CN109322405A - A method of tenon structure is realized in hollow material - Google Patents

Abstract

The present invention provides a kind of in the method for realizing tenon structure on hollow material, in the present invention, tenon structure part includes annular substrates surface layer and mortise and tenon piece group, mortise and tenon piece group has including convex transitional end and sheet surface layer, annular substrates surface layer and mortise and tenon piece group are squeezed out respectively by the method for extruding, then mortise and tenon piece group is connected in composition tenon structure part in annular substrates surface layer, finally the annular substrates surface layer socket of tenon structure part is adhesively fixed in the building section surface of hollow profile part by the way of heat seal, quickly, easily tenon structure is realized on hollow profile part, the setting of annular substrates surface layer improves the stress bearing strength of hollow profile part, to after tenon structure installation, avoid the tearing of hollow profile part thin-walled or rupture.

Description

A method of tenon structure is realized in hollow material

[technical field]

The present invention relates to building structure fields, refer in particular to a kind of in the method for realizing tenon structure on hollow material.

[background technique]

Hollow structure material is mainly used for the industries such as building materials, furniture, logistics packaging, such as metal pipe material, Wood-plastic material, with wood For moulding material, Wood-plastic material is a kind of advanced composite material (ACM) that recent domestic is surging forward, and utilizes polyethylene, poly- third Alkene and polyvinyl chloride etc., instead of common resin adhesive, with the useless plant fiber such as wood powder, rice husk, stalk more than 50% or more New wood materials are mixed into, then through plastic processings such as extruding, molding, injection mouldings, the plate or profile produced.It is empty Core structure material is hollow structure since it is internal, and hollow plastic material is thin-wall construction, hardly possible before two hollow structure materials With nail system connection, when the thin-wall outer nail of hollow material is processed, all connection stress are all concentrated on nail system point, cause to answer Power is concentrated, and is easy to cause thin-walled to tear or rupture, therefore, hollow structure material not yet becomes the main material of building at present.

For above situation, it is intended that hollow material can be made for hollow material by realizing tenon structure To build main material application, such hollow material can welcome more extensive market, such as scenic spot building, small building, very To rural households' building etc. is applied to, therefore, applicant proposed a solution.

[summary of the invention]

It is a kind of in realization tenon structure on hollow material the purpose of the present invention is being to have overcome the deficiencies of the prior art and provide Method.

In order to solve above-mentioned technical problem, the present invention is adopted the following technical solutions:

A method of in realization tenon structure on hollow material, comprising the following steps:

STEP1: take hollow profile part as hollow material；

STEP2: a certain section of the hollow profile part building section as tenon structure is chosen；

STEP3: squeezing out one section of annular substrates surface layer by extrusion equipment, and the annular substrates surface layer is closed loop structure, and The size of the building section of the caliber size and hollow profile part of the inner ring of annular substrates surface layer is coincide；

STEP4: squeezing out mortise and tenon piece group by extrusion equipment, and the mortise and tenon piece group includes convex transitional end and sheet surface layer, The sheet surface layer is an integral molding structure with convex transitional end, and wherein one end end of the sheet surface layer is connected and fixed on convex The top and convex transitional end for playing transitioning end are integrally formed bending structure；

STEP5: card slot is milled out on one of face of annular substrates surface layer；

STEP6: the bottom at convex transitional end is caught in the card slot for being connected to annular substrates surface layer, and such sheet surface layer is with regard to parallel It is set to the top of annular substrates surface layer, and forms mortise and tenon between annular substrates surface layer and is clamped gap；

STEP6: the surface bonding of the inner ring of annular substrates surface layer and the building section of hollow profile part is connected by way of heat seal It connects, to realize tenon structure on hollow profile part；

STEP7: spare after inspection.

In further improvement project, STEP3A is additionally provided in STEP3 and STEP4: by the ring of the strip of extrusion forming Shape base facing is cut into the annular substrates surface layer of multistage as needed.

In further improvement project, STEP4A is additionally provided in STEP4 and STEP5: by the fourth of the twelve Earthly Branches of the strip of extrusion forming Tenon piece group is cut into the mortise and tenon piece group of multistage as needed.

In further improvement project, the hollow profile part is hollow metal part.

In further improvement project, the hollow profile part is wood moulding structural member.

