CN214037630U

CN214037630U - Vertical adjustment mechanism of computer lab equipment rack integrates

Info

Publication number: CN214037630U
Application number: CN202022513631.7U
Authority: CN
Inventors: 刘波; 费瑜霖; 解伟; 刘建辉; 王颖; 陈超; 陈清平; 江德伟
Original assignee: Sichuan Anneng Energy Technology Co ltd; Mianyang Branch Of China Mobile Sichuan Co ltd
Current assignee: Sichuan Anneng Energy Technology Co ltd; Mianyang Branch Of China Mobile Sichuan Co ltd
Priority date: 2020-11-04
Filing date: 2020-11-04
Publication date: 2021-08-24
Anticipated expiration: 2030-11-04

Abstract

The utility model discloses a vertical adjusting mechanism of an integrated machine room equipment frame, which is arranged vertically and integrally, comprises an adjusting seat and is arranged on a stand in a detachable way, in order to overcome the problem that the original machine room can not adapt to the installation requirement due to the size change of the equipment in the height direction of the existing machine room; the adjusting assembly is longitudinally arranged on the surface of one side of the adjusting seat, which is far away from the upright post; and the sliding assembly is arranged on the adjusting assembly in a sliding manner and is used for being connected with the equipment frame. The utility model provides a computer lab equipment rack vertical adjustment mechanism integrates can carry out position coarse adjusting and fine setting, only needs to be the adaptability adjustment at former computer lab structural, need not to increase manufacturing cost by a wide margin, increases the application scope who improves the computer lab simultaneously, improves customer's satisfaction.

Description

Vertical adjustment mechanism of computer lab equipment rack integrates

Technical Field

The utility model relates to a computer lab especially relates to a computer lab equipment rack vertical adjustment mechanism integrates.

Background

In the prior art, the installation positions of all devices in a machine room are mostly not adjustable, but the sizes and dimensions of all devices in practical application are not determined, so that the machine room matched with the devices with different sizes needs to be designed separately. The disadvantage of this type of machine room is that if a user needs to install both standard equipment and non-standard equipment, two or more machine rooms with different volumes must be designed according to the equipment structure. Because the machine room can not be compatible with various built-in devices with different sizes, not only the production cost of a company is increased, but also the financial resources are wasted, and the devices with uncertain sizes can not be installed partially, so that the satisfaction degree of a user is reduced.

SUMMERY OF THE UTILITY MODEL

The utility model discloses an overcome the problem that the dimensional change of equipment direction of height causes original computer lab unable adaptation installation demand in current computer lab, provide one kind and integrate computer lab equipment frame longitudinal adjustment mechanism, can carry out position coarse adjusting and fine setting, only need be structural adaptability adjustment of being of former computer lab, need not to increase manufacturing cost by a wide margin, increase the application scope who improves the computer lab simultaneously, improve customer's satisfaction.

The utility model adopts the technical proposal that:

a longitudinal adjusting mechanism of an integrated machine room equipment frame is longitudinally arranged integrally and comprises

The adjusting seat is detachably arranged on the upright post;

the adjusting assembly is longitudinally arranged on the surface of one side of the adjusting seat, which is far away from the upright post; and

and the sliding assembly is arranged on the adjusting assembly in a sliding manner and is used for being connected with the equipment rack.

Furthermore, the longitudinal two sides of the adjusting seat are respectively and vertically provided with a support lug, and the adjusting component is arranged between the two support lugs.

Furthermore, one surface of the adjusting seat facing the stand column is provided with an insert, a notch is formed in the free end of the insert, and the part of the insert at the notch can be turned and deformed and is attached to the surface of the stand column.

Furthermore, through threaded holes are formed in two longitudinal sides of the adjusting seat, matched locking screws are arranged, and one end of each locking screw abuts against the upright column to lock the position of the adjusting seat when the locking screws are rotated.

Furthermore, when the plug-in components at the gaps can be overturned and deformed, the plug-in components can be overturned up and down alternately.

Further, the adjusting assembly comprises

The first threaded rod is longitudinally arranged on the surface of one side of the adjusting seat, which is far away from the upright post, along the upright post;

a second threaded rod arranged in parallel with the first threaded rod;

the first nut is rotatably sleeved on the first threaded rod;

the second nut is rotatably sleeved on the first threaded rod;

the fourth nut is rotatably sleeved on the second threaded rod; and

the fifth nut is screwed on the second threaded rod;

the sliding assembly is installed on the first threaded rod and the second threaded rod and is located between the first threaded rod and the second threaded rod and between the fourth nut and the fifth nut.

