CN206149653U - Bight reinforcement and cabinet body structure that uses this bight reinforcement - Google Patents
Bight reinforcement and cabinet body structure that uses this bight reinforcement Download PDFInfo
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- CN206149653U CN206149653U CN201621267859.XU CN201621267859U CN206149653U CN 206149653 U CN206149653 U CN 206149653U CN 201621267859 U CN201621267859 U CN 201621267859U CN 206149653 U CN206149653 U CN 206149653U
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- connecting plate
- reinforcement
- component
- cabinet body
- body structure
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Abstract
The utility model discloses a bight reinforcement and cabinet body structure that uses this bight reinforcement. The bight reinforcement include first connecting plate, second connecting plate and third connecting plate, two liang first connecting plates, second connecting plate and third connecting plates perpendicular and hand over in a bit, three intersecting lines all are located from the ray of the point of intersect. The cabinet body structure include above -mentioned bight reinforcement, still include stand and mutually perpendicular and two frame roof beams bordering on, the stand include mutually perpendicular and connect two sides as an organic whole, the stand two sides respectively with two frame roof beam fixed connection, the first connecting plate of bight reinforcement respectively with two frame roof beam fixed connection. Adopt above -mentioned technical scheme, can make the cabinet body structure all have very good joint strength and limit deformation, torsional ability in X, Y, Z three -dimensional to the intensity and the anti vibration that make the cabinet body can obtain improving.
Description
Technical field
This utility model is related to electric equipment rack cabinet frame fields, and more particularly to a kind of Conner reinforcement and use should
The cabinet body structure field of Conner reinforcement.
Background technology
It is intensity to rack, anti-during the rack of electric equipment is installed typically in frame structure, particularly some special dimensions
Vibrations performance and torsional property require more and more higher.Specifically, cabinet structure is exactly needed to have very good in X, Y, Z three-dimensional
Bonding strength and limit deformation, reverse ability.
Utility model content
The purpose of this utility model is to solve the problems of the prior art, there is provided a kind of Conner reinforcement and using the angle
The cabinet body structure of portion's reinforcement, so that cabinet body structure has extraordinary bonding strength and limits deformation, reverses in X, Y, Z three-dimensional
Ability so that the intensity and anti-shake performance of cabinet are improved.
To reach above-mentioned purpose, this utility model is adopted the following technical scheme that:
A kind of Conner reinforcement, including the first connecting plate, the second connecting plate and the 3rd connecting plate;The first described connection
Plate, the second connecting plate and the 3rd connecting plate are vertical two-by-two and meet at a bit, and three intersections are respectively positioned on from the ray of intersection point.
Further, above-mentioned Conner reinforcement includes first component and second component;First component include it is perpendicular to one another and
The first flanging for connecting as one and the second flanging, second component includes perpendicular to one another and the 3rd flanging that connects as one and the
Four flangings;The first described connecting plate is made up of the first flanging of first component, and the second described connecting plate is by second component
3rd flanging is constituted, described the 3rd connecting plate by the second flanging of first component and the Fourth Fold of second component it is affixed and
Into.
Further, described first component or second component are integrally formed by bending.
Further, the first described connecting plate, the second connecting plate or the 3rd connecting plate be shaped as be cut out two it is sharp
The right angled triangle at angle.
Further, the first described connecting plate, the second connecting plate or the 3rd connecting plate are provided with redundancy portion, redundancy position
In being cut out at the hypotenuse of two acute angles and be folded on described hypotenuse.
A kind of cabinet body structure using above-mentioned Conner reinforcement, also including column and two frames for being mutually perpendicular to and adjoining
Beam;Described column includes two sides for being mutually perpendicular to and connecting as one;Two sides of described column respectively with institute
Two grid beams stated are fixedly connected;The described connecting plate of Conner reinforcement first is fixedly connected with two described grid beams.
In one embodiment, the described connecting plate of Conner reinforcement second and the 3rd connecting plate respectively with two articles of column
Side is fixedly connected.
Further, two sides of described column rivet or are spirally connected with two described grid beams respectively;Described angle
The connecting plate of portion's reinforcement first is riveted or is spirally connected with two described grid beams;The described connecting plate of Conner reinforcement second and the 3rd
Connecting plate is riveted or is spirally connected with two sides of column respectively.
