CN215674290U - Buffering support frame and rack device - Google Patents

Abstract

The application provides a buffering support frame and a rack device. The buffer support frame comprises a bottom support plate, a support piece, a top support plate and a buffer component. The support member is connected to the bottom support plate. The top support plate is connected with the support member. The buffer component comprises a stand column and a reinforcing piece, wherein two ends of the stand column are respectively connected with a bottom supporting plate and a top supporting plate, the reinforcing piece is provided with a through hole and penetrates through the through hole, the reinforcing piece comprises a top layer part, a middle layer part and a bottom layer part, the top layer part, the middle layer part and the bottom layer part are sequentially connected, and the cross sectional areas of the top layer part, the middle layer part and the bottom layer part are gradually increased. Because the cross-sectional areas of the top layer part, the middle layer part and the bottom layer part of the reinforcing piece are gradually increased, the connecting action area of the upright post and the bottom supporting plate can be effectively increased, namely, the larger connecting area between the bottom layer part and the bottom supporting plate of the reinforcing piece can effectively stop the vibration movement trend of the upright post, so that the stability of the top supporting plate and the upright post is improved.

Description

Buffering support frame and rack device

Technical Field

The utility model relates to the field of supporting racks, in particular to a buffer supporting rack and a rack device.

Background

The rack is an indispensable component in the electrical equipment and is a carrier of the electrical control equipment. Typically made of cold rolled steel sheet or alloy. Can provide the protection functions of water resistance, dust prevention, electromagnetic interference resistance and the like for the storage equipment.

The stability of frame is one of the important performance of frame, and the frame has steel sheet and billet welding usually to form, still need to carry out a series of processing to the frame of preliminary shaping, like welding or commentaries on classics hole etc. when the frame processing is accomplished, still need transport the frame and install frame and various mechanisms, consequently the requirement to the stability of frame is higher, traditional frame often is not enough in follow-up processing and use stability, the structure of frame receives the vibration and warp easily, leads to the structural strength of frame to seriously descend, and then influences the use of frame.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects in the prior art and provides a buffer support frame and a rack device which are high in stability, difficult to deform and high in structural strength.

The purpose of the utility model is realized by the following technical scheme:

a cushioning support stand, comprising:

a bottom support plate;

a support member connected to the bottom support plate;

a top support plate connected with the support;

the buffer assembly, the buffer assembly includes stand and reinforcement, the both ends of stand respectively with the bottom support board reaches the top support board is connected, the through-hole has been seted up to the reinforcement, the reinforcement is worn to locate the through-hole, the reinforcement includes top layer portion, intermediate layer portion and bottom layer portion, the top layer portion the intermediate layer portion reaches the bottom layer portion connects gradually, the top layer portion the intermediate layer portion reaches the cross-sectional area of bottom layer portion increases gradually, the top layer portion with the stand is connected, the bottom layer portion with the bottom support board is connected.

In one embodiment, the top layer, the middle layer and the bottom layer are integrally formed.

In one embodiment, the top layer is welded to the stud and the bottom layer is welded to the bottom support plate.

In one embodiment, the reinforcing member further includes a threaded fastener, the upright post has a threaded hole, the middle layer has a through hole, the threaded fastener is inserted into the through hole, and the threaded fastener is in threaded fit with the threaded hole, so that the threaded fastener is in threaded connection with the upright post.

In one embodiment, two ends of the upright are respectively welded with the bottom support plate and the top support plate.

In one embodiment, the columns extend perpendicular to the top support plate and the bottom support plate, respectively.

In one embodiment, the support member comprises a plurality of support columns, the extending directions of the plurality of support columns are parallel to each other, and each support column is welded with the bottom support plate and the top support plate respectively.

In one embodiment, the support further comprises a connection frame connected to ends of the plurality of support columns adjacent to the top support plate, respectively, the connection frame further connected to the top support plate.

In one embodiment, the bottom supporting plate includes a bottom plate body and a plurality of cushion blocks, and the cushion blocks are connected to a surface of the bottom plate body away from the supporting member.