Further, the sliding assembly comprises

The sliding blocks are arranged on the first threaded rod and the second threaded rod and are positioned between the first threaded rod and the second threaded rod and between the fourth nut and the fifth nut; one surface of the sliding block facing the adjusting seat is in sliding contact with the surface of the adjusting seat; and

the connecting plate is installed the sliding block is kept away from the other side of adjusting the seat.

Further, the adjusting component also comprises

The third nut is rotatably sleeved on the first threaded rod and props against one surface, far away from the adjusting component, of the second nut; and

and the sixth nut is rotatably sleeved on the first threaded rod and props against one surface of the fifth nut, which is far away from the adjusting component.

Furthermore, the connecting plate is provided with a mounting hole for connecting with an equipment rack.

The utility model has the advantages that:

the dimensional change of equipment direction of height in the computer lab for solving among the prior art causes the problem that original computer lab can't adapt to the installation demand, the utility model provides an integrate vertical adjustment mechanism of computer lab equipment rack. The longitudinal adjusting mechanism is integrally and detachably arranged on the upright post of the machine room framework, and the equipment frame is connected with the longitudinal adjusting mechanism. The position of the longitudinal adjusting mechanism is determined, the distance between two adjacent equipment frames or between the equipment frames and the top surface of the machine room framework is roughly adjusted, then the longitudinal adjusting mechanism is manually adjusted, so that the equipment frames can move along the vertical direction of the upright post, namely the height direction of the upright post, the distance between two adjacent equipment frames or between the equipment frames and the top surface of the machine room framework is finely adjusted, and the installation requirements of equipment with different heights are met. Adopt the utility model provides a vertical adjustment mechanism of computer lab equipment rack integrates only needs to be the adaptability adjustment at former computer lab structural, need not to increase manufacturing cost by a wide margin, increases the application scope who improves the computer lab simultaneously, improves customer's satisfaction.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present application, and other drawings can be obtained by those skilled in the art without creative efforts.

Fig. 1 is a schematic structural diagram of a longitudinal adjusting mechanism of an integrated machine room equipment rack in the embodiment.

Fig. 2 is a schematic structural diagram of a longitudinal adjusting mechanism of an integrated machine room equipment rack in the embodiment.

Fig. 3 is a schematic structural diagram of a longitudinal adjusting mechanism of an integrated machine room equipment rack in the embodiment.

Fig. 4 is a schematic view showing a first use state of the integrated machine room equipment rack longitudinal adjusting mechanism in the embodiment.

Fig. 5 is a schematic view illustrating a use state of the vertical adjustment mechanism of the integrated equipment room rack in the embodiment.

Detailed Description

In the following, only certain exemplary embodiments are briefly described. As those skilled in the art will recognize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the present invention. Accordingly, the drawings and description are to be regarded as illustrative in nature, and not as restrictive.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential", and the like, indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

The following disclosure provides many different embodiments or examples for implementing different features of the invention. In order to simplify the disclosure of the present invention, the components and arrangements of specific examples are described below. Of course, they are merely examples and are not intended to limit the present invention.

Embodiments of the present invention/utility model will be described in detail below with reference to the drawings.

For the defect that the equipment fixing position is not adjustable in the computer lab among the solution prior art, especially the dimensional change of equipment direction causes the unable problem that adapts to the installation demand of original computer lab, provided a vertical adjustment mechanism of computer lab equipment rack integrates in this embodiment, its structural drawing 1~5 shows. The longitudinal adjusting mechanism is integrally and detachably arranged on a stand column 1 'of the machine room framework, and an equipment frame 2' is connected with the longitudinal adjusting mechanism. The position of a longitudinal adjusting mechanism is determined, the distance between two adjacent equipment frames 2 ' or between the equipment frame 2 ' and the top surface of the machine room framework is roughly adjusted, then the longitudinal adjusting mechanism is manually adjusted, so that the equipment frames 2 ' can longitudinally move along the upright column 1 ', namely in the height direction of the upright column 1 ', the distance between two adjacent equipment frames 2 ' or between the equipment frame 2 ' and the top surface of the machine room framework is finely adjusted, and the installation requirements of equipment with different heights are met. Adopt the vertical adjustment mechanism of the computer lab equipment rack that integrates in this embodiment, only need do the adaptability adjustment on former computer lab structure, need not to increase manufacturing cost by a wide margin, increase the application scope who improves the computer lab simultaneously, improve customer's satisfaction.

