CN116439524A - Reinforced stainless steel cabinet plate - Google Patents

Abstract

The invention relates to a reinforced stainless steel cabinet plate, which comprises: a first surface plate, a second surface plate, a honeycomb grid, and a reinforcement assembly; the second surface plate is welded and fixed with the four connecting strips respectively, so that the first surface plate and the second surface plate are fixed into a hollow cuboid which is provided with an inner cavity; the honeycomb mesh is placed in the inner cavity, and one surface of the honeycomb mesh is adhered to the surface of the middle rectangular part; the reinforcement components are placed in the inner cavity and respectively abutted against the inner wall of the inner cavity; the reinforcing component comprises a first steel pipe, a second steel pipe and a butt joint steel block. The reinforced stainless steel cabinet plate is easy to realize in later use and transformation by means of a preset structure.

Description

Reinforced stainless steel cabinet plate

Technical Field

The invention relates to the technical field of customized houses, in particular to a reinforced stainless steel cabinet plate.

Background

Unlike traditional finished household products, custom household products can be designed into products with specific sizes and shapes according to requirements, and custom households are gradually popular with consumers as consumers pursue individuality and uniqueness.

The whole technological process of the existing customized home is that drawing and selected materials of the whole product are designed, then blanking, processing and module assembling are carried out in factories according to the drawing and the materials, and then the products are transported to a specified position of a consumer for installation.

According to the current more customized household products, the materials mainly comprise plate type household (mainly assembled by artificial boards), wood type household (mainly prepared by logs), and plate-wood combined household (log for part of structures and artificial boards for part of structures). From the standpoint of resource conservation and recycling, the log house requires more log and the chips cannot be utilized well in the solid wood house, so that it is not recommended. Moreover, the log home has high requirements on processing technology and use environment, and if maintenance is not noticed, the problems of cracks and worm holes can exist. From this point of view, the plate-type house manufactured by the artificial plate can well solve the problem.

The artificial board is mixed with glue solution through solid wood particles, and then glue film paper, edge banding and the like are wrapped on the surface of the board through hot pressing or cold pressing molding, so that the molded artificial board has the characteristics of high strength and attractive appearance. The glue solution is added, so that the problem of formaldehyde release exists in the use process of the artificial board, and the glue solution is also used when the adhesive film paper is stuck, so that the problem of formaldehyde release also exists. Therefore, from the health point of view, the artificial board has formaldehyde emission to affect health, so the household using the artificial board needs to be constantly ventilated to reduce the formaldehyde content in the surrounding air.

Based on the above problems, a way of preparing customized home with new materials is proposed, namely, preparing panels of customized home with stainless steel plates, and then using the panels as cabinet plates in the process of assembling customized home.

Compared with solid wood boards or artificial boards, the custom-made home made of the stainless steel plates has great difference, the stainless steel plates are harder in materials, the common processing tools cannot achieve the effect of modifying the structure of the custom-made home made of the wood boards, the hardness of the custom-made home structure made of the wood boards is not large, and the custom-made home made of the wood boards can be automatically processed and DIY (direct in the home) by using conventional tools, but the tools are not suitable for the self-modification of the custom-made home made of the stainless steel plates. Therefore, when the stainless steel plate is customized for a house, the problem that the user is inconvenient to reform by himself exists.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provide the reinforced stainless steel cabinet plate, which is easy to realize in the later use and modification (especially in the process of adding the lamp strip) in a preset structure mode.