A rack apparatus comprising the buffer support frame described in any of the above embodiments.

Compared with the prior art, the utility model has at least the following advantages:

1. the bottom supporting plate and the top supporting plate are respectively connected to the two ends of the stand column, the stand column can strengthen the supporting effect on the top supporting plate by respectively connecting the bottom supporting plate and the top supporting plate, and meanwhile, the stand column can also assist the supporting piece, so that the effect of improving the integral rigidity of the supporting frame is achieved

2. Because the cross-sectional area of the top layer portion, the middle layer portion and the bottom layer portion of the reinforcing piece is gradually increased, the connection action area of the stand column and the bottom support plate can be effectively increased, so that the whole external force borne by the top support plate and the stand column can be borne through a larger connection action area, namely, the larger connection area between the bottom layer portion and the bottom support plate of the reinforcing piece can effectively stop the vibration motion trend of the stand column, and the stability of the top support plate and the stand column is improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

FIG. 1 is a schematic diagram of a buffer support frame according to an embodiment;

fig. 2 is a partially enlarged schematic view of the buffering support frame shown in fig. 1.

Detailed Description

To facilitate an understanding of the utility model, the utility model will now be described more fully with reference to the accompanying drawings. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the utility model is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

As shown in fig. 1 and 2, the buffering support frame 10 of an embodiment includes a bottom support plate 100, a support 200, a top support plate 300, and a buffering assembly 400. The support member 200 is connected to the bottom support plate 100. The top support plate 300 is connected with the support member 200. The buffer assembly 400 includes a column 410 and a reinforcement member 420, two ends of the column 410 are respectively connected to the bottom support plate 100 and the top support plate 300, the reinforcement member 420 is provided with a through hole, the reinforcement member 420 is disposed through the through hole, the reinforcement member 420 includes a top layer portion 421, a middle layer portion 422 and a bottom layer portion 423, the top layer portion 421, the middle layer portion 422 and the bottom layer portion 423 are sequentially connected, cross-sectional areas of the top layer portion 421, the middle layer portion 422 and the bottom layer portion 423 are gradually increased, the top layer portion 421 is connected to the column 410, and the bottom layer portion 423 is connected to the bottom support plate 100.

In the present embodiment, the buffering support frame 10 includes a bottom support plate 100, a support 200, a top support plate 300 and a buffering assembly 400. The bottom support plate 100 is located at the bottom of the support frame and is used for connecting with the mounting position of the machine frame, so that the position of the whole support frame is fixed. The top support plate 300 is located at the topmost part of the support frame, and the top support plate 300 is used for connecting with and supporting various components or mechanisms mounted on the support frame, so that the various components or mechanisms can be stably connected to the support frame. The support member 200 is positioned between the top support plate 300 and the bottom support plate 100, and the support member 200 plays a role of supporting the top support plate 300 and a role of stabilizing the structure of the entire support frame by being connected with the bottom support plate 100 and the top plate support plate, respectively.

Further, the buffer assembly 400 comprises a vertical column 410 and a reinforcing member 420, the two ends of the vertical column 410 are respectively connected with the bottom support plate 100 and the top support plate 300, the vertical column 410 is respectively connected with the bottom support plate 100 and the top support plate 300, the supporting effect on the top support plate 300 can be enhanced, meanwhile, the supporting member 200 can be assisted, the effect of improving the overall rigidity of the support frame is achieved, and the overall structural stability of the support frame is further improved. The reinforcing member 420 is provided with a through hole matched with the upright column 410, the upright column 410 is arranged in the through hole in a penetrating manner, so that the reinforcing member 420 is sleeved on the outer side surface of the upright column 410, the reinforcing member 420 comprises a top layer part 421 with gradually increased cross section area, a middle layer part 422 and a bottom layer part 423, the top layer part 421, the middle layer part 422 and the bottom layer part 423 are sequentially connected, the cross section areas of the top layer part 421, the middle layer part 422 and the bottom layer part 423 are gradually increased to form a conical structure, the top layer part 421 of the reinforcing member 420 is connected with the upright column 410, and the bottom layer part 423 of the reinforcing member 420 is connected with the bottom supporting plate 100. When an external component or mechanism is installed on the top support plate 300 of the support frame, an external force acts on the top support frame, so that the support frame vibrates, the cross sectional areas of the top layer portion 421, the middle layer portion 422 and the bottom layer portion 423 of the reinforcement member 420 are gradually increased, the connection action area of the upright column 410 and the bottom support plate 100 can be effectively increased, the external force borne by the whole body formed by the top support plate 300 and the upright column 410 can be borne through a larger connection action area, namely, the larger connection area between the bottom layer portion 423 and the bottom support plate 100 of the reinforcement member 420 can effectively stop the vibration movement trend of the upright column 410, and the stability of the top support plate 300 and the upright column 410 is improved.