In the second embodiment, described two sides of column inner side is respectively and fixedly connected with a L-shaped bearing, each described
L-shaped bearing includes connection side and free margins, and described connection side is fixedly connected with side, described free margins be connected side phase
It is mutually vertical and connect as one;The free margins of described two L-shaped bearings of column respectively with the second connecting plate of Conner reinforcement
It is fixedly connected with the 3rd connecting plate.
Further, two sides of described column rivet or are spirally connected with two described grid beams respectively;Described angle
The connecting plate of portion's reinforcement first is riveted or is spirally connected with two described grid beams;The free margins of described two L-shaped bearings of column point
Do not rivet or be spirally connected with second connecting plate and the 3rd connecting plate of Conner reinforcement.
Technical scheme described in the utility model is relative to prior art, the beneficial effect of acquirement:
1st, Conner reinforcement is mutually perpendicular to, meets at the connecting plate of any by arranging three, realizes that X, Y, Z three-dimensional connects,
With with stronger three-dimensional bonding strength.
2nd, first component and second component are integrally formed by bending, are simple to manufacture, low cost.
3rd, Conner reinforcement by first component and second component overlapping it is affixed form, simple structure.
4th, each connecting plate of Conner reinforcement is shaped as being cut out the right angled triangle of two acute angles, not only alleviates corner
The weight of reinforcement, and its floor each other is made, the associated connection intensity between X and Y-direction, Y and Z-direction, X and Z-direction is enhanced, make
Structure is more consolidated.
5th, Conner reinforcement arranges redundancy portion, and redundancy portion is folded, can preferably strengthen X and Y-direction, Y and Z-direction, X with
Associated connection intensity between Z-direction, improves anti-twisting property.
6th, using the cabinet body structure of above-mentioned Conner reinforcement, two grid beams are combined together by Conner reinforcement, are increased
The bonding strength of X, Y-direction is added.
7th, column arranges L-shaped bearing, is easy to continue to accommodate other connectors between adjacent column.
8th, column side or bearing free margins are connected with Conner reinforcement, further increase the connection of Y, Z-direction and X, Z-direction
Intensity, makes cabinet body structure having extraordinary bonding strength in X, Y, Z three-dimensional and limits deformability, so that rack is strong
Degree and anti-shake performance are improved.
9th, cabinet body frame is easy to cabinet to assemble at the scene by riveting or screw connection manner connecting components.
Description of the drawings
Accompanying drawing described herein is used for providing further understanding to of the present utility model, constitutes of the present utility model one
Point, schematic description and description of the present utility model is used to explain this utility model, does not constitute to of the present utility model
Improper restriction.In the accompanying drawings:
Fig. 1 is frame corner reinforcement embodiment schematic diagram;
Fig. 2 is the top view of cabinet body structure one embodiment;
Fig. 3 is the front view of cabinet body structure one embodiment;
Fig. 4 is the top view of second embodiment of cabinet body structure;
Fig. 5 is the front view of second embodiment of cabinet body structure.
Specific embodiment
In order that technical problem to be solved in the utility model, technical scheme and beneficial effect are clearer, clear, with
Under in conjunction with the accompanying drawings and embodiments, this utility model is further elaborated.It should be appreciated that concrete reality described herein
Example is applied only to explain this utility model, is not used to limit this utility model.
As shown in figure 1, Conner reinforcement 10 includes the first connecting plate 11, the second connecting plate 21 and the 3rd connecting plate 31.The
One connecting plate 11, the second connecting plate 21 and the 3rd connecting plate 31 are vertical two-by-two and meet at a bit, and three intersections are respectively positioned on from intersection point
On the ray for setting out.Said structure can be made up of first component 12 and second component 13.First component 12 and second component 13
It is integrally formed by bending.First component 12 includes the first flanging 121 that is perpendicular to one another and connecting as one and the second flanging
122.Second component 13 includes the 3rd flanging 133 that is perpendicular to one another and connecting as one and Fourth Fold 134.First connecting plate 11
It is made up of the first flanging 121 of first component 12.Second connecting plate 21 is made up of the 3rd flanging 133 of second component 13.3rd
Connecting plate 31 is by the second flanging 122 of first component 12 and the Fourth Fold 134 of second component 13 is affixed forms.
