CN219297046U - Auxiliary installation mechanism for equipment in machine room - Google Patents

Abstract

The utility model discloses an auxiliary installation mechanism of machine room equipment. In the auxiliary installation mechanism of the machine room equipment, the frame is of a rectangular annular structure and is provided with a horizontal installation surface, and the frame can be disassembled on the plane where the installation surface is located. The supporting seat is vertically connected to the mounting surface of the frame, the height of the supporting seat can be adjusted, and the supporting seat is separated along with the disassembly of the frame and is provided with a supporting space for supporting the equipment in the machine room upwards. The rollers are distributed on the near ground on the frame. The stop mechanism is connected with the frame or the roller and is used for limiting the movement of the frame. And (5) transporting the equipment in the machine room to the upper part of the foundation through the rollers. After the equipment in the machine room is aligned with the foundation, the supporting seat is adjusted to be lowered, and the equipment in the machine room is supported by the sizing block of the foundation. And the frame is disassembled along the mounting surface, the supporting seat is separated along with the frame, and the whole auxiliary mounting mechanism of the equipment in the machine room realizes evacuation, so that the equipment is mounted in place. The auxiliary installation mechanism of the machine room equipment is simple in structure, simple in operation of an in-place adjustment mode and high in equipment installation efficiency.

Description

Auxiliary installation mechanism for equipment in machine room

Technical Field

The utility model relates to the field of auxiliary installation of equipment in a machine room, in particular to an auxiliary installation mechanism of equipment in the machine room.

Background

The equipment in the common machine room is horizontally hauled to a foundation accessory by adopting a rolling rod or a conveyer, and then the equipment is jacked up by using equipment such as a crane, a jack and the like and then is positioned on the foundation for positioning. Or the crane and the electric hoist are used for directly lifting the equipment and then the equipment is positioned on the foundation. The positioning adjustment mode is complex in operation and low in equipment installation efficiency.

Disclosure of Invention

Based on the above, it is necessary to provide an auxiliary installation mechanism for equipment in a machine room, so as to solve the problems of complex operation and low installation efficiency of the equipment in the existing in-place adjustment mode.

An auxiliary installation mechanism for equipment in a machine room, comprising:

the frame is of a rectangular annular structure and is provided with a horizontal installation surface, and the frame can be disassembled on the plane where the installation surface is located.

The supporting seat is vertically connected to the mounting surface of the frame, can be adjusted in height on the mounting surface and is separated along with the disassembly of the frame, and the supporting seat is provided with a supporting space for supporting the equipment in the machine room upwards.

The rollers are distributed on the near ground surface of the frame, and the near ground surface is opposite to the mounting surface.

And the stop mechanism is connected with the frame or the roller and used for limiting the movement of the frame.

Optionally, the supporting seat comprises four supporting seats, and the four supporting seats are arranged at intervals and distributed at four corners of the installation surface. The space surrounded by the four supports forms a supporting space for supporting equipment in the machine room.

The support is movably connected relative to the height direction of the mounting surface.

Optionally, the frame has screws vertically distributed at four corners of the mounting surface.

The support comprises angle steel, a supporting piece, a flat plate and a nut. The angle steel is arranged along the vertical direction of the installation surface. The supporting piece is located the angle steel one end that is close to the gyro wheel to be located the space that the angle steel surrounds. The flat plate is positioned at one end of the angle steel, which is far away from the roller, and is positioned outside the space surrounded by the angle steel. The plate has a through hole for mating with the screw. The nut is mounted on the screw and supports the flat plate.

Alternatively, the number of screws at each corner of the mounting surface is two. And the two screws of each angle are correspondingly arranged in parallel with the two steel sheets of the angle steel.

The number of the through holes of the flat plate is two, and the through holes are arranged corresponding to the positions of the two screws.

Optionally, the positions of the two steel sheets of the angle steel close to the supporting sheet are respectively provided with a threaded hole, and the support also comprises a jacking screw arranged in the threaded hole.

Optionally, the number of the flat plates on any support is two, and the two flat plates are distributed at intervals along the extending direction of the angle steel.

Optionally, the frame comprises a first section and a second section which are detachably connected. The first and second sections are symmetrically disposed along a centerline of the frame in a length or width direction. The support is arranged at the corner of the first subsection and the corner of the second subsection respectively.

Optionally, the first and second sections are connected by a flange.

Optionally, the stop mechanism is a supporting leg, and the supporting leg is arranged one to one with the gyro wheel, connects in the side of gyro wheel.