The invention provides a reinforced stainless steel cabinet plate, which comprises a first surface plate, a second surface plate, a honeycomb grid and a reinforcing component, wherein the first surface plate is arranged on the first surface plate;

cutting the first surface plate to form a middle rectangular part and four convex parts, wherein the four convex parts are respectively arranged around the middle rectangular part;

bending the four convex parts respectively to obtain rectangular side walls and isosceles trapezoid connecting strips respectively, and welding the inner sides of the splicing seams of the four convex parts;

the second surface plate is welded and fixed with the four connecting strips respectively, so that the first surface plate and the second surface plate are fixed into a hollow cuboid which is provided with an inner cavity;

the honeycomb mesh is placed in the inner cavity, and one surface of the honeycomb mesh is adhered to the surface of the middle rectangular part;

the reinforcement components are placed in the inner cavity and respectively abutted against the inner wall of the inner cavity;

the reinforcing component comprises a first steel pipe, a second steel pipe and a butt joint steel block; two crisscross step holes are formed in the butt joint steel block, one end of the first steel pipe is abutted to the large end of one step hole of the first steel pipe, and one end of the second steel pipe is abutted to the large end of the other step hole; the butt joint steel block is abutted to the corner of the inner cavity, the other end of the first steel pipe is abutted to the side wall of the inner cavity, and the other end of the second steel pipe is abutted to the other side wall of the inner cavity, so that the first steel pipe and the second steel pipe are vertically placed.

Further, through holes are respectively formed in the two side walls of the first surface plate, and the two through holes are positioned at the butt joint steel block and respectively butt-joint with the small ends of the two step holes;

the first surface plate is also provided with two other through holes which are respectively positioned at the other end of the first steel pipe and the other end of the second steel pipe, and the two through holes are respectively in butt joint with the first steel pipe and the second steel pipe.

Further, an edge of the butt-joint steel block is formed with an arc chamfer facing the splice seam of the two side walls.

Further, an inner fold strip is formed on the convex part of the first surface plate, and is folded relative to the connecting strip and faces the middle rectangular part;

the second surface plate is provided with a rectangular plate and four side folding strips, the four side folding strips are respectively positioned on four sides of the rectangular plate, and the side folding strips are bent relative to the rectangular plate;

the four sides of the middle rectangular part are respectively welded and fixed with the four sides of the rectangular plate, or the connecting strip is welded and fixed with the side folding strip.

Further, the reinforcing assembly further comprises two reinforcing steel bars, one ends of which are crossed;

the two reinforcing steel bars are respectively placed in the inner cavity;

the two ends of the reinforcing steel bar are respectively abutted against the two side walls; the other end of the first steel pipe penetrates through one reinforcing steel bar, and the other end of the second steel pipe penetrates through the other reinforcing steel bar.

Further, the reinforcement assembly further comprises a square first reinforcement rib plate and a square second reinforcement rib plate;

the first steel pipe and the second steel pipe are respectively sleeved with a first reinforcing rib plate, and the two reinforcing steel bars are respectively sleeved with a second reinforcing rib plate;

and the first steel pipe and the second steel pipe are respectively welded and fixed with the first reinforcing rib plate, and the reinforcing steel bar is welded and fixed with the second reinforcing rib plate.

Further, the reinforcement assembly further comprises a rubber strip, and the section of the rubber strip is square;

one of the adhesive tapes is wrapped on the first steel pipe, and the other adhesive tape is wrapped on the second steel pipe;

three side surfaces of the two adhesive tapes are respectively abutted with the first surface plate;

the width of the adhesive tape is larger than that of the connecting strip.

Further, the device also comprises a grid clamping plate; two grid clamping plates respectively clamp the honeycomb grid from two sides, and two ends of an opening of the honeycomb grid face the two grid clamping plates respectively;

one side of the honeycomb grid is stuck and fastened on the middle rectangular part through one grid clamping plate; the other side of the honeycomb grid is fastened and abutted on the second surface plate through the other grid clamping plate.

Further, the inner diameters of the first steel pipe and the second steel pipe are respectively larger than 3mm.

The beneficial effects are that:

according to the reinforced stainless steel cabinet plate, the first surface plate is enclosed into the frame body structure, and the frame body structure is sealed through the second surface plate, so that the first surface plate and the second surface plate form a cuboid shell with an inner cavity, a honeycomb grid is placed in the middle of the inner cavity of the shell, and a reinforcing component is placed in the inner cavity and located on the periphery of the honeycomb grid.

