CN116658498A - Method for installing stainless steel cabinet - Google Patents

Abstract

The method for installing the stainless steel cabinet comprises the following steps: s10, arranging a splicing assembly and a plastic clamping and closing strip; s20, respectively machining grooves on four side surfaces of the stainless steel cabinet plate, wherein the cross section of the grooves comprises a round part and a rectangular part; s30, assembling the clamping closing-in strip in the circular part of the groove, and butting and fastening the splicing component and the clamping closing-in strip; s40, performing 45-degree angle cutting on the overlapped part when the splicing components are intersected so as to cut off the overlapped part; s50, assembling the cabinet body; s60, after the cabinet body is spliced, spot welding is carried out on the splicing seams among the stainless steel cabinet plates through a laser welding device. According to the mounting method of the stainless steel cabinet, the stainless steel cabinet plate can be manufactured in a modularized mode instead of being manufactured in a simple customized mode, so that the processing efficiency is improved, the assembly efficiency is improved, and the connection stability of the whole cabinet body is improved.

Description

Method for installing stainless steel cabinet

Technical Field

The invention relates to the technical field of houses, in particular to a method for installing a stainless steel cabinet.

Background

Conventional furniture is classified into panel furniture and solid wood furniture.

The board furniture, also called artificial board furniture, is made of artificial boards (including plain and facing artificial boards) such as fiber board, shaving board, plywood, joinery board, laminated timber and the like. The plate furniture is formed by connecting all the artificial plates with hardware through surface decoration, and has the basic characteristics of detachability, rich change of shape, fashionable appearance, difficult deformation, stable quality, low price and the like. The main parts of the wooden furniture are wooden furniture which is made of wooden materials, is faced by a (or non-processed) wooden veneer or veneer, and is subjected to (or non-processed) coating treatment. The solid wood material comprises log, solid wood sawn timber, finger joint timber, integrated timber and other materials. The solid wood furniture refers to furniture made of solid wood. Generally, solid wood furniture is classified into pure solid wood furniture and full solid wood furniture.

For these conventional furniture products, the panel-to-panel fastening and assembly may be performed by drilling, nailing, gluing, etc. into the panel. However, these methods of assembly and installation are not suitable for use on cabinet panels made of stainless steel.

Because the main structure of the stainless steel cabinet plate is made of stainless steel, aluminum honeycombs are filled in the main structure, the characteristics of hard materials, different hardness between the shell and the inside of the shell, difficult punching, different internal and external densities and the like exist, so that the conventional plate assembly method cannot be directly applied to stainless steel plate furniture, the stainless steel plate furniture belongs to a brand new field, the current main stream assembly mode is to preset hole sites in factories and pre-buried assembly fittings, and the mode has high requirements on the precision of processing, the accuracy of processing assembly and the difficulty.

Disclosure of Invention

The invention aims to overcome the defects of the prior art, provides a mounting method of a stainless steel cabinet, reduces the difficulty in assembling stainless steel plates and can adjust the relative assembling positions between the plates.

In one technical scheme of the invention, a method for installing a stainless steel cabinet is provided, which comprises the following steps:

s10, arranging a splicing assembly and a plastic clamping and closing strip;

the splicing assembly comprises a cross splicing piece, a three-fork splicing piece and an end splicing piece; the cross splice is used for connecting four plates when the plates are spliced, the three-fork splice is used for connecting three stainless steel cabinet plates when the plates are spliced, and the end splice is used for connecting a top plate or a bottom plate with a side plate; the cross splice, the three-fork splice and the end splice are respectively made of stainless steel;

the clamping and closing strip is used for connecting and fastening the splicing assembly and the stainless steel cabinet plate in a matched manner;

s20, respectively machining grooves on four side faces of the stainless steel cabinet plate, wherein the cross section of the grooves comprises round parts and rectangular parts, the round parts of the grooves are close to the center of the stainless steel cabinet plate, and the rectangular parts are close to the side edges of the stainless steel cabinet plate;

s30, assembling the clamping closing-in strip in the circular part of the groove, and butting and fastening the splicing component and the clamping closing-in strip;

s40, performing 45-degree angle cutting on the overlapped part when the splicing components are intersected so as to cut off the overlapped part;

s50, assembling the cabinet body;

s60, after the cabinet body is spliced, spot welding is carried out on the splicing seams among the stainless steel cabinet plates through a laser welding device.