Alternatively, the number of the rollers is four and the rollers are dispersed at four corners of the frame.

Above-mentioned computer lab equipment auxiliary installation mechanism, in the supporting space of supporting seat was shelved to the computer lab equipment, through the gyro wheel with the transportation of computer lab equipment to basic top. After the equipment in the machine room is aligned with the foundation, the supporting seat is adjusted to be lowered, and the equipment in the machine room is supported by the sizing block of the foundation. And the frame is disassembled along the mounting surface, the supporting seat is separated along with the frame, and the whole auxiliary mounting mechanism of the equipment in the machine room realizes evacuation, so that the equipment is mounted in place. The auxiliary installation mechanism of the machine room equipment is simple in structure, simple in operation of an in-place adjustment mode and high in equipment installation efficiency.

Drawings

Features, advantages, and technical effects of exemplary embodiments of the present application will be described below with reference to the accompanying drawings.

Fig. 1 is a schematic diagram of an auxiliary installation mechanism of a machine room device in an embodiment of the present application;

fig. 2 is a schematic diagram of cooperation between an auxiliary installation mechanism of a machine room device and the machine room device in the embodiment of the present application;

FIG. 3 is a schematic structural view of a frame according to an embodiment of the present application;

FIG. 4 is a schematic view of another view of a frame according to an embodiment of the present application;

FIG. 5 is a schematic view of the structure of a support according to an embodiment of the present application;

fig. 6 is a schematic view of another view angle structure of the stand according to the embodiment of the present application.

10. A machine room device;

100. a frame; 200. a support base; 300. a roller; 400. a stop mechanism;

210. a support; 211. angle steel; 212. a support sheet; 213. a flat plate; 214. tightly pushing the screw; 215. a via hole; 216. a threaded hole;

110. a screw; 120. a first subsection; 130. a second subsection; 140. and (3) a flange.

Detailed Description

In order that the above objects, features and advantages of the utility model will be readily understood, a more particular description of the utility model will be rendered by reference to the appended drawings. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present utility model. The utility model may be embodied in many other forms than described herein and similarly modified by those skilled in the art without departing from the spirit or scope of the utility model, which is therefore not limited to the specific embodiments disclosed below.

The embodiment of the application provides an auxiliary installation mechanism for equipment in a machine room, referring to fig. 1 and 2, which comprises a frame 100, a supporting seat 200, a plurality of rollers 300 and a stop mechanism 400. The frame 100 is a rectangular ring-shaped structure. Since the machine room apparatus 10 is mostly of a rectangular structure, the frame 100 is correspondingly provided as a rectangular ring-shaped structure, and the ring shape of the rectangular ring-shaped structure can accommodate the machine room apparatus 10. The frame 100 has a horizontal mounting surface, i.e., a rectangular ring-shaped upper surface, for providing a mounting space for other structures.

The frame 100 is detachable from the plane of the mounting surface. Referring to fig. 3, the frame 100 includes a plurality of sections, including, for example, two, 3, 4 sections, each of which is removably attached to each other by fasteners, such as attachment bolts on the flanges 140 of the sections. When the fastener is removed or loosened, each section can be separated and removed from the mounting surface, such as by movement in opposite directions.

The support base 200 is vertically coupled to the mounting surface of the frame 100, and the height of the mounting surface can be adjusted. The support base 200 may be vertically lifted relative to the mounting surface, for example, by a screw rod connected to the frame 100, and for example, by a screw rod 110 connected to the frame 100.

The support base 200 may be separated with the frame 100 disassembled, and the support base 200 may be a complete frame-shaped structure, such as a structure similar to the frame 100, which may be separated and disassembled in a plane parallel to the mounting surface.

Also, for example, the support base 200 may be a discontinuous structure formed by a plurality of separate components (e.g., the support base 210) disposed at intervals. The separate parts are provided on the sections of the frame 100, respectively. When the frame 100 is disassembled, the separate components are separated accordingly.

The support base 200 has a support space that supports the machine room equipment 10 upward. The supporting space is located in the ring shape of the rectangular ring-shaped structure. The supporting space supports the machine room equipment 10 from the bottom. When the supporting base 200 is separated with the frame 100 disassembled, the supporting space also disappears, thereby being separated from the machine room apparatus 10.

The plurality of rollers 300 are distributed on a near-ground surface of the frame 100, and the near-ground surface is opposite to the mounting surface. The roller 300 is disposed at the bottom surface of the frame 100, which is closer to the base than the bottom surface of the support body, i.e., below the support base 200. So that the roller 300 contacts the ground and the supporting seat 200 is isolated from the ground. The friction force of the roller 300 contacting the ground is relatively small, so that the device is labor-saving when moving.