Specifically, the longitudinal adjusting mechanism comprises an adjusting seat 1, an adjusting assembly 2 and a sliding assembly 3.

The adjusting seat 1 is rectangular plate-shaped, is attached to the surface of the upright post 1 'and is detachably connected with the upright post 1'. The longitudinal two sides of the surface of one side of the adjusting seat 1 far away from the upright post 1 ', namely two sides along the height direction of the upright post 1' are respectively provided with a support lug 11. The two support lugs 11 are parallel, and one end of each support lug is vertically connected with the surface of the adjusting seat 1.

In this embodiment, in order to detachably connect the adjusting base 1 and the upright 1 ', a plurality of plug-in units 12 are disposed on a surface of the adjusting base 1 facing the upright 1'. In this example, the inserts 12 are arranged in three, equally spaced, positions. The plug-in 12 is parallel to the support lug 11, and one end of the plug-in is vertically connected with the adjusting seat 1. The free end of the plug-in 12, namely the end opposite to the end connected with the adjusting seat 1, penetrates through the upright post 1' and is provided with a gap 121. A gap 121 extends from the free end to near the surface of the stud 1'. The insert 12 at the notch 121 can be partially turned and deformed by external force and attached to the surface of the upright post 1 ', so that the adjusting seat 1 is clamped on the upright post 1'. When the device is bent, the device can be bent alternately up and down, namely, a part of the device is bent upwards and a part of the device is bent downwards, so that the mounting stability is improved.

In this embodiment, in order to further improve the stability of the adjusting base 1 and the upright post 1', the adjusting base 1 adjacent to the support lug 11 is provided with a through threaded hole 13 and a matched locking screw 14. The locking screw 14 is rotated, and one end of the locking screw abuts against the upright post 1 ', so that the positions of the adjusting seat 1 and the upright post 1' are locked again, and the stability of the adjusting seat is improved.

And the adjusting assembly 2 is installed between the two support lugs 11. The adjustment assembly 2 comprises a first threaded rod 21, a second threaded rod 22, a first nut 23, a second nut 24, a third nut 25, a fourth nut 26, a fifth nut 27 and a sixth nut 28.

The first threaded rod 21 and the second threaded rod 22 are arranged in parallel, and two ends of the first threaded rod 21 and the second threaded rod 22 are respectively and vertically connected with the two support lugs 11, namely the first threaded rod 21 and the second threaded rod 22 are simultaneously parallel to the surface of the adjusting seat 1. A first nut 23, a second nut 24 and a third nut 25 are threadedly mounted on the first threaded rod 21, and a fourth nut 26, a fifth nut 27 and a sixth nut 28 are threadedly mounted on the second threaded rod 22. The positions of the first nut 23, the second nut 24, the third nut 25, the fourth nut 26, the fifth nut 27, and the sixth nut 28 on the first threaded rod 21 or the second threaded rod 22 can be changed in the longitudinal direction by rotating them.

And a sliding assembly 3 disposed on the adjusting assembly 2 and movable in a longitudinal direction. The slide module 3 includes a slide block 31 and a connection plate 32.

The sliding block 31 is provided with a first through hole 311 and a second through hole 312 corresponding to the first threaded rod 21 and the second threaded rod 22, respectively. The diameters of the first through hole 311 and the second through hole 312 are equal to or slightly larger than the diameters of the first threaded rod 21 and the second threaded rod 22, and the first threaded rod 21 and the second threaded rod 22 pass through the first through hole 311 and the second through hole 312, respectively. One surface of the sliding block 31 facing the adjusting seat 1 is in sliding contact with the surface of the adjusting seat 1. The above structure allows the sliding block 31 to move along the length direction of the first and second threaded

rods

21 and 22 without causing the first through hole 311 or the second through hole 312 to move in the radial direction, so as to ensure the movement stability. Along the length direction of the first threaded rod 21 or the second threaded rod 22, the upper and lower surfaces of the sliding block 31 are respectively contacted with the first nut 23 and the fourth nut 26 and the second nut 24 and the fifth nut 27, namely, the sliding block 31 is installed on the first threaded rod 21 and the second threaded rod 22 and is positioned between the first nut 23 and the fourth nut 26 and between the second nut 24 and the fifth nut 27. The third nut 25 and the sixth nut 28 abut against the second nut 24 and the fifth nut 27, respectively, to improve the connection reliability thereof and prevent the longitudinal support from failing.