As shown in fig. 1 and 2, in one embodiment, the top layer 421, the middle layer 422 and the bottom layer 423 are integrally formed. In this embodiment, because the top layer 421, the middle layer 422 and the bottom layer 423 of the reinforcement member 420 are integrally formed, the connection between the top layer, the middle layer and the bottom layer is more stable, so that the overall structural strength of the reinforcement member 420 is higher, and the reinforcement member has stronger bearing capacity when stressed, so that the buffering and damping capacity of the support frame is better.

In one embodiment, as shown in fig. 1 and 2, the top layer 421 is welded to the pillar 410 and the bottom layer 423 is welded to the bottom support plate 100. In this embodiment, because the top layer 421 is welded to the pillar 410, and the bottom layer 423 is welded to the bottom, the strength of connection between the reinforcement member 420 and the pillar 410 and the bottom support plate 100 is higher, so that the reinforcement member 420 can better transmit the stress borne by the top support plate 300 and the pillar 410 to the bottom support plate, and further the damping capacity of the support frame is better.

As shown in fig. 1 and 2, in one embodiment, the reinforcing member 420 further includes a threaded fastener, the upright 410 is opened with a threaded hole, the middle portion 422 is opened with a through hole, the threaded fastener is inserted into the through hole, and the threaded fastener is in threaded engagement with the threaded hole, so that the threaded fastener is screwed with the upright 410. In this embodiment, middle part 422 is connected with stand 410 through threaded fastener, and through threaded fastener's fixed action, can fix the position of reinforcement 420 earlier, the location of reinforcement 420 of being convenient for, and then be convenient for carry out the weldment work of reinforcement 420 respectively with stand 410 and bottom backup pad, and threaded fastener also helps increasing the joint strength of reinforcement 420 and stand 410 simultaneously.

As shown in fig. 1 and 2, in one embodiment, the two ends of the upright 410 are welded to the bottom support plate 100 and the top support plate 300, respectively. In this embodiment, since the two ends of the pillar 410 are welded to the bottom supporting plate 100 and the top supporting plate 300 respectively, the two ends of the pillar 410 can be respectively connected to the bottom supporting plate 100 and the top supporting plate 300, so as to enhance the supporting effect of the pillar 410 on the top supporting plate 300, and to facilitate better transmitting the stress applied to the top supporting plate 300 to the reinforcing member 420 and the bottom supporting plate 100, thereby enhancing the damping effect of the supporting frame.

In one embodiment, as shown in fig. 1 and 2, the vertical columns 410 extend perpendicular to the top support plate 300 and the bottom support plate 100, respectively. In this embodiment, since the vertical column 410 is perpendicular to the top support plate 300 and the bottom support plate 100, respectively, the vertical column 410 has a better supporting effect, and can better support the top support plate 300, so as to support and stabilize the overall structure of the support frame.

As shown in fig. 1 and 2, in one embodiment, the supporting member 200 includes a plurality of supporting pillars 210, the extending directions of the plurality of supporting pillars 210 are parallel to each other, and each of the plurality of supporting pillars 210 is welded to the bottom supporting plate 100 and the top supporting plate 300, respectively. The two ends of the supporting column 210 are respectively welded to the bottom supporting plate 100 and the top supporting plate 300 perpendicularly to support the top supporting plate 300 and to stabilize the overall structure of the supporting frame.

