CN216843729U - Saddle type support for horizontal equipment - Google Patents

Abstract

The utility model discloses a saddle type support for horizontal equipment, which comprises a saddle main body, an azimuth adjusting component and a fastening component; the direction adjusting assembly comprises a roller fixing structure and a roller assembly; the roller component is connected with the roller fixing structure in a sliding way; the roller fixing structure is fixed on the saddle main body through a fastening assembly; the saddle main body is provided with a reinforcing plate, and the roller assemblies are fixed on two sides of the saddle main body. The utility model discloses adjustable horizontal equipment position on the saddle formula support also can be through the distance between gyro wheel sliding construction adjusting device and the saddle, and more the efficient reaches the installation of accomplishing horizontal equipment.

Description

Saddle type support for horizontal equipment

Technical Field

The utility model relates to a saddle support for horizontal equipment belongs to chemical industry equipment technical field.

Background

The saddle type support is one of the supports commonly used in the chemical field, is widely used for supporting horizontal equipment, and can effectively support the weight of a cylinder body, reduce the axial force, reduce the vibration amplitude of the cylinder body and control the axial maximum displacement of the equipment. The saddle is usually designed based on standard requirements and consists of a saddle plate, two supporting plates, a bottom plate and a reinforcing plate. The backup pad welds between saddle plate and bottom plate, and the reinforcing plate welds in saddle plate one side, and the foundation is arranged in to the bottom plate to fix with rag bolt. When the device is used, the device is lifted by a crane and placed on the saddle, and then the device reaches the set installation position through continuous fine adjustment. The saddle can not realize quick fine adjustment of the position of the equipment.

SUMMERY OF THE UTILITY MODEL

The utility model provides a saddle formula support for horizontal equipment has solved among the prior art technical problem that the saddle can't carry out quick fine setting to the equipment position.

In order to achieve the above purpose, the utility model adopts the technical proposal that: a saddle type support for horizontal equipment comprises a saddle main body, an azimuth adjusting assembly and a fastening assembly; the direction adjusting assembly comprises a roller fixing structure and a roller assembly; the roller component is connected with the roller fixing structure in a sliding way; the roller fixing structure is fixed on the saddle main body through a fastening assembly.

Preferably, the roller fixing structure comprises a mounting bottom plate and a fixing side plate, the mounting bottom plate is connected with the fixing side plate, and the mounting bottom plate is matched with the fastening assembly to fix the roller fixing structure on the saddle main body; the fixed side plate is provided with a guide groove; the roller components are connected with the guide grooves in a sliding mode.

Preferably, the fixed side plate is provided with a hoisting round hole; the mounting base plate is provided with a plurality of slotted holes for adjusting the fixed position of the azimuth adjusting assembly. Therefore, the adjusting device can adapt to the adjustment of the positions of different horizontal equipment on the saddle type support.

Preferably, the roller positioning device further comprises a roller positioning structure, wherein the roller positioning structure is connected with the roller fixing structure in a sliding manner and used for adjusting the position of the roller assembly in the guide groove.

Preferably, the roller fixing structure further comprises a limiting plate; the fixed side plate is positioned between the mounting bottom plate and the limiting plate; the limiting plate is provided with a connecting screw and an adjusting hole; the roller position adjusting structure comprises a pressing plate and a sliding rod in threaded connection with the pressing plate; the pressing plate is provided with a mounting hole, a connecting screw penetrates through the mounting hole and is matched with the nut, and the roller position adjusting structure is arranged on the roller fixing structure; the sliding rod can freely pass through the adjusting hole.

Preferably, the roller assembly comprises a roller, a bearing and a sliding shaft, wherein the bearing is arranged on the sliding shaft in a penetrating way; the roller is provided with a bearing mounting hole; the bearing is positioned in the bearing mounting hole and is in interference fit with the roller; the sliding shaft extends along the axis direction and is in sliding connection with the roller fixing structure; and rotation limiting mechanisms are arranged at two ends of the sliding shaft and used for limiting the rotation between the sliding shaft and the roller fixing structure.

Preferably, a shaft spring retainer ring and a hole spring retainer ring are further arranged between the bearing and the sliding shaft and used for limiting the axial displacement of the bearing on the sliding shaft.

Preferably, the rotation limiting mechanism is of a square configuration. By adopting the square structure, the rotation between the sliding shaft and the guide groove can be limited, and the sliding rod can be prevented from slipping when being contacted with the sliding shaft.

Preferably, a reinforcement plate is provided on the saddle body. The two sides of the saddle main body are respectively connected with an azimuth adjusting component.