In a further technical scheme, the section of the clamping closing strip is circular, and a rectangular nested groove is formed towards the outer wall of the clamping closing strip;

when the clamping closing-in strip is assembled on the round part of the groove, the opening direction of the nesting groove faces to the rectangular part of the groove.

In a further technical scheme, the cross section of the cross splicing piece is in a cross shape, and two cross long sides and two cross short sides are formed and are symmetrically distributed, and the two cross long sides and the two cross short sides are symmetrically distributed;

the tail ends of the two cross long sides and the tail ends of the two cross short sides are respectively used for being tightly assembled and connected with the nesting grooves of the clamping and opening closing strip.

In a further technical scheme, the cross section of the three-fork splicing piece is inverted T-shaped, two symmetrical sides of the three-fork splicing piece are three-fork short sides, and the other side of the three-fork splicing piece is a three-fork long side; the long side of the three fork is vertical to the short side of the three fork;

and the tail ends of the two three-fork short sides and the tail ends of the three-fork long sides are respectively used for being tightly assembled and connected with the nesting grooves of the clamping and closing strip.

In a further technical scheme, the section graph of the end splicing piece is special-shaped, and the special shape comprises a long transverse edge, a short transverse edge, a first vertical edge and a second vertical edge;

two ends of the second vertical edge are fixedly connected with one end of the long transverse edge and one end of the short transverse edge respectively, and the long transverse edge and the short transverse edge are arranged on two sides of the second vertical edge respectively; one end of the first vertical edge is fixed at the midpoint of the long transverse edge;

the first vertical edge is equal in length to the second vertical edge;

the other end of the first vertical edge and the other end of the short transverse edge are respectively used for being tightly assembled and connected with the nesting groove of the clamping and opening closing strip.

In a further technical scheme, the wall thicknesses of the cross splice, the three-fork splice and the end splice are respectively equal to the width of the groove;

the width of the nested groove is equal to the width of the groove;

the diameter of the circular portion of the groove is greater than the width of the rectangular portion.

In a further technical scheme, a sealing strip is arranged, and is used for sealing the front side surface of the stainless steel cabinet plate so as to enable the front side of the stainless steel cabinet plate to be flat;

and (3) setting a position supplementing strip, and sleeving the position supplementing strip on the splicing assembly to fill gaps between the stainless steel cabinet plates.

In a further technical scheme, in step S50, the assembling of the cabinet body includes:

forming positioning convex strips on the backboard;

the side plates, the partition plates, the top plate and the bottom plate are respectively arranged on the back plate and are mutually assembled and fastened;

gluing the splicing seams of the side plates, the partition plates, the top plate, the bottom plate and the back plate respectively; gluing the splicing seams among the side plates, the partition plates, the top plate and the bottom plate respectively;

installing a cabinet door plate and a sealing strip.

In a further technical scheme, after step S60, the method further includes the steps of: the steel sheet is used for welding and fixing the two sides of the splicing seam at the top and the bottom of the cabinet body in a welding mode, so that the connection stability of the top and the bottom of the cabinet body is enhanced.

In a further technical scheme, the wall thickness of the side plate, the partition plate, the top plate and the bottom plate is equal;

the length of the long side of the splicing component is twice that of the short side.

The beneficial effects are that:

compared with the existing stainless steel cabinet body installation method, the stainless steel cabinet installation method improves the structure and the connection mode of cabinet plates, changes the assembly method, achieves the purposes of improving production efficiency and assembly efficiency, and more importantly, facilitates processing and improves processing efficiency.