Therefore, compared with the traditional wood board, the reinforced stainless steel cabinet board has the characteristics of simple appearance and high integration degree, and the outline of the appearance is free of obvious splice seams, and when the reinforced stainless steel cabinet board is used as a cabinet board, the second surface board is usually arranged on the back side, so that the first surface board is arranged on the front side of a use state, no splice seam is visible, and the appearance is very strong. And the integral characteristic ensures that the whole shell has high structural stability and strength.

In addition, the structural stability of the interior of the housing is enhanced by two parts, one being realized by a honeycomb mesh and the other being realized by a reinforcing component.

The honeycomb mesh achieves stability and strength assurance of the cavity between the first surface plate and the second surface plate. The reinforcement assembly achieves the reinforcement of structural stability at the edge of the shell, and enables more support and force conduction between the two side walls, so that the force conduction is more dispersed, and the support effect of the shell is better.

Furthermore, the shell is guaranteed through the support strength of the edges of the connecting strips, the side walls and the reinforcing components, so that the pressure support along the length direction of the shell is stronger, and the shell is harder to deform.

Finally, as the through holes are formed, the wires of the lamp strips or the lamp beads can conveniently pass through the through holes and then are placed into the first steel pipe or the second steel pipe; even, can also pass a through-hole to and first steel pipe or second steel pipe, then pass another through-hole again to realize that the wire passes through from the cabinet inboard is hidden, kept the neatly nature of cabinet body.

Drawings

FIG. 1 is a schematic perspective view of a reinforced stainless steel cabinet panel of the present invention in front view;

FIG. 2 is a schematic view of another perspective view of a reinforced stainless steel cabinet panel of the present invention;

FIG. 3 is a schematic perspective view of a rear view of a reinforced stainless steel cabinet panel according to the present invention;

FIG. 4 is a schematic perspective view of a reinforced stainless steel cabinet panel (without the first surface panel and without the second surface panel) according to the present invention;

FIG. 5 is a schematic perspective view of one embodiment of a reinforcement assembly of the present invention;

FIG. 6 is a schematic perspective view of another embodiment of a reinforcement assembly of the present invention;

FIG. 7 is a cross-sectional view of a butted steel block of the present invention;

FIG. 8 is an expanded view of the first surface panel of the present invention (the dashed lines indicate crease locations);

fig. 9 is an expanded state view of the second surface plate of the present invention (the dashed line in the figure indicates the crease position).

Detailed Description

The present invention will be described in further detail with reference to examples and drawings, but embodiments of the present invention are not limited thereto.

Referring to fig. 1-9, a reinforced stainless steel cabinet panel of the present invention includes a first surface plate 10, a second surface plate 20, a honeycomb mesh 81, and a reinforcing component;

cutting the first surface board 10 to form a middle rectangular part 11 and four convex parts, wherein the four convex parts are respectively arranged around the middle rectangular part 11;

bending the four convex parts respectively to obtain rectangular side walls 12 and isosceles trapezoid connecting strips 13 respectively, and welding the inner sides of the splicing seams of the four convex parts;

the second surface plate 20 is welded and fixed with the four connecting strips 13 respectively, so that the first surface plate 10 and the second surface plate 20 are fixed into a hollow cuboid which is provided with an inner cavity;

the honeycomb mesh 81 is placed in the cavity, and one face thereof is bonded to the surface of the intermediate rectangular portion 11;

the reinforcement components are placed in the inner cavity and respectively abutted against the inner wall of the inner cavity;

the reinforcement assembly comprises a first steel pipe 41, a second steel pipe 42 and a butt joint steel block 30; two crisscross step holes are formed in the butt joint steel block 30, one end of the first steel pipe 41 is abutted against the large end B1 of one step hole, and one end of the second steel pipe 42 is abutted against the large end B1 of the other step hole; the butt-joint steel block 30 is abutted to the corner of the inner cavity, the other end of the first steel pipe 41 is abutted to the side wall 12 of the inner cavity, and the other end of the second steel pipe 42 is abutted to the other side wall 12 of the inner cavity, so that the first steel pipe 41 and the second steel pipe 42 are vertically placed.