The shape of above-mentioned first connecting plate 11, the second connecting plate 21 and the 3rd connecting plate 31 is and is cut out two acute angles
Right angled triangle.And first connecting plate 11 be provided with redundancy portion 111, the second connecting plate 21 is provided with redundancy portion 211, the 3rd connection
Plate 31 is provided with redundancy portion 311.Above three redundancy portion 111,211 and 311 is respectively positioned on the right angle trigonometry for being cut out two acute angles
At shape hypotenuse and it is folded on hypotenuse.
Conner reinforcement is mutually perpendicular to, meets at the connecting plate of any by arranging three, realizes that X, Y, Z three-dimensional connects, with
With stronger three-dimensional bonding strength.First component and second component are integrally formed by bending, are simple to manufacture, low cost.Angle
Portion's reinforcement by first component and second component overlapping it is affixed form, simple structure.Conner reinforcement each connecting plate is shaped as
The right angled triangle of two acute angles is cut out, the weight of Conner reinforcement is not only alleviated, and makes its floor each other, enhanced
Associated connection intensity between X and Y-direction, Y and Z-direction, X and Z-direction, makes structure more consolidate.Conner reinforcement arranges redundancy portion, and
Redundancy portion is folded, can preferably strengthen the associated connection intensity between X and Y-direction, Y and Z-direction, X and Z-direction, improve antitorque
Ability.
There are two using the cabinet body structure embodiment of above-mentioned Conner reinforcement 10:
Wherein, embodiment 1 is as shown in Figure 2 and Figure 3.In embodiment 1, cabinet body structure includes Conner reinforcement 10, column 5, phase
Mutual vertical and adjacent two grid beams 41 and 42.Column 5 includes two sides 51 and 52 for being mutually perpendicular to and connecting as one.Side
Side 51 rivets with grid beam 42.Side 52 rivets with grid beam 41.First connecting plate 11 of Conner reinforcement 10 respectively with grid beam 41 and
42 rivetings.Second connecting plate 21 and the side 52 of Conner reinforcement 10 rivets.3rd connecting plate 31 of Conner reinforcement 10 and side
Side 51 rivets.
Embodiment 2 is as shown in Figure 4, Figure 5.In embodiment 2, cabinet body structure includes Conner reinforcement 10, column 5, mutually hangs down
Straight and adjacent two grid beams 41 and 42.Column 5 includes two sides 61 and 62 for being mutually perpendicular to and connecting as one.Side 61
A upper affixed L-shaped bearing 63.An affixed L-shaped bearing 64 on side 62.L-shaped bearing 63 includes what is be fixedly connected with side 61
The free margins 631 for connecting while and being mutually perpendicular to when being connected and connect as one.L-shaped bearing 64 includes being fixedly connected with side 62
Connection while and the free margins 641 that are mutually perpendicular to when being connected and connect as one.Side 61 rivets with grid beam 42.Side 62 with
Grid beam 41 is riveted.First connecting plate 11 of Conner reinforcement 10 is riveted respectively with grid beam 41 and 42.The second of Conner reinforcement 10
Connecting plate 21 is riveted with the free margins 641 of L-shaped bearing 64.3rd connecting plate 31 of Conner reinforcement 10 and L-shaped bearing 63 from
Riveted by side 631.
Using the cabinet body structure of above-mentioned Conner reinforcement, two grid beams are combined together by Conner reinforcement, are increased
X, the bonding strength of Y-direction.Column side or bearing free margins are connected with Conner reinforcement, further increase Y, Z-direction and X, Z
To bonding strength, make cabinet body structure X, Y, Z three-dimensional have extraordinary bonding strength and limit deformability so that
The intensity and anti-shake performance of rack is improved.Column arranges L-shaped bearing, is easy to accommodate other connections between adjacent upright posts
Part.It is fixedly connected using riveting method in embodiment, equally can also be fixedly connected using screw connection manner, using riveting
Connect or screw connection manner connecting components, be easy to cabinet to assemble at the scene.
By enlightenment of the present utility model, cabinet body structure can also be prismatic, and the cross section of cabinet body structure can be many
Side shape, and according to actual requirement of engineering, Conner reinforcement is adjusted, such as the first connecting plate of adjustment, the second connecting plate is connected with the 3rd
Angle of the plate between the angle and each connecting plate of point of intersection, to adapt to the environment of various practical applications.
Preferred embodiment of the present utility model is description above described, it is to be understood that the type of this practical sample is not limited to
Above-described embodiment, and the exclusion to other embodiment should not be regarded as.By enlightenment of the present utility model, those skilled in the art's knot
The change that closing known or prior art, knowledge is carried out also should be regarded as in the protection domain of this utility model.