According to the installation method of the stainless steel cabinet, the splicing assembly is arranged, the plurality of stainless steel cabinet plates are spliced through the splicing assembly, the cross splicing piece is used for splicing the four stainless steel cabinet plates, the three-fork splicing piece is used for splicing the three stainless steel cabinet plates, and the end splicing piece is used for splicing the two stainless steel cabinet plates, so that convenience in assembly and connection are realized, and connection stability is guaranteed. Because the stainless steel cabinet board is different from the plank of the prior art, the material of plank is more soft than the material of corrosion resistant plate, so the trompil is easy on the plank, and the gluing is also easy, but the trompil is difficult on the corrosion resistant plate, and adhesive connection stability is not strong, so can not directly adopt the concatenation and the assembly mode of plank. In addition, in order to realize convenient transportation, the existing stainless steel cabinet plates are required to be prepared and customized independently, and each positioning hole, each mounting hole and the like are prepared on each plate, so that the requirements on prefabricated drawing content are high, the design content is high, the processing content is high, and therefore the working procedure and the difficulty are complex and difficult. By adopting the method, the preparation and assembly of the stainless steel cabinet body become modularized as much as possible, thereby simplifying the processing procedure, facilitating the installation and improving the processing and installation efficiency.

Drawings

FIG. 1 is a schematic perspective view of a cabinet body of the present invention;

FIG. 2 is a schematic perspective view of a back plate according to the present invention;

FIG. 3 is a side view of a stainless steel cabinet panel (with a partially enlarged structure) of the present invention;

FIG. 4 is a schematic perspective view of a stainless steel cabinet plate of the present invention;

FIG. 5 is a front view of a cross splice of the present invention;

FIG. 6 is a schematic perspective view of a cross splice of the present invention;

FIG. 7 is a front view of the cross splice of the present invention assembled with a clamping bead;

FIG. 8 is a schematic perspective view of the cross splice and clamping bead assembly of the present invention;

FIG. 9 is a schematic view of the cross splice of the present invention in use;

FIG. 10 is a front view of a trifurcated splice of the present invention;

FIG. 11 is a schematic perspective view of a three-prong splice of the present invention;

FIG. 12 is a schematic view of the use of the trifurcated splice of the present invention;

FIG. 13 is a front view of an end splice of the present invention;

FIG. 14 is a front view of the end fitting of the present invention assembled with a clamping bead;

FIG. 15 is a schematic perspective view of an end splice and clamping bead assembly of the present invention;

fig. 16 is a schematic view of the end fitting of the present invention in use.

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 to 16, the method for installing a stainless steel cabinet of the present invention includes the steps of:

s10, arranging a splicing assembly and a plastic clamping and closing strip B;

the splicing assembly comprises a cross splicing piece 30, a three-fork splicing piece 40 and an end splicing piece 50; the cross splice 30 is used for connecting four plates when the plates are spliced, the three-fork splice 40 is used for connecting three stainless steel cabinet plates 20 when the plates are spliced, and the end splice 50 is used for connecting the top plate 12 or the bottom plate 13 with the side plate 11; the cross splice 30, the three-fork splice 40 and the end splice 50 are respectively made of stainless steel;

the clamping and closing strip B is used for connecting and matching and fastening the splicing assembly and the stainless steel cabinet plate 20;

s20, grooves A are respectively machined on four side surfaces of the stainless steel cabinet plate 20, wherein the cross section of each groove A comprises a round part A2 and a rectangular part A1, the round part A2 of each groove A is close to the center of the stainless steel cabinet plate 20, and the rectangular part A1 is close to the side edge of the stainless steel cabinet plate 20;

s30, assembling the clamping closing strip B in a round part A2 of the groove A, and butt-jointing and fastening the splicing component and the clamping closing strip B;

s40, performing 45-degree angle cutting on the overlapped part when the splicing components are intersected so as to cut off the overlapped part;

s50, assembling the cabinet body;

and S60, after the cabinet body is spliced, spot welding is carried out on the splicing seams between the stainless steel cabinet plates 20 through a laser welding device.