According to the reinforced stainless steel cabinet board, the first surface plate 10 is enclosed into a frame structure, the frame structure is sealed through the second surface plate 20, so that the first surface plate 10 and the second surface plate 20 form a cuboid shell with an inner cavity, a honeycomb grid 81 is placed in the middle of the inner cavity of the shell, and a reinforcing component is placed in the inner cavity and located on the periphery of the honeycomb grid 81.

In the preferred embodiment of the present invention, cylindrical supporting steel columns are movably disposed in the first steel pipe 41 and the second steel pipe 42, respectively, and the outer diameters of the supporting steel columns are smaller than the inner diameters of the first steel pipe 41 and the second steel pipe 42.

In the preferred embodiment of the present invention, the inner diameter of the first steel pipe 41 and the inner diameter of the second steel pipe 42 are equal.

In the preferred embodiment of the present invention, the end surfaces of the large ends B1 of the two stepped holes of the butt steel block 30 are far from the junction of the two stepped holes. The step hole has two parts, one is the macropore that the diameter is great and length is shorter, and one is the aperture B2 that the diameter is less and length is longer, and the macropore corresponds to be formed with big end B1 and big end B1 terminal surface, and big end B1 terminal surface is the excessive step face of macropore and aperture B2.

In the preferred embodiment of the present invention, the two side walls 12 of the first surface plate 10 are respectively provided with a through hole a, and the two through holes a are located at the butting steel block 30 and respectively butt-jointed with the small ends of the two step holes;

the first surface plate 10 is further provided with two other through holes a, which are respectively located at the other end of the first steel pipe 41 and the other end of the second steel pipe 42, and are respectively in butt joint with the first steel pipe 41 and the second steel pipe 42.

Further, the inner diameter of the through hole A is equal to the inner diameter of the small hole B2.

The through hole a is provided so that the first steel pipe 41 and the second steel pipe 42 can allow the wires to pass through, thereby better realizing hiding and embedding of the wires. In some embodiments, the through hole a may be preset, or may be opened by a user during assembly.

In a preferred embodiment of the present invention, one edge of the butt-joined steel block 30 is formed with an arc-shaped chamfer C facing the splice seam of the two side walls 12. The arc chamfer C makes the edges of the abutting steel block 30 overly rounded, avoiding direct contact with the right angle pinch of the two side walls 12. Since the right angle corner formed by the two side walls 12 cannot be secured in its vertical extent, it is more advantageous to provide an arc-shaped chamfer C in order to secure a high degree of adhesion of the two sides of the butt-joint block 30 to the two side walls 12.

In a preferred embodiment of the present invention, an inner fold strip 13 is further formed on the convex portion of the first surface plate 10, and the inner fold strip 13 is bent with respect to the connecting strip 13 and faces the middle rectangular portion 11;

the second surface plate 20 is formed with a rectangular plate 21 and four side folding strips 22, the four side folding strips 22 are respectively positioned on four sides of the rectangular plate 21, and the side folding strips 22 are bent relative to the rectangular plate 21;

in some examples, four sides of the middle rectangular portion 11 are welded and fixed with four sides of the rectangular plate 21, respectively; in other examples, the engagement bar 13 is welded to the side flap 22.

In still other examples, four sides of the middle rectangular portion 11 are welded to four sides of the rectangular plate 21, respectively, and the engagement strip 13 is welded to the side folding strip 22.

By providing the inner fold 13 on the first surface plate 10 and providing the side fold 22 on the second surface plate 20, both the inner fold 13 and the side fold 22 can be understood to be folded inwards when assembled, towards the middle rectangular portion 11 of the first surface plate 10. So that the first surface plate 10 and the outer side of the second surface plate 20 form a plane after the welding is completed.