The stopper mechanism 400 is coupled to the frame 100 or the roller 300 for restricting the movement of the frame 100. The stop mechanism 400 may be a rod structure that may have both a stowed and an operative condition.

When the machine room equipment auxiliary installation mechanism needs to be moved, such as during the process of moving the machine room equipment 10 to the foundation, the stopper mechanism 400 is in a storage state.

When the auxiliary installation mechanism of the machine room equipment needs to be stationary, see fig. 1 and 2, for example, when the machine room equipment 10 is placed on the supporting base 200 or when the machine room equipment 10 is placed on the foundation, the stop mechanism 400 is in an operating state. The stop mechanism 400 limits the roller 300 from rolling, e.g., extending into the ground, or locks the shaft of the roller 300 from rotating.

In the auxiliary installation mechanism for the machine room equipment, the machine room equipment 10 is placed in the supporting space of the supporting seat 200, and the machine room equipment 10 is transported to the upper part of the foundation through the roller 300. After the machine room apparatus 10 is aligned with the foundation, the adjustment support base 200 is lowered, supporting the machine room apparatus 10 by the sizing block of the foundation. The frame 100 is detached along the installation surface, the supporting seat 200 is separated along with the detachment, and the whole auxiliary installation mechanism of the equipment in the machine room realizes evacuation, so that the equipment is installed in place. The auxiliary installation mechanism of the machine room equipment is simple in structure, simple in operation of an in-place adjustment mode and high in equipment installation efficiency.

Alternatively, referring to fig. 4, the support base 200 includes four support seats 210, and the four support seats 210 are spaced apart and distributed at four corners of the mounting surface. The space surrounded by the four standoffs 210 forms a supporting space for supporting the machine room equipment 10. The stand 210 is movably coupled with respect to the height direction of the mounting surface. Four standoffs 210 are positioned opposite each other, each standoff 210 supporting one corner of the machine room equipment 10. The supporting seat 200 formed by the four supporting seats 210 has a simple structure, saves a large amount of materials and reduces the cost. And can be separated by following the disassembly of the frame 100, thereby being more convenient to operate.

Alternatively, referring to fig. 4, 5 and 6, the frame 100 has screws 110 vertically distributed at four corners of the mounting surface. The support 210 includes angle steel 211, a support piece 212, a flat plate 213, and nuts. The angle 211 is disposed along the vertical direction of the mounting surface. The support piece 212 is located at one end of the angle 211 near the roller 300 and is located in the space surrounded by the angle 211. The support piece 212 is horizontally disposed in parallel with the mounting surface, and supports one corner of the machine room apparatus 10.

The angle 211 is formed by fixedly connecting two perpendicular steel sheets. The flat plate 213 is located at an end of the angle 211 away from the roller 300 and is located outside the space surrounded by the angle 211. The plate 213 has a through hole 215 that mates with the screw 110. The nut is mounted on the screw 110 and supports the flat plate 213. When the nut is screwed, the nut is lifted up and down on the screw 110, and the flat plate 213 is lifted up and down accordingly, thereby adjusting the height of the support 210 to adjust the height of the machine room equipment 10.

Alternatively, referring to fig. 4, 5 and 6, the number of screws 110 at each corner of the mounting surface is two. And the two screws 110 at each angle are correspondingly arranged in parallel with the two steel sheets of the angle steel 211. The number of the through holes 215 of the flat plate 213 is two, and the through holes are arranged corresponding to the positions of the two screws 110. The support base 200 in this manner is more stressed and thus more robust. Moreover, the height positions of the two nuts can be adjusted, so that the levelness of the machine room equipment 10 can be better adjusted.

Alternatively, referring to fig. 4, 5 and 6, the two steel plates of the angle 211 have threaded holes 216 near the supporting plate 212, respectively, and the support 210 further includes a tightening screw 214 disposed in the threaded holes 216. The two tightening screws 214 fine-tune the position of the machine room apparatus 10 in the length and width directions, respectively, so that the machine room apparatus 10 can be aligned with the foundation better.

Alternatively, referring to fig. 4, 5 and 6, the number of the flat plates 213 on any one of the holders 210 is two, and the two flat plates 213 are spaced apart along the extending direction of the angle 211. In this way, the support base 200 can be lowered twice, the first adjusting support base 200 is lowered, and then the adjustable support base 200 is lowered again after the machine room equipment 10 is aligned with the foundation by adjusting the tightening screw 214, so that the machine room equipment 10 is supported by the sizing block of the foundation.