In some preferred embodiments, in step S50, the assembling the cabinet includes:

forming positioning convex strips 15 on the backboard 10;

the side plate 11, the partition plate 14, the top plate 12 and the bottom plate 13 are respectively arranged on the back plate 10 and are mutually assembled and fastened;

gluing the splicing seams of the side plate 11, the partition plate 14, the top plate 12, the bottom plate 13 and the back plate 10 respectively; gluing the splicing seams among the side plates 11, the partition plates 14, the top plate 12 and the bottom plate 13 respectively;

a cabinet door panel (not shown) and a sealing strip (not shown) are installed.

Further, the sealing strip is in an inverted T shape and is used for sealing a groove A on a plate on the front side of the cabinet body, so that the front side of the cabinet body is flush. The arrangement of the sealing strips ensures the appearance beauty and consistency of the cabinet body, and enables the stainless steel cabinet plate 20 to be directly molded into the grooves A on four sides during processing, so that the problem of installation orientation of the stainless steel cabinet plate 20 is not considered, one groove A is additionally arranged, the process difficulty and the design requirement are simplified, the processing efficiency is improved, and the modularization and the simplicity in installation of the stainless steel cabinet plate 20 are realized.

In addition, the grooves A are also beneficial to improving the supporting strength of the four edges of the stainless steel cabinet plate 20, because the surface area is increased, and the supporting columns on the side surfaces are correspondingly increased, so that the supporting effect of the side surfaces of the cabinet plate is improved.

In some preferred embodiments, the section of the clamping and crimping strip B is circular, and a rectangular nesting groove (not identified) is formed towards the outer wall of the clamping and crimping strip B;

when the clamping and crimping strip B is assembled on the circular part A2 of the groove A, the opening direction of the nesting groove faces the rectangular part A1 of the groove A.

The nesting grooves are formed for assembling the splicing assembly, and are further used for providing deformability when the clamping closing strip B is assembled into the groove A, so that the clamping closing strip B is conveniently embedded into the circular part A2 of the groove A.

In some preferred embodiments, the cross-shaped splicing element 30 has a cross-shaped cross section, and forms two cross long sides 31 and two cross short sides 32, wherein the two cross long sides 31 are symmetrically distributed, and the two cross short sides 32 are symmetrically distributed;

the ends of the two cross long sides 31 and the ends of the two cross short sides 32 are respectively used for being tightly assembled and connected with the nesting grooves of the clamping and opening closing strip B.

In some preferred embodiments, the cross section of the three-fork splicing member 40 is in an inverted-T shape, two symmetrical sides thereof are three-fork short sides 42, and the other side is three-fork long sides 41; the three-fork long side 41 is vertical relative to the three-fork short side 42;

the tail ends of the two three-fork short sides 42 and the tail ends of the three-fork long sides 41 are respectively used for being tightly assembled and connected with the nesting grooves of the clamping and opening closing strip B.

In some preferred embodiments, the cross-sectional profile of the end splice 50 is shaped, the profile including a long transverse edge 53, a short transverse edge 54, a first vertical edge 51, and a second vertical edge 52;

two ends of the second vertical edge 52 are fixedly connected with one end of the long transverse edge 53 and one end of the short transverse edge 54 respectively, and the long transverse edge 53 and the short transverse edge 54 are arranged on two sides of the second vertical edge 52 respectively; one end of the first vertical edge 51 is fixed at the midpoint of the long transverse edge 53;

the first vertical edge 51 is equal in length to the second vertical edge 52;

the other end of the first vertical edge 51 and the other end of the short transverse edge 54 are respectively used for being tightly assembled and connected with the nesting groove of the clamping and opening closing strip B.

Further, the short lateral side 54, the first vertical side 51, and the second vertical side 52 are equal in length, and the long lateral side 53 is twice as long as the short lateral side 54.