Compared with prior art, the beneficial effects of the present invention are: in the present invention, tenon structure part includes annular substrates face Layer and mortise and tenon piece group, mortise and tenon piece group have including convex transitional end and sheet surface layer, squeeze out annular respectively by the method for extruding Then mortise and tenon piece group is connected in composition tenon structure part in annular substrates surface layer, finally used by base facing and mortise and tenon piece group The annular substrates surface layer socket of tenon structure part is adhesively fixed in the building section surface of hollow profile part, fastly by the mode of heat seal Speed easily realizes tenon structure on hollow profile part, and the setting of annular substrates surface layer improves the stress of hollow profile part Bearing strength, to avoid the tearing of hollow profile part thin-walled or rupture after tenon structure installation.

The present invention is described in further detail with specific embodiment with reference to the accompanying drawing:

[Detailed description of the invention]

Fig. 1 is the structural schematic diagram of tenon structure part and hollow profile part in the embodiment of the present invention；

Fig. 2 is the structural schematic diagram one of tenon structure part in the embodiment of the present invention；

Fig. 3 is the structural schematic diagram two of tenon structure part in the embodiment of the present invention；

Fig. 4 is the combination diagram of annular base facing and mortise and tenon piece group in the embodiment of the present invention.

[specific embodiment]

The embodiment of the present invention is described below in detail, the embodiment described example is shown in the accompanying drawings, wherein identical from beginning to end Or similar label indicates same or similar element or element with the same or similar functions.

Orientation shown by attached drawing should not be understood as limiting specific protection scope of the invention, only manage for the reference of preferred embodiment Solution can be carried out the variation of position with product component shown in figure or quantity increases or structure simplifies.

Mutually " connection " relationship of component shown in " connection " described in the specification and attached drawing, it can be understood as fixed Ground connects or is detachably connected or is formed the connection of one；It can be and be directly connected directly or be connected by intermediary, ability Domain those of ordinary skill can understand connection relationship as the case may be and it can be concluded that be spirally connected or rivet or weld or clamping or The modes such as interlocking carry out different embodiments in an adequate manner for using.

Orientation shown in the nouns of locality such as upper and lower, left and right described in the specification, top, bottom and attached drawing, each component can be straight Contact passes through the other characterisation contact between them；As above can for surface and oblique upper or it only indicates height In other objects；Other orientation can also be made to analogize understanding.

The represented making material with physical form component in specification and attached drawing, can use metal material or Nonmetallic materials or other synthetic materials；It is all to be related to mechanical processing technique used by there is the component of physical form and can be punching Pressure, forging and stamping, casting, wire cutting, laser cutting, casting, injection molding, number milling, 3 D-printing, machining etc.；The common skill in this field Art personnel adaptively can be selected or be combined selection according to different processing conditions, cost, precision, but be not limited to above-mentioned Material and manufacture craft.

The present invention provides a kind of in the method for realizing tenon structure on hollow material, comprising the following steps:

STEP1: take hollow profile part 10 as hollow material；

STEP2: 10 a certain sections of the hollow profile part building sections as tenon structure are chosen；

STEP3: one section of annular substrates surface layer 20 is squeezed out by extrusion equipment, the annular substrates surface layer 20 is closed loop knot Structure, and the size of the caliber size of the inner ring of annular substrates surface layer 20 and the building section of hollow profile part 10 is coincide；

STEP4: mortise and tenon piece group is squeezed out by extrusion equipment, the mortise and tenon piece group includes convex transitional end 30 and sheet surface layer 40, the sheet surface layer 40 is an integral molding structure with convex transitional end 30, and wherein one end end of the sheet surface layer 40 connects It connects the top for being fixed on convex transitional end 30 and convex transitional end 30 is integrally formed bending structure；

STEP5: card slot is milled out on one of face of annular substrates surface layer 20；

STEP6: the bottom at convex transitional end 30 is caught in the card slot for being connected to annular substrates surface layer 20, such sheet surface layer 40 It is just arranged in parallel in the top of annular substrates surface layer 20, and forms mortise and tenon clamping gap 50(such as between annular substrates surface layer 20 Shown in Fig. 2,3,4)；

STEP6: the inner ring of annular substrates surface layer 20 and the surface of the building section of hollow profile part 10 are glued by way of heat seal Connection is closed, to realize tenon structure (as shown in Figure 1) on hollow profile part 10；

STEP7: spare after inspection.