In a preferred embodiment of the present invention, the reinforcing assembly further comprises two reinforcing steel bars 70, one ends of the two reinforcing steel bars 70 crossing;

two of the reinforcing steel bars 70 are placed in the inner cavities, respectively;

the two ends of the reinforcing steel bar 70 are respectively abutted against the two side walls 12; the other end of the first steel pipe 41 penetrates one of the reinforcing steel bars 70, and the other end of the second steel pipe 42 penetrates the other reinforcing steel bar 70.

The reinforcing steel bars 70 are provided to secure structural reinforcement effects of the other two sides of the housing, which are symmetrical to the reinforcement of the first steel pipe 41 and the second steel pipe 42.

The reinforcing steel bars 70 may be sheet, columnar, or tubular.

When the reinforcing steel bar 70 is provided and the first steel pipe 41 and the second steel pipe 42 are inserted, a circular hole is first formed in the reinforcing steel bar 70, then the first steel pipe 41 or the second steel pipe 42 is inserted through the circular hole, and then the end of the reinforcing steel bar 70 is abutted against the side wall 12.

For convenient placement, the two reinforcing steel bars 70 are respectively provided with a splicing groove at one end which is intersected, one splicing groove of one reinforcing steel bar 70 is downward, and the other splicing groove of the other reinforcing steel bar 70 is upward, and the two splicing grooves are butted, so that the two reinforcing steel bars 70 are intersected and spliced.

In a preferred embodiment of the present invention, the reinforcement assembly further comprises a square first reinforcement rib 50 and a square second reinforcement rib;

a first reinforcing rib plate 50 is respectively sleeved on the first steel pipe 41 and the second steel pipe 42, and the second reinforcing rib plate (not shown, reference may be made to the sleeved position and method of the first reinforcing rib plate) is respectively sleeved on the two reinforcing steel bars 70;

and the first steel pipe 41 and the second steel pipe 42 are welded and fixed to the first reinforcing rib plate 50, respectively, and the reinforcing steel bar 70 is welded and fixed to the second reinforcing rib plate.

The reinforcing rib is provided to improve the connection strength and support stability between the first and second steel pipes 41 and 42 and the housing, since the first and second steel pipes 41 and 42 mainly support the acting force in the axial direction, and the reinforcing rib is provided to strengthen the supporting force in the radial direction and the housing.

In a preferred embodiment of the present invention, the reinforcement assembly further includes a rubber strip 60, and the section of the rubber strip 60 is square;

one of the rubber strips 60 is wrapped on the first steel pipe 41, and the other rubber strip 60 is wrapped on the second steel pipe 42;

three side surfaces of the two rubber strips 60 are respectively abutted against the first surface plate 10;

the width of the adhesive strip 60 is larger than the width of the engagement strip 13.

In some examples, when no reinforcing ribs are provided, the adhesive tape 60 wraps around the entire first steel pipe 41 and the entire second steel pipe 42, respectively; in other examples, when the reinforcing ribs are provided, the adhesive tape 60 is divided into multiple sections and then sequentially sleeved on the first steel pipe 41 and the second steel pipe 42, and the number of the sections of the adhesive tape 60 is matched with the number of the reinforcing ribs so as to ensure that the adhesive tape 60 is sleeved on the whole first steel pipe 41 as much as possible and the adhesive tape 60 is sleeved on the whole second steel pipe 42 as much as possible. For example, taking the first steel pipe 41 provided with a reinforcing rib plate as an example, two sections of adhesive tapes 60 are sleeved on the outer wall of the first steel pipe 41, and the two sections of adhesive tapes 60 are bounded by the reinforcing rib plate.