Further, in step S30, the splicing assembly is butt-fastened to the clamping and crimping strip B, which is divided into three cases. The cross splice 30 is that the cross long side 31 or the cross short side 32 is tightly assembled with the nesting groove of the clamping and opening closing strip B. The three-fork splicing piece 40 means that the three-fork long side 41 or the three-fork short side 42 is tightly assembled with the nesting groove of the clamping and crimping strip B. For the end splice 50, it is meant that the first vertical edge 51 or the short lateral edge 54 fits tightly into the nest of the clamping bead B.

In the present invention, the terms "side", "long side", "short side", and the like, which are used to describe the concept of a two-dimensional plane, mean both the concept of a two-dimensional plane when a cross-sectional view is described and the meaning of a three-dimensional structure corresponding to the two-dimensional plane, and are used to simplify the description, and therefore "side" cannot be simply understood as a two-dimensional plane as known in the conventional art. For example, the long side of the cross-shaped spliced member 30 indicates not only the longer side in the cross-sectional view of the cross-shaped spliced member 30 but also a sheet corresponding to the longer side in the longitudinal direction of the cross-shaped spliced member 30. Since the lengths of the cross splice 30, the trifurcate splice 40 and the end splice 50 are generally equal and show no difference in terms of the lengths, the references to the cross splice 30, the trifurcate splice 40 and the end splice 50 can be clearly and clearly expressed by the expression of the edges.

In some preferred embodiments, the overlapping portion described in step S40 is divided into three cases, respectively: the cross splice 30 overlaps the positioning ribs 15 of the back plate 10, the three-prong splice 40 overlaps the positioning ribs 15 of the back plate 10, and the end splice 50 overlaps the positioning ribs 15 of the back plate 10. It should be noted that, in the present invention, the cross-shaped splicing element 30, the three-fork splicing element 40 and the end splicing element 50 are respectively parallel to each other, or at least one surface of the three surfaces are parallel to each other, so that the three surfaces are not crossed in the present invention, that is, there is no possibility of overlapping.

When the cross splice 30 and the positioning convex strip 15 have overlapping portions, 45 ° angle cuts are respectively performed on the end portions of the two long sides 31 and the end portions of the two short sides 32 of the cross, and simultaneously 45 ° angle cuts are performed on the positioning convex strip 15 of the overlapping portion of the cross splice 30, so that the cross splice 30 and the positioning convex strip 15 are in oblique contact and abut.

When the three-fork splicing member 40 and the positioning convex strip 15 have overlapping parts, the end part of the three-fork long edge 41 is cut at an angle of 45 degrees, and meanwhile, the positioning convex strip 15 overlapped with the three-fork long edge 41 is cut at an angle of 45 degrees, so that the three-fork long edge 41 and the positioning convex strip 15 are in oblique contact.

When the end splice 50 and the positioning convex strip 15 have overlapping portions, the first vertical edge 51 and the short lateral edge 54 thereof are respectively cut at an angle of 45 degrees, and simultaneously the positioning convex strip 15 overlapped with the first vertical edge 51 and the short lateral edge 54 are cut at an angle of 45 degrees, so that the first vertical edge 51 and the positioning convex strip 15 are in oblique contact, and the short lateral edge 54 and the positioning convex strip 15 are in oblique contact.

In some preferred embodiments, the three long sides 31, 41, 53 are equal in length; the cross short side 32, the three-fork short side 42, the short transverse side 54, the first vertical side 51 and the second vertical side 52 are equal in length.

In some preferred embodiments, the wall thickness of the cross splice 30, the trifurcate splice 40, the end splice 50 are each equal to the width of the groove a;

the width of the nesting groove is equal to that of the groove A;

the diameter of the circular portion A2 of the groove a is larger than the width of the rectangular portion A1.

Further, the cross long side 31, the cross short side 32, the three-fork long side 41, the three-fork short side 42, the long transverse side 53, the short transverse side 54, the first vertical side 51 and the second vertical side 52 are made of stainless steel bars with the same thickness, so that the wall thicknesses of the cross long side 31, the three-fork short side 42, the long transverse side 53, the short transverse side 54 and the first vertical side 51 are equal. Preferably, the wall thickness is in the range of 3mm to 5 mm.