Alternatively, referring to fig. 1 and 2, the frame 100 includes a first section 120 and a second section 130 that are detachably connected. The first and second sections 120 and 130 are symmetrically disposed along a center line of the frame 100 in a length direction or a width direction. The stand-offs 210 are disposed at the corners of the first and second sections 120, 130, respectively. The frame 100 of this type is more convenient to disassemble.

Alternatively, referring to fig. 1 and 2, the first section 120 and the second section 130 are connected by a flange 140. The frame 100 in this manner is securely attached and is more easily disassembled.

Alternatively, referring to fig. 1 and 2, the stopper mechanism 400 is a leg, which is provided in one-to-one correspondence with the roller 300, and is connected to the side of the roller 300. The legs can be stored upwards and supported downwards when needed, and the roller 300 can be well guaranteed to be stationary in this way.

Alternatively, the number of the rollers 300 is four, and is dispersed at four corners of the frame 100. This approach may ensure that the frame 100 is uniformly stressed.

The foregoing examples illustrate only a few embodiments of the utility model and are described in detail herein without thereby limiting the scope of the utility model. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the utility model, which are all within the scope of the utility model. Accordingly, the scope of protection of the present utility model is to be determined by the appended claims.

Claims (10)

1. The utility model provides a computer lab equipment auxiliary installation mechanism which characterized in that includes:

the frame is of a rectangular annular structure and is provided with a horizontal installation surface, and the frame can be disassembled on the plane where the installation surface is located;

the supporting seat is vertically connected to the mounting surface of the frame, the height of the supporting seat can be adjusted, and the supporting seat is separated along with the disassembly of the frame, and is provided with a supporting space for supporting the machine room equipment upwards;

the rollers are distributed on the near ground surface of the frame, and the near ground surface and the mounting surface are oppositely provided with the rollers;

and the stop mechanism is connected with the frame or the roller and used for limiting the movement of the frame.

2. The auxiliary installation mechanism of the machine room equipment according to claim 1, wherein the supporting seat comprises four supporting seats, and the four supporting seats are arranged at intervals and distributed at four corners of the installation surface; the space surrounded by the four supports forms a supporting space for supporting the equipment in the machine room;

the support is movably connected relative to the height direction of the mounting surface.

3. The machine room equipment auxiliary installation mechanism according to claim 2, wherein the frame has screws vertically distributed at four corners of the installation surface;

the support comprises angle steel, a supporting piece, a flat plate and a nut; the angle steel is arranged along the vertical direction of the mounting surface; the supporting piece is positioned at one end of the angle steel, which is close to the roller, and is positioned in a space surrounded by the angle steel; the flat plate is positioned at one end of the angle steel, which is far away from the roller, and is positioned outside a space surrounded by the angle steel; the flat plate is provided with a through hole matched with the screw rod; the nut is mounted on the screw and supports the flat plate.

4. The auxiliary installation mechanism of machine room equipment according to claim 3, wherein the number of screws at each corner of the installation surface is two; the two screws of each angle are correspondingly arranged in parallel with the two steel sheets of the angle steel;

the number of the through holes of the flat plate is two, and the through holes are arranged corresponding to the positions of the two screws.

5. The auxiliary installation mechanism for machine room equipment according to claim 4, wherein the two steel sheets of the angle steel are respectively provided with a threaded hole at a position close to the supporting sheet, and the support further comprises a jacking screw arranged in the threaded hole.

6. The auxiliary installation mechanism of machine room equipment according to claim 5, wherein the number of the flat plates on any one of the supports is two, and the two flat plates are distributed at intervals along the extending direction of the angle steel.

7. The machine room equipment accessory mounting mechanism of claim 4, wherein the frame comprises first and second sections that are detachably connected; the first subsection and the second subsection are symmetrically arranged along a central line of the frame in the length direction or the width direction; the support is arranged at the corner of the first subsection and the corner of the second subsection respectively.

8. The machine room equipment accessory mounting mechanism of claim 7, wherein the first section and the second section are connected by a flange.

9. The auxiliary installation mechanism for machine room equipment according to any one of claims 1 to 8, wherein the stopper mechanism is a leg, and the leg is disposed one-to-one with the roller and is connected to a side of the roller.

10. The auxiliary installation mechanism for machine room equipment according to claim 9, wherein the number of the rollers is four, and the rollers are dispersed at four corners of the frame.

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