As shown in fig. 1 and 2, in one embodiment, the supporting member 200 further includes a connection frame 220, the connection frame 220 is respectively connected to ends of the plurality of supporting pillars 210 adjacent to the top supporting plate 300, and the connection frame 220 is further connected to the top supporting plate 300. In this embodiment, the ends of the plurality of supporting columns 210 adjacent to the top supporting plate 300 are all connected to the connecting frame 220, and the connecting frame 220 has an effect of combining the plurality of supporting columns 210, so that the plurality of supporting columns 210 form a uniform supporting structure, and the stress can be evenly distributed among the supporting columns 210, thereby enhancing the supporting effect of the supporting member 200.

As shown in fig. 1 and 2, in one embodiment, the bottom supporting plate 100 includes a bottom plate and a plurality of cushion blocks 110, and the cushion blocks 110 are connected to a surface of the bottom plate away from the supporting member 200. In this embodiment, cushion block 110 has rubber materials to constitute, and cushion block 110 has better elasticity, can absorb the vibration and the stress that the bottom plate body bore, improves the stability of support frame for the support frame has better buffering shock-absorbing capacity.

The present application further provides a rack apparatus, including the buffering support frame 10 described in any of the above embodiments. As shown in fig. 1 and 2, in one embodiment, the buffering support frame 10 includes a bottom support plate 100, a support 200, a top support plate 300, and a buffering assembly 400. The support member 200 is connected to the bottom support plate 100. The top support plate 300 is connected with the support member 200. The buffer assembly 400 includes a column 410 and a reinforcement member 420, two ends of the column 410 are respectively connected to the bottom support plate 100 and the top support plate 300, the reinforcement member 420 is provided with a through hole, the reinforcement member 420 is disposed through the through hole, the reinforcement member 420 includes a top layer portion 421, a middle layer portion 422 and a bottom layer portion 423, the top layer portion 421, the middle layer portion 422 and the bottom layer portion 423 are sequentially connected, cross-sectional areas of the top layer portion 421, the middle layer portion 422 and the bottom layer portion 423 are gradually increased, the top layer portion 421 is connected to the column 410, and the bottom layer portion 423 is connected to the bottom support plate 100.

In the present embodiment, the buffering support frame 10 includes a bottom support plate 100, a support 200, a top support plate 300 and a buffering assembly 400. The bottom support plate 100 is located at the bottom of the support frame and is used for connecting with the mounting position of the machine frame, so that the position of the whole support frame is fixed. The top support plate 300 is located at the topmost part of the support frame, and the top support plate 300 is used for connecting with and supporting various components or mechanisms mounted on the support frame, so that the various components or mechanisms can be stably connected to the support frame. The support member 200 is positioned between the top support plate 300 and the bottom support plate 100, and the support member 200 plays a role of supporting the top support plate 300 and a role of stabilizing the structure of the entire support frame by being connected with the bottom support plate 100 and the top plate support plate, respectively.

Further, the buffer assembly 400 comprises a vertical column 410 and a reinforcing member 420, the two ends of the vertical column 410 are respectively connected with the bottom support plate 100 and the top support plate 300, the vertical column 410 is respectively connected with the bottom support plate 100 and the top support plate 300, the supporting effect on the top support plate 300 can be enhanced, meanwhile, the supporting member 200 can be assisted, the effect of improving the overall rigidity of the support frame is achieved, and the overall structural stability of the support frame is further improved. The reinforcing member 420 is provided with a through hole matched with the upright column 410, the upright column 410 is arranged in the through hole in a penetrating manner, so that the reinforcing member 420 is sleeved on the outer side surface of the upright column 410, the reinforcing member 420 comprises a top layer part 421 with gradually increased cross section area, a middle layer part 422 and a bottom layer part 423, the top layer part 421, the middle layer part 422 and the bottom layer part 423 are sequentially connected, the cross section areas of the top layer part 421, the middle layer part 422 and the bottom layer part 423 are gradually increased to form a conical structure, the top layer part 421 of the reinforcing member 420 is connected with the upright column 410, and the bottom layer part 423 of the reinforcing member 420 is connected with the bottom supporting plate 100. When an external component or mechanism is installed on the top support plate 300 of the support frame, an external force acts on the top support frame, so that the support frame vibrates, the cross sectional areas of the top layer portion 421, the middle layer portion 422 and the bottom layer portion 423 of the reinforcement member 420 are gradually increased, the connection action area of the upright column 410 and the bottom support plate 100 can be effectively increased, the external force borne by the whole body formed by the top support plate 300 and the upright column 410 can be borne through a larger connection action area, namely, the larger connection area between the bottom layer portion 423 and the bottom support plate 100 of the reinforcement member 420 can effectively stop the vibration movement trend of the upright column 410, and the stability of the top support plate 300 and the upright column 410 is improved.