In some preferred embodiments, a sealing strip is provided for sealing the front side of the stainless steel cabinet plate 20 so that the front side of the stainless steel cabinet plate 20 is flat;

a repair bar (not shown) is provided and is sleeved on the splice assembly to fill the gap between the stainless steel cabinet panels 20.

In some preferred embodiments, after step S60, the method further comprises the steps of: the steel sheet is used for welding and fixing the two sides of the splicing seam at the top and the bottom of the cabinet body in a welding mode, so that the connection stability of the top and the bottom of the cabinet body is enhanced.

In some preferred embodiments, the wall thickness of the side panels 11, the partition 14, the top panel 12, the bottom panel 13 are equal;

the length of the long side of the splicing component is twice that of the short side.

In some preferred embodiments, to ensure that the clamping bead B fits well within the groove a, the clamping bead B is shorter in length than the groove a in which it fits. In addition, one groove a on the same stainless steel cabinet plate 20 is crossed with two adjacent grooves a to form two crossing points, so that the length of the clamping closing strip B is preferably equal to the length between the two crossing points for better assembly.

Side plate 11, partition 14, top plate 12, bottom plate 13

In some preferred embodiments, a plurality of partitions 14 may be laid transversely between the vertical partitions 14 and the side plates 11, and the transverse partitions 14 may also be fixed between the vertical partitions 14 and the side plates 11 by welding, without the need for the above-mentioned splice assembly connection.

The side plates 11, the partition 14, the top plate 12 and the bottom plate 13 in the present invention are respectively obtained by placing the stainless steel cabinet plate 20 at a specified position, and the stainless steel cabinet plate 20 is the stainless steel cabinet plate 20, and the placement position is referred to as the placement position. For example, on the top surface of a cabinet, is referred to as the top panel 12.

According to the installation method of the stainless steel cabinet, the splicing assembly is arranged, the plurality of stainless steel cabinet plates 20 are spliced through the splicing assembly, the cross splicing piece 30 is used for splicing the four stainless steel cabinet plates 20, the three-fork splicing piece 40 is used for splicing the three stainless steel cabinet plates 20, and the end splicing piece 50 is used for splicing the two stainless steel cabinet plates 20, so that convenience in assembly and connection are realized, and connection stability is guaranteed. Because the stainless steel cabinet board 20 is different from the wood board in the prior art, the material of the wood board is much softer than that of the stainless steel board, so that the holes are easy to open on the wood board, the adhesion is easy, but the holes are not easy to open on the stainless steel board, the adhesion connection stability is not strong, and therefore, the splicing and assembly modes of the wood board cannot be directly adopted. In addition, in order to realize convenient transportation, the conventional stainless steel cabinet plate 20 needs to prepare and customize each plate separately, and prepare each positioning hole, mounting hole and the like on each plate, so that the requirements on the prefabricated drawing content are more, the design content is more, and the processing content is more, so that the procedures and the difficulties are complex and difficult. By adopting the method, the preparation and assembly of the stainless steel cabinet body become modularized as much as possible, thereby simplifying the processing procedure, facilitating the installation and improving the processing and installation efficiency.

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 (10)

1. The method for installing the stainless steel cabinet is characterized by comprising the following steps of:

s10, arranging a splicing assembly and a plastic clamping and closing strip;

the splicing assembly comprises a cross splicing piece, a three-fork splicing piece and an end splicing piece; the cross splice is used for connecting four plates when the plates are spliced, the three-fork splice is used for connecting three stainless steel cabinet plates when the plates are spliced, and the end splice is used for connecting a top plate or a bottom plate with a side plate; the cross splice, the three-fork splice and the end splice are respectively made of stainless steel;

the clamping and closing strip is used for connecting and fastening the splicing assembly and the stainless steel cabinet plate in a matched manner;

s20, respectively machining grooves on four side faces of the stainless steel cabinet plate, wherein the cross section of the grooves comprises round parts and rectangular parts, the round parts of the grooves are close to the center of the stainless steel cabinet plate, and the rectangular parts are close to the side edges of the stainless steel cabinet plate;

s30, assembling the clamping closing-in strip in the circular part of the groove, and butting and fastening the splicing component and the clamping closing-in strip;

s40, performing 45-degree angle cutting on the overlapped part when the splicing components are intersected so as to cut off the overlapped part;

s50, assembling the cabinet body;

s60, after the cabinet body is spliced, spot welding is carried out on the splicing seams among the stainless steel cabinet plates through a laser welding device.