Claims (10)
1. a kind of Conner reinforcement, is characterized in that including the first connecting plate, the second connecting plate and the 3rd connecting plate;Described first
Connecting plate, the second connecting plate and the 3rd connecting plate are vertical two-by-two and meet at a bit, and three intersections are respectively positioned on penetrating from intersection point
On line.
2. a kind of Conner reinforcement as claimed in claim 1, is characterized in that including first component and second component;First component
Including the first flanging that is perpendicular to one another and connecting as one and the second flanging, second component includes perpendicular to one another and connects as one
The 3rd flanging and Fourth Fold;The first described connecting plate is made up of the first flanging of first component, the second described connection
Plate is made up of the 3rd flanging of second component, described the 3rd connecting plate by first component the second flanging and second component
Four flangings are affixed to be formed.
3. a kind of Conner reinforcement as claimed in claim 2, is characterized in that described first component or second component by folding
It is curved to be integrally formed.
4. a kind of Conner reinforcement as described in claim 1,2 or 3, is characterized in that the first described connecting plate, the second connection
Being shaped as of plate or the 3rd connecting plate is cut out the right angled triangle of two acute angles.
5. a kind of Conner reinforcement as claimed in claim 4, is characterized in that the first described connecting plate, the second connecting plate or the
Three connecting plates are provided with redundancy portion, redundancy portion be located at be cut out at the hypotenuse of two acute angles and be folded to it is described
On hypotenuse.
6. a kind of cabinet body structure of the Conner reinforcement using as any one of claim 1 to 5, is characterized in that also including
Column and two grid beams for being mutually perpendicular to and adjoining;Described column includes two sides for being mutually perpendicular to and connecting as one;
Two sides of described column are fixedly connected respectively with two described grid beams;The described connecting plate of Conner reinforcement first with
Two described grid beams are fixedly connected.
7. a kind of cabinet body structure as claimed in claim 6, is characterized in that the described connecting plate of Conner reinforcement second and the 3rd
Connecting plate is fixedly connected respectively with two sides of column.
8. a kind of cabinet body structure as claimed in claim 7, it is characterized in that two sides of described column respectively with it is described
Two grid beam rivetings are spirally connected;The described connecting plate of Conner reinforcement first is riveted or is spirally connected with two described grid beams;It is described
The connecting plate of Conner reinforcement second and the 3rd connecting plate rivet or be spirally connected with two articles of sides of column respectively.
9. a kind of cabinet body structure as claimed in claim 6, is characterized in that two sides of described column inner side is respectively and fixedly connected with one
Individual L-shaped bearing, each described L-shaped bearing includes connection side and free margins, and described connection side is fixedly connected with side, institute
The free margins stated are mutually perpendicular to and connect as one with side is connected;The free margins of described two L-shaped bearings of column respectively with angle
Second connecting plate and the 3rd connecting plate of portion's reinforcement is fixedly connected.
10. a kind of cabinet body structure as claimed in claim 9, it is characterized in that two sides of described column respectively with it is described
Two grid beam rivetings are spirally connected;The described connecting plate of Conner reinforcement first is riveted or is spirally connected with two described grid beams;It is described
The free margins of two L-shaped bearings of column rivet or be spirally connected with the second connecting plate of Conner reinforcement and the 3rd connecting plate respectively.
Priority Applications (1)
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CN201621267859.XU CN206149653U (en) | 2016-11-23 | 2016-11-23 | Bight reinforcement and cabinet body structure that uses this bight reinforcement |
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CN201621267859.XU CN206149653U (en) | 2016-11-23 | 2016-11-23 | Bight reinforcement and cabinet body structure that uses this bight reinforcement |
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CN206149653U true CN206149653U (en) | 2017-05-03 |
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CN201621267859.XU Active CN206149653U (en) | 2016-11-23 | 2016-11-23 | Bight reinforcement and cabinet body structure that uses this bight reinforcement |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110312384A (en) * | 2019-06-10 | 2019-10-08 | 和信精密科技(吴江)有限公司 | A kind of shockproof door for cabinet |
-
2016
- 2016-11-23 CN CN201621267859.XU patent/CN206149653U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110312384A (en) * | 2019-06-10 | 2019-10-08 | 和信精密科技(吴江)有限公司 | A kind of shockproof door for cabinet |
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