In a preferred embodiment of the present invention, a grid splint 82 is also included; two grid clamping plates 82 clamp the honeycomb grid 81 from two sides respectively, and two open ends of the honeycomb grid 81 face the two grid clamping plates 82 respectively;

one side of the honeycomb mesh 81 is adhered and fastened to the middle rectangular part 11 by one of the mesh clamping plates 82; the other side of the honeycomb mesh 81 is fastened against the second surface plate 20 by another mesh clamping plate 82.

The cell clamping plates 82 are provided to improve the stability and support strength of the honeycomb cell 81.

Further, the cell plate 82 and the honeycomb cell 81 together form a prior art honeycomb panel.

In a preferred embodiment of the present invention, the inner diameters of the first steel pipe 41 and the second steel pipe 42 are respectively greater than 3mm. This size is required to ensure that the wire can conveniently pass through the first steel pipe 41 and the second steel pipe 42. In order to avoid a thicker shell after molding, the outer diameters of the first steel pipe 41 and the second steel pipe 42 are preferably smaller than 10 mm.

In a preferred embodiment of the present invention, the wall thickness of the first surface plate 10 is 3mm or more, and the wall thickness of the second surface plate 20 is 3mm or more.

In the preferred embodiment of the present invention, the first surface board 10 and the second surface board 20 are respectively bent by bending machine to respectively form the connecting strip 13, the side folding strip 22 and the inner folding strip 13.

The reinforced stainless steel cabinet board provided by the invention has the characteristics of simple appearance and high integration degree through the shell formed by the first surface board 10 and the second surface board 20, compared with the traditional wood board, the reinforced stainless steel cabinet board has the advantages that the outline of the appearance has no obvious splice seam, and when the reinforced stainless steel cabinet board is used as a cabinet board, the second surface board 20 is usually arranged on the back side, so that the first surface board 10 is arranged on the front side in a use state, no splice seam is visible, and the appearance has very strong integration. And the integral characteristic ensures that the whole shell has high structural stability and strength.

In addition, the structural stability of the interior of the housing is enhanced by two parts, one by the honeycomb mesh 81 and the other by the reinforcement assembly.

The honeycomb mesh 81 achieves stability and strength assurance of the cavity between the first surface plate 10 and the second surface plate 20. The reinforcement assembly achieves a stiffening of the structural stability at the edges of the housing and makes the support and force conduction between the two side walls 12 more numerous, so that the force conduction is more dispersed and the support effect of the housing is better.

Furthermore, the shell is guaranteed in supporting strength of edges through the connecting strips 13, the side walls 12 and the reinforcing components, so that the pressure support along the length direction of the shell is stronger, and the shell is harder to deform.

Finally, as the through hole A is formed, the wire of the lamp strip or the lamp bead can conveniently pass through the through hole A and then is placed into the first steel pipe 41 or the second steel pipe 42; even, it is possible to pass through one through hole a and the first steel pipe 41 or the second steel pipe 42 and then pass through the other through hole a, thereby realizing hidden penetration of the wires from the inside of the cabinet plate and maintaining the cleanliness of the cabinet body.

The foregoing is illustrative of the present invention, and is not to be construed as limiting thereof, but rather as merely providing for the purpose of teaching herein before described various modifications, alternatives, variations and alternatives, as well as variations and alternatives, without departing from the spirit and principles of the invention.

Claims (9)

1. A reinforced stainless steel cabinet plate is characterized in that: comprises a first surface plate, a second surface plate, a honeycomb grid and a reinforcing component;

cutting the first surface plate to form a middle rectangular part and four convex parts, wherein the four convex parts are respectively arranged around the middle rectangular part;

bending the four convex parts respectively to obtain rectangular side walls and isosceles trapezoid connecting strips respectively, and welding the inner sides of the splicing seams of the four convex parts;

the second surface plate is welded and fixed with the four connecting strips respectively, so that the first surface plate and the second surface plate are fixed into a hollow cuboid which is provided with an inner cavity;

the honeycomb mesh is placed in the inner cavity, and one surface of the honeycomb mesh is adhered to the surface of the middle rectangular part;