2. A method of installing a stainless steel cabinet according to claim 1, wherein: the section of the clamping closing strip is circular, and a rectangular nested groove is formed towards the outer wall of the clamping closing strip;

when the clamping closing-in strip is assembled on the round part of the groove, the opening direction of the nesting groove faces to the rectangular part of the groove.

3. A method of installing a stainless steel cabinet according to claim 2, wherein: the cross section of the cross splicing piece is in a cross shape, and two cross long sides and two cross short sides are formed and are symmetrically distributed;

the tail ends of the two cross long sides and the tail ends of the two cross short sides are respectively used for being tightly assembled and connected with the nesting grooves of the clamping and opening closing strip.

4. A method of installing a stainless steel cabinet according to claim 2, wherein: the cross section of the three-fork splicing piece is inverted T-shaped, two symmetrical sides of the three-fork splicing piece are three-fork short sides, and the other side of the three-fork splicing piece is a three-fork long side; the long side of the three fork is vertical to the short side of the three fork;

and the tail ends of the two three-fork short sides and the tail ends of the three-fork long sides are respectively used for being tightly assembled and connected with the nesting grooves of the clamping and closing strip.

5. A method of installing a stainless steel cabinet according to claim 2, wherein: the section graph of the end splicing piece is shaped, and the shape comprises a long transverse edge, a short transverse edge, a first vertical edge and a second vertical edge;

two ends of the second vertical edge are fixedly connected with one end of the long transverse edge and one end of the short transverse edge respectively, and the long transverse edge and the short transverse edge are arranged on two sides of the second vertical edge respectively; one end of the first vertical edge is fixed at the midpoint of the long transverse edge;

the first vertical edge is equal in length to the second vertical edge;

the other end of the first vertical edge and the other end of the short transverse edge are respectively used for being tightly assembled and connected with the nesting groove of the clamping and opening closing strip.

6. A method of installing a stainless steel cabinet according to any one of claims 2 to 5, wherein: the wall thickness of the cross splice, the three-fork splice and the end splice is equal to the width of the groove respectively;

the width of the nested groove is equal to the width of the groove;

the diameter of the circular portion of the groove is greater than the width of the rectangular portion.

7. The method for installing a stainless steel cabinet according to claim 6, wherein: arranging a sealing strip, wherein the sealing strip is used for sealing the front side surface of the stainless steel cabinet plate so as to enable the front side of the stainless steel cabinet plate to be flat;

and (3) setting a position supplementing strip, and sleeving the position supplementing strip on the splicing assembly to fill gaps between the stainless steel cabinet plates.

8. The method for installing a stainless steel cabinet according to claim 6, wherein in step S50, the assembling the cabinet body comprises:

forming positioning convex strips on the backboard;

the side plates, the partition plates, the top plate and the bottom plate are respectively arranged on the back plate and are mutually assembled and fastened;

gluing the splicing seams of the side plates, the partition plates, the top plate, the bottom plate and the back plate respectively; gluing the splicing seams among the side plates, the partition plates, the top plate and the bottom plate respectively;

installing a cabinet door plate and a sealing strip.

9. The method of installing a stainless steel cabinet according to claim 6, further comprising, after step S60: the steel sheet is used for welding and fixing the two sides of the splicing seam at the top and the bottom of the cabinet body in a welding mode, so that the connection stability of the top and the bottom of the cabinet body is enhanced.

10. The method for installing a stainless steel cabinet according to claim 8, wherein wall thicknesses of the side plate, the partition plate, the top plate and the bottom plate are equal;

the length of the long side of the splicing component is twice that of the short side.