The connecting plate 32 is located on the other side of the sliding block 31 away from the adjusting seat 1 and is parallel to the support lug 11. One end of the connecting plate 32 is perpendicularly connected with the side surface of the sliding block 31. The connecting plate 32 is provided with a mounting hole 321 for connecting with the equipment rack 2'.

In this embodiment, the use of the vertical adjustment mechanism of computer lab equipment rack integrates is:

a plurality of insertion holes 11 ' are formed in the upright post 1 ' of the original machine room framework, and the distance between every two adjacent insertion holes 11 ' is consistent with the distance between every two adjacent plug-in units 12. According to the height of the equipment to be installed, the insertion hole 11 'with the proper height is selected, the plug-in piece 12 is inserted into the insertion hole 11', the notch 121 is bent, the exposed plug-in piece 12 part at the notch 121 is turned and deformed and is attached to the surface of the upright post 1 ', and therefore the adjusting seat 1 is clamped on the upright post 1'. The first nut 23, the second nut 24, the third nut 25, the fourth nut 26, the fifth nut 27 and the sixth nut 28 are adjusted so that the slide block 31 reaches a preset position. Referring to the above steps, three other longitudinal adjusting mechanisms are installed, and finally two equipment racks 2' are installed. Two ends of the equipment frame 2' are respectively connected with the two connecting plates 32 at the same side. When the device is fixed to the device rack 2', the sliding block 31 can be finely adjusted in position by rotating the first nut 23, the second nut 24, the third nut 25, the fourth nut 26, the fifth nut 27, and the sixth nut 28 according to the actual height of the device. Adopt the vertical adjustment mechanism of the computer lab equipment rack that integrates in this embodiment, only need do the adaptability adjustment on former computer lab structure, need not to increase manufacturing cost by a wide margin, increase the application scope who improves the computer lab simultaneously, improve customer's satisfaction.

Claims

1. A longitudinal adjusting mechanism of an integrated machine room equipment frame is characterized by being integrally and longitudinally arranged and comprising

The adjusting seat is detachably arranged on the upright post;

2. The integrated machine room equipment rack longitudinal adjusting mechanism of claim 1, wherein: the vertical both sides of adjusting the seat are provided with the journal stirrup respectively perpendicularly, adjusting part sets up two between the journal stirrup.

3. The integrated machine room equipment rack longitudinal adjusting mechanism of claim 1, wherein: one side of the adjusting seat facing the stand column is provided with an insert, the free end of the insert is provided with a notch, and the part of the insert at the notch can turn over and deform and is attached to the surface of the stand column.

4. The integrated machine room equipment rack longitudinal adjusting mechanism of claim 1, wherein: the vertical both sides of adjusting the seat and offering the screw hole that link up to set up supporting locking screw, rotate locking screw, its one end supports the stand, lock adjust the seat position.

5. The integrated machine room equipment rack longitudinal adjusting mechanism of claim 3, wherein: and when the plug-in part at the notch can be overturned and deformed, the plug-in part can be alternately overturned up and down.

6. An integrated machine room equipment rack longitudinal adjusting mechanism according to any one of claims 1 to 4, characterized in that: the adjusting component comprises

a second threaded rod arranged in parallel with the first threaded rod;

the first nut is rotatably sleeved on the first threaded rod;

the second nut is rotatably sleeved on the first threaded rod;

the fourth nut is rotatably sleeved on the second threaded rod; and

the fifth nut is screwed on the second threaded rod;

7. The integrated machine room equipment rack longitudinal adjusting mechanism of claim 6, wherein: the sliding component comprises

8. The integrated machine room equipment rack longitudinal adjusting mechanism of claim 6, wherein: the adjusting component also comprises

9. The integrated machine room equipment rack longitudinal adjusting mechanism of claim 7, wherein: the connecting plate is provided with a mounting hole for connecting with the equipment rack.