the reinforcement components are placed in the inner cavity and respectively abutted against the inner wall of the inner cavity;

the reinforcing component comprises a first steel pipe, a second steel pipe and a butt joint steel block; two crisscross step holes are formed in the butt joint steel block, one end of the first steel pipe is abutted to the large end of one step hole of the first steel pipe, and one end of the second steel pipe is abutted to the large end of the other step hole; the butt joint steel block is abutted to the corner of the inner cavity, the other end of the first steel pipe is abutted to the side wall of the inner cavity, and the other end of the second steel pipe is abutted to the other side wall of the inner cavity, so that the first steel pipe and the second steel pipe are vertically placed.

2. A reinforced stainless steel cabinet panel as claimed in claim 1, wherein: two side walls of the first surface plate are respectively provided with a through hole, and the two through holes are positioned at the butt joint steel block and respectively butt-joint with the small ends of the two step holes;

the first surface plate is also provided with two other through holes which are respectively positioned at the other end of the first steel pipe and the other end of the second steel pipe, and the two through holes are respectively in butt joint with the first steel pipe and the second steel pipe.

3. A reinforced stainless steel cabinet panel as claimed in claim 2, wherein: an arc chamfer is formed at one edge of the butt joint steel block, and the arc chamfer faces to the splicing seam of the two side walls.

4. A reinforced stainless steel cabinet panel as claimed in claim 2, wherein: an inner folding strip is also formed on the convex part of the first surface plate, is bent relative to the connecting strip and faces the middle rectangular part;

the second surface plate is provided with a rectangular plate and four side folding strips, the four side folding strips are respectively positioned on four sides of the rectangular plate, and the side folding strips are bent relative to the rectangular plate;

the four sides of the middle rectangular part are respectively welded and fixed with the four sides of the rectangular plate, or the connecting strip is welded and fixed with the side folding strip.

5. A reinforced stainless steel cabinet panel as claimed in claim 2, wherein: the reinforcing assembly further comprises two reinforcing steel bars, and one ends of the two reinforcing steel bars are crossed;

the two reinforcing steel bars are respectively placed in the inner cavity;

the two ends of the reinforcing steel bar are respectively abutted against the two side walls; the other end of the first steel pipe penetrates through one reinforcing steel bar, and the other end of the second steel pipe penetrates through the other reinforcing steel bar.

6. A reinforced stainless steel cabinet panel as set forth in claim 4, wherein: the reinforcing component further comprises square first reinforcing rib plates and square second reinforcing rib plates;

the first steel pipe and the second steel pipe are respectively sleeved with a first reinforcing rib plate, and the two reinforcing steel bars are respectively sleeved with a second reinforcing rib plate;

and the first steel pipe and the second steel pipe are respectively welded and fixed with the first reinforcing rib plate, and the reinforcing steel bar is welded and fixed with the second reinforcing rib plate.

7. A reinforced stainless steel cabinet panel as set forth in claim 6, wherein: the reinforcing component further comprises an adhesive tape, and the section of the adhesive tape is square;

one of the adhesive tapes is wrapped on the first steel pipe, and the other adhesive tape is wrapped on the second steel pipe;

three side surfaces of the two adhesive tapes are respectively abutted with the first surface plate;

the width of the adhesive tape is larger than that of the connecting strip.

8. A reinforced stainless steel cabinet panel as claimed in any one of claims 1 to 7, wherein: the device also comprises a grid clamping plate; two grid clamping plates respectively clamp the honeycomb grid from two sides, and two ends of an opening of the honeycomb grid face the two grid clamping plates respectively;

one side of the honeycomb grid is stuck and fastened on the middle rectangular part through one grid clamping plate; the other side of the honeycomb grid is fastened and abutted on the second surface plate through the other grid clamping plate.

9. A reinforced stainless steel cabinet panel as claimed in claim 8, wherein: the inner diameters of the first steel pipe and the second steel pipe are respectively larger than 3mm.