed in the lower portion of the lower hanging connecting piece. The top of the lower hanging extension rod 14 is mounted on the lower hanging connecting piece 9 through two fixed rotation double-position rods 10, and the two fixed rotation double-position rods 10 respectively penetrate into the round hole and the arc-shaped long hole and are mounted and locked through a second fixing bolt 13. The lower part of the lower hanging extension rod 14 is connected with a lower support rod 15, and the angle of the lower support rod 15 in a vertical plane can be adjusted by adjusting the position of the fixed rotation double-position rod 10 during installation.

In this embodiment, the central angle corresponding to the arc-shaped slot hole is 90 °, that is, the adjustable angle of the lower support rod 15 is 90 °, and the lower support rod 15 is adjusted to be horizontal during construction, which is more beneficial to the suspension support of the lower target object.

It should be noted that, in different embodiments, the lower supporting rod 15 adopts different steel forms, such as channel steel, angle steel or other steel forms, and the specific steel form adopted needs to be determined according to the site construction status.

Referring to fig. 2, in a preferred embodiment, the lower end of the adjusting sleeve 6 is connected to the directional rotating shaft 8 in a clamping manner, a tail fixing ring 17 is disposed at the bottom of the adjusting sleeve 6, the tail fixing ring 17 is a flange structure extending toward the inside of the adjusting sleeve 6, an axial anti-shake barrel 18 and a jacking ring 19 are disposed at the top of the directional rotating shaft 8, and the axial anti-shake barrel 18 and the jacking ring 19 are flange structures extending toward the outside of the directional rotating shaft 8. The tail fixing ring 17 is clamped into a gap between the axial anti-shaking barrel 18 and the jacking ring 19, so that the adjusting sleeve 6 and the directional rotating shaft 8 can relatively rotate and are clamped and fixed.

The axial anti-shake barrel 18 is detachably connected with the directional rotating shaft 8, the tail fixing ring 17 of the adjusting sleeve 6 can be abutted against the jacking ring 19 during installation, the axial anti-shake barrel 18 is clamped and fixed from the inside of the adjusting sleeve 6, and the design ensures that only the axial anti-shake barrel 18 rotates relative to the directional rotating shaft 8 without causing axial deviation when the adjusting sleeve 6 is rotated.

Four cross-shaped through holes 16 which are distributed in a cross shape are formed in the horizontal direction of the outer wall of the adjusting sleeve 6, an adjusting rod 7 which can penetrate the cross-shaped through holes 16 is additionally arranged, when the adjusting sleeve 6 needs to be rotated, the adjusting rod 7 penetrates into the cross-shaped through holes 16 to drive the adjusting sleeve 6 to rotate, and the adjusting rod 7 is taken out after adjustment.

The specific steps of the utility model when in use are as follows:

1. sleeving the branch frame 1 on the inclined steel structure 3;

2. the directional rotating shaft 8 is sleeved on the directional rod 12, and the adjusting sleeve 6 and the telescopic rod 5 are connected in sequence;

3. the connecting orientation rod 12, the orientation rotating shaft 8, the adjusting sleeve 6, the telescopic rod 5 and the supporting plate 4 are arranged on the branch frame 1 together, and the two ends of the orientation rod 12 are locked through the first fixing bolt 11;

4. the directional rod 12 is taken as an axis, the directional rotating shaft 8 is rotated, the supporting plate 4 faces the inclined steel structure 3, and the telescopic rod 5 is parallel to the rectangular frame in the middle position of the branch frame 1;

5. inserting the adjusting rod 7 into the cross-shaped perforated holes 16, and rotating the adjusting sleeve 6 until the anti-skid pad 2 is tightly attached to the inclined steel structure 3;

6. the adjusting rod 7 is pulled out;

7. the fixed rotation double-position rod 10 is respectively inserted into a round hole and an arc-shaped long hole of the lower hanging connecting piece 9, and after the lower hanging extension rod 14 is adjusted to be in a vertical state, the fixed rotation double-position rod 10 and the lower hanging extension rod 14 are fixed through a second fixing bolt 13;

8. the lower support rods 15 are connected and the subsequent object hanging is performed.

The utility model has simple structure, is suitable for inclined steel structures with different inclined angles, has adjustable lower hanging angle, is convenient to use, can be used for operating in narrow space, and has wide applicability.

The above description is only of the preferred embodiments of the present utility model, and is not intended to limit the utility model in any way, and some simple modifications, equivalent variations or modifications can be made by those skilled in the art using the teachings disclosed herein, which fall within the scope of the present utility model.

Claims (8)

1. The hanging type hanging bracket is characterized by comprising a fixing component and an adjusting component; the fixing component comprises a branch frame and a supporting plate, the branch frame is sleeved on the inclined steel structure, the supporting plate is abutted to the lower surface of the inclined steel structure, and the branch frame and the supporting plate are clamped and fixed on the inclined steel structure together; the adjusting part sets up in fixed subassembly below, including hanging the connecting piece down, surely change dibit pole, hang extension pole and lower level die-pin down, hang the connecting piece down and be fan-shaped, open on upper portion has the round hole, and open the lower part has the arc slot hole, and two surely change dibit poles pass round hole and arc slot hole respectively, will hang the extension pole down and install on hanging the connecting piece down, hang the extension pole lower extreme down and connect the lower level die-pin, surely change the position that the dibit pole is located the arc slot hole and be used for adjusting the angle of lower level die-pin in vertical plane.

2. The hanging bracket according to claim 1, wherein the fixing assembly further comprises a telescopic rod, an adjusting sleeve, an orientation rotating shaft and an orientation rod, the orientation rod is horizontally installed at the lower end of the branch frame, the orientation rotating shaft is of a structure of a sleeve ring fixedly connected with the shaft, the sleeve ring is sleeved on the orientation rod, the shaft is connected with the lower end of the adjusting sleeve, the upper end of the adjusting sleeve is in threaded connection with the telescopic rod, the telescopic rod is fixedly connected with the supporting plate, the orientation rotating shaft can rotate around the orientation rod for adjusting the facing direction of the supporting plate, and the adjusting sleeve can rotate around the axis of the adjusting sleeve for pushing the supporting plate to press the inclined steel structure.

3. The hanging bracket according to claim 2, wherein the bottom of the adjusting sleeve is provided with a tail fixing ring, the tail fixing ring is of a flange structure extending towards the inside of the adjusting sleeve, the top of the directional rotating shaft is provided with an axial shaking preventing cylinder and a jacking ring, the axial shaking preventing cylinder and the jacking ring are of flange structures extending towards the outside of the directional rotating shaft, and the tail fixing ring is clamped into a gap between the axial shaking preventing cylinder and the jacking ring, so that the adjusting sleeve and the directional rotating shaft can relatively rotate and are clamped and fixed.

4. A hanger according to claim 3, wherein said axial anti-sloshing cylinder is detachably connected to said orientation shaft.

5. The hanging bracket according to claim 2, wherein four cross-shaped through holes distributed in a cross shape are formed in the horizontal direction of the outer wall of the adjusting sleeve, and the adjusting rod is inserted into the cross-shaped through holes to drive the adjusting sleeve to rotate.

6. A hanger according to claim 1 or 2, wherein said branch frames are of a radial configuration in which three rectangular frames meet at a root, the angle between adjacent rectangular frames being 30 °.

7. A hanger according to claim 1 or 2, wherein the arcuate slot in said lower hanger attachment member corresponds to a central angle of 90 °.

8. A suspension hanger according to claim 1 or 2, wherein slip-resistant pads are provided between the branch frame and the inclined steel structure, and between the support plate and the inclined steel structure.

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