CN118564173B - A production method of a built-in sunshade hollow glass product and a built-in sunshade product - Google Patents

Abstract

The invention discloses a production method of a built-in sunshade hollow glass product and the built-in sunshade product, and relates to the technical field of built-in sunshade products, the production method of the built-in sunshade hollow glass product comprises the following steps of connecting a main body connecting frame with a parting bead frame, fixing a sunshade main body component in the main body connecting frame to form a first whole, completing glass combination operation, arranging a buckling convex edge on the main body connecting frame, arranging a splicing groove on the parting bead frame, and inserting the buckling convex edge into the splicing groove to enable the first whole to be connected with the parting bead frame; the spacer frame is formed by a bending process and/or a cutting process and/or a stamping process or by connecting a plurality of spacer bars to each other by connecting corner blocks. The built-in sunshade product is manufactured by the production method of the built-in sunshade hollow glass product. The invention can simplify the production process, is convenient to process, and can improve the product quality.

Description

Production method of built-in sunshade hollow glass product and built-in sunshade product

Technical Field

The invention relates to the technical field of built-in sunshade products, in particular to a production method of a built-in sunshade hollow glass product and the built-in sunshade product.

Background

The built-in sun-shading hollow glass product such as a built-in sun-shading hollow glass door and window is a common household decoration article. The hollow built-in sun-shading hollow glass is novel built-in sun-shading hollow glass with a sun-shading main body arranged in a hollow glass cavity, and can achieve good waterproof, dustproof and soundproof effects while achieving total light transmission, semi-light transmission or shading. The built-in sunshade hollow glass door and window is usually provided with a hollow cavity, inert gas is filled in the cavity, a molecular sieve for absorbing moisture is required to be placed in a parting bead of the hollow built-in sunshade hollow glass door and window in order to keep the gas dry, the existing hollow built-in sunshade hollow glass door and window is provided with a frame part for connecting a sunshade main body and a parting bead part which are integrally fixed, wherein the frame part and the parting bead part are of an integrally formed structure, the molecular sieve