Compared with the prior art, the utility model has at least the following advantages:

1. the two ends of the upright column 410 are respectively connected with the bottom support plate 100 and the top support plate 300, the upright column 410 is respectively connected with the bottom support plate 100 and the top support plate 300, the supporting function of the top support plate 300 can be enhanced, meanwhile, the supporting piece 200 can be assisted, and the effect of improving the integral rigidity of the supporting frame is achieved

2. Because the cross-sectional areas of the top layer 421, the middle layer 422 and the bottom layer 423 of the reinforcement 420 are gradually increased, the connection action area between the upright 410 and the bottom support plate 100 can be effectively increased, so that the external force applied to the whole body formed by the top support plate 300 and the upright 410 can be borne by a larger connection action area, that is, the larger connection area between the bottom layer 423 and the bottom support plate 100 of the reinforcement 420 can effectively stop the vibration movement tendency of the upright 410, and the stability of the top support plate 300 and the upright 410 is improved.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the utility model. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. A cushioning support frame, comprising:

a bottom support plate;

a support member connected to the bottom support plate;

a top support plate connected with the support;

the buffer assembly, the buffer assembly includes stand and reinforcement, the both ends of stand respectively with the bottom support board reaches the top support board is connected, the through-hole has been seted up to the reinforcement, the reinforcement is worn to locate the through-hole, the reinforcement includes top layer portion, intermediate layer portion and bottom layer portion, the top layer portion the intermediate layer portion reaches the bottom layer portion connects gradually, the top layer portion the intermediate layer portion reaches the cross-sectional area of bottom layer portion increases gradually, the top layer portion with the stand is connected, the bottom layer portion with the bottom support board is connected.

2. The shock absorber support frame of claim 1, wherein the top layer, the middle layer and the bottom layer are integrally formed.

3. The shock absorber support bracket of claim 1 wherein said top layer portion is welded to said post and said bottom layer portion is welded to said bottom support plate.

4. The buffering support frame of claim 3, wherein the reinforcement further comprises a threaded fastener, the upright post is provided with a threaded hole, the middle layer is provided with a through hole, the threaded fastener is inserted into the through hole, and the threaded fastener is in threaded engagement with the threaded hole, so that the threaded fastener is in threaded engagement with the upright post.

5. The cushioned support bracket of claim 1 wherein the upright is welded at each end to the bottom support plate and the top support plate.

6. The cushioned support bracket of claim 1 wherein the upright extends in a direction perpendicular to the top support plate and the bottom support plate, respectively.

7. The buffering support frame of claim 1, wherein the supporting member comprises a plurality of supporting columns, the extending directions of the supporting columns are parallel to each other, and each supporting column is welded to the bottom support plate and the top support plate respectively.

8. The cushioned support bracket of claim 7 wherein the support member further comprises a connection frame, the connection frame being connected to the ends of the plurality of support posts adjacent the top support plate, respectively, the connection frame also being connected to the top support plate.

9. The cushioned support bracket of claim 1 wherein the bottom support plate comprises a bottom plate and a plurality of cushion blocks, the cushion blocks being attached to a side of the bottom plate remote from the support member.

10. A frame assembly comprising a cushioned support frame as claimed in any one of claims 1 to 9.

Images