The utility model discloses a set up adjustable gyro wheel structure, can roll through the gyro wheel, rotate and arrange the cylindrical equipment on the saddle in to accomplish the fine setting in equipment position fast. The utility model discloses a gyro wheel position control structure can adjust the distance between cylindrical equipment and the saddle on the saddle.

Drawings

Fig. 1 is a schematic structural diagram of a saddle-type support for horizontal equipment according to the present invention;

FIG. 2 is a schematic structural view of the middle position adjusting assembly of the present invention;

FIG. 3 is a schematic view of the roller fixing structure of the present invention;

FIG. 4 is a schematic structural diagram of the roller assembly of the present invention;

fig. 5 is a schematic view of the middle roller position adjusting structure of the present invention.

Wherein: 1-saddle body, 2-orientation adjusting component, 21-roller fixing structure, 211-mounting bottom plate, 212-fixing side plate, 213-limiting plate, 2131-adjusting hole, 214-connecting screw rod, 215-partition plate, 22-roller component, 221-roller, 222-bearing, 223-sliding shaft, 224-shaft spring retainer ring, 225-hole spring retainer ring, 23-roller position adjusting structure, 231-sliding rod, 232-pressing plate, 24-nut, 3-fastening component and 4-reinforcing plate.

Detailed Description

For a better understanding of the nature of the present invention, its further description is provided below with reference to the following detailed description and the accompanying drawings.

The utility model is suitable for a horizontal equipment in chemical industry field, concretely relates to saddle formula support for horizontal equipment, as shown in fig. 1, fig. 2, including saddle main part 1, position adjusting component 2 and fastening components 3, position adjusting component 2 is fixed in saddle main part 1 both sides through fastening components 3. The fastening member 3 may employ a bolt and a nut. The two sides of the saddle main body 1 are in an outward inclined state, an angle alpha is formed between the saddle main body 1 and the ground, and the angle alpha is 60-80 degrees. The saddle body 1 is provided with a plurality of reinforcement plates 4. The orientation adjustment assembly 2 includes a roller fixing structure 21, a roller assembly 22, and a roller position adjustment structure 23.

As shown in fig. 3, the roller fixing structure 21 includes a mounting bottom plate 211, a fixing side plate 212, a stopper plate 213, a coupling screw 214, and a partition plate 215. Two fixed side plates 212 are arranged between the mounting bottom plate 211 and the limiting plate 213, and a partition plate 215 is arranged between the two fixed side plates 212. The mounting base plate 211 is provided with a plurality of slotted holes, which is convenient for adjusting the fixed position of the azimuth adjusting assembly 2. The fixed side plate 212 is provided with a guide groove 216. The connecting screw 214 is located on the limiting plate 213, and the limiting plate 213 is provided with an adjusting hole 2131. The components of the roller fixing structure 21 may be combined into a single body by welding. The fixed side plate 212 is also provided with a hoisting round hole.

As shown in fig. 4, the roller assembly 22 is located between the two fixed side plates 212, and includes a roller 221, a bearing 222, and a sliding shaft 223. The roller 221 is provided with a bearing mounting hole. The bearing 222 is positioned in the bearing mounting hole and is in interference fit with the roller 221; a hole spring retainer 225 is fitted into the roller 221, and a shaft spring retainer 224 is fitted into the slide shaft 223. The bearing 222, the shaft circlip 224 and the bore circlip 225 are all standard parts. The bearing 222 is inserted into the slide shaft 223, and axial displacement of the bearing 222 on the slide shaft 223 is restricted by a shaft spring retainer 224 and a hole spring retainer 225. The sliding shaft 223 is provided with a boss structure for mounting the bearing 222. The sliding shaft 223 extends along the axial direction and is connected with the guide groove 216, and rotation limiting mechanisms are arranged at two ends of the sliding shaft 223 and used for limiting the rotation between the sliding shaft 223 and the guide groove 216 and preventing the sliding rod 231 from slipping when in contact with the sliding shaft 223. The rotation restricting mechanisms at both ends of the sliding shaft 223 may be provided in a square structure.

As shown in fig. 5, the roller position adjusting structure 23 includes a pressing plate 232, and a sliding rod 231 threadedly coupled to the pressing plate 232. The sliding rods 231 are located at both sides of the connecting screw 214. The pressing plate 232 is provided with a mounting hole, and the connecting screw 214 passes through the mounting hole and is matched with the nut 24 to install the roller position adjusting structure 23 on the roller fixing structure 21. The sliding rod 231 passes through the adjusting hole 2131 of the limiting plate 213, and the aperture of the adjusting hole 2131 is matched with that of the sliding rod 231, so that the sliding rod 231 can freely pass through the adjusting hole 2131. The connection position of the sliding rod 231 and the pressing plate 232 is provided with a hexagonal structure, so that a fixed wrench can be conveniently used for installation.