In the present invention, tenon structure part includes annular substrates surface layer 20 and mortise and tenon piece group, and mortise and tenon piece group has including protrusion Transitioning end 30 and sheet surface layer 40 squeeze out annular substrates surface layer 20 and mortise and tenon piece group by the method for extruding respectively, then will Mortise and tenon piece group is connected in composition tenon structure part in annular substrates surface layer 20, finally by tenon structure part by the way of heat seal The socket of annular substrates surface layer 20 is adhesively fixed in the building section surface of hollow profile part 10, quickly and conveniently in hollow profile part Tenon structure is realized on 10, the setting of annular substrates surface layer 20 improves the stress bearing strength of hollow profile part 10, thus After tenon structure installation, the tearing of 10 thin-walled of hollow profile part or rupture are avoided.

Since by way of extruding, after extrusion forming, annular substrates surface layer 20 and mortise and tenon piece group are strip, because This, is additionally provided with STEP3A in STEP3 and STEP4: the annular substrates surface layer 20 of the strip of extrusion forming is cut into as needed The annular substrates surface layer 20 of multistage；STEP4A is additionally provided in STEP4 and STEP5: by the mortise and tenon piece group of the strip of extrusion forming It is cut into the mortise and tenon piece group of multistage as needed.

In the present invention, hollow profile part 10 can be hollow metal part, be also possible to hollow wood moulding structural member.Hollow type It is square, positive pentagonal or just hexagonal etc. that the section of material part 10, which can be, corresponding, the annular substrates surface layer 20 Inner ring section is square, positive pentagonal or just hexagonal.

It is aobvious for those skilled in the art by the disclosure although the present invention is described in detail referring to above example And be clear to, and in the case where not departing from the principle of the present invention and scope that the claim limits, it can be right The present invention makes a variety of changes or modifies.Therefore, the detailed description of the embodiment of the present disclosure is only used to explain, rather than is used to limit The present invention, but it is defined by the subject-matter of the claims the range of protection.

Claims (5)

1. a kind of in the method for realizing tenon structure on hollow material, which comprises the following steps:

STEP1: take hollow profile part as hollow material；

STEP2: a certain section of the hollow profile part building section as tenon structure is chosen；

STEP3: squeezing out one section of annular substrates surface layer by extrusion equipment, and the annular substrates surface layer is closed loop structure, and The size of the building section of the caliber size and hollow profile part of the inner ring of annular substrates surface layer is coincide；

STEP4: squeezing out mortise and tenon piece group by extrusion equipment, and the mortise and tenon piece group includes convex transitional end and sheet surface layer, The sheet surface layer is an integral molding structure with convex transitional end, and wherein one end end of the sheet surface layer is connected and fixed on convex The top and convex transitional end for playing transitioning end are integrally formed bending structure；

STEP5: card slot is milled out on one of face of annular substrates surface layer；

STEP6: the bottom at convex transitional end is caught in the card slot for being connected to annular substrates surface layer, and such sheet surface layer is with regard to parallel It is set to the top of annular substrates surface layer, and forms mortise and tenon between annular substrates surface layer and is clamped gap；

STEP6: the surface bonding of the inner ring of annular substrates surface layer and the building section of hollow profile part is connected by way of heat seal It connects, to realize tenon structure on hollow profile part；

STEP7: spare after inspection.

2. according to claim 1 a kind of in the method for constructing tenon structure on hollow material, which is characterized in that STEP3A is additionally provided in STEP3 and STEP4: the annular substrates surface layer of the strip of extrusion forming is cut into the ring of multistage as needed Shape base facing.

3. according to claim 1 a kind of in the method for constructing tenon structure on hollow material, which is characterized in that STEP4A is additionally provided in STEP4 and STEP5: the mortise and tenon piece group of the strip of extrusion forming is cut into the mortise and tenon piece of multistage as needed Group.

4. according to claim 1 a kind of in the method for constructing tenon structure on hollow material, which is characterized in that the sky Heart profile piece is hollow metal part.

5. according to claim 1 a kind of in the method for constructing tenon structure on hollow material, which is characterized in that the sky Heart profile piece is wood moulding structural member.