The utility model discloses a theory of operation: by rotating the nut 24, the position of the pressing plate 232 is changed, so that the position of the sliding rod 231 is adjusted to be in contact with the sliding shaft 223 and the sliding shaft 223 is pushed to move along the guide groove 216, thereby adjusting the position of the roller 22. The horizontal equipment is placed on the saddle body 1 using a crane so that the rollers 22 come into contact with the horizontal equipment. The nut 24 is turned again to move the apparatus as the position of the roller 22 changes, thereby adjusting the position of the horizontal apparatus on the saddle. The distance between the equipment and the saddle can be adjusted through the roller sliding structure, and the installation target can be achieved more efficiently.

It should be noted that, although the present invention has been described by the above embodiments, the present invention may have other various embodiments. Various modifications and changes may be made by those skilled in the art without departing from the spirit and scope of the invention, and it is intended that all such modifications and changes fall within the scope of the appended claims and their equivalents.

Claims (10)

1. A saddle support for horizontal equipment which characterized in that: comprises a saddle main body (1), an orientation adjusting component (2) and a fastening component (3); the orientation adjusting assembly (2) comprises a roller fixing structure (21) and a roller assembly (22); the roller assembly (22) is connected with the roller fixing structure (21) in a sliding manner; the roller fixing structure (21) is fixed on the saddle main body (1) through a fastening component (3).

2. The saddle support for horizontal equipment according to claim 1, wherein: the roller fixing structure (21) comprises a mounting bottom plate (211), a fixing side plate (212) is arranged on the mounting bottom plate (211), and the mounting bottom plate (211) is matched with the fastening assembly (3) to fix the roller fixing structure (21) on the saddle main body (1); a guide groove (216) is formed in the fixed side plate (212); the roller assembly (22) is slidably connected with the guide groove (216).

3. The saddle support for horizontal equipment according to claim 2, wherein: the fixed side plate (212) is provided with a hoisting round hole; the mounting base plate (211) is provided with a plurality of slotted holes for adjusting the fixing position of the roller fixing structure (21).

4. The saddle support for horizontal equipment according to claim 2, wherein: the roller fixing structure is characterized by further comprising a roller position adjusting structure (23), wherein the roller position adjusting structure (23) is connected with the roller fixing structure (21) in a sliding mode and used for adjusting the position of the roller assembly (22) on the guide groove (216).

5. The saddle support for horizontal equipment according to claim 4, wherein: the roller fixing structure (21) further comprises a limiting plate (213); the fixed side plate (212) is positioned between the installation bottom plate (211) and the limiting plate (213); the limiting plate (213) is provided with a connecting screw rod (214) and an adjusting hole (2131); the roller position adjusting structure (23) comprises a pressing plate (232) and a sliding rod (231) in threaded connection with the pressing plate (232); the pressing plate (232) is provided with a mounting hole, a connecting screw rod (214) penetrates through the mounting hole and is matched with the nut (24), and the roller position adjusting structure (23) is arranged on the roller fixing structure (21); the sliding rod (231) can freely pass through the adjusting hole (2131) to be in contact with the roller assembly (22).

6. The saddle support for horizontal equipment according to claim 5, wherein: the sliding rods (231) are positioned at both sides of the connecting screw rod (214).

7. The saddle support for horizontal equipment according to claim 1, wherein: the roller assembly (22) comprises a roller (221), a bearing (222) and a sliding shaft (223), wherein the bearing (222) is arranged on the sliding shaft (223) in a penetrating manner; the roller (221) is provided with a bearing mounting hole; the bearing (222) is positioned in the bearing mounting hole and is in interference fit with the roller (221); the sliding shaft (223) extends along the axis direction and is connected with the roller fixing structure (21) in a sliding manner; and rotation limiting mechanisms are arranged at two ends of the sliding shaft (223) and used for limiting the rotation between the sliding shaft (223) and the roller fixing structure (21).

8. The saddle support for horizontal equipment according to claim 7, wherein: a shaft spring retainer ring (224) and a hole spring retainer ring (225) are further arranged between the bearing (222) and the sliding shaft (223) and are used for limiting the axial displacement of the bearing (222) on the sliding shaft (223).

9. The saddle support for horizontal equipment according to claim 7, wherein: the rotation limiting mechanism is of a square structure.

10. The saddle support for horizontal equipment according to claim 1, wherein: two sides of the saddle main body (1) are respectively connected with an azimuth adjusting assembly (2); the saddle body (1) is provided with a reinforcing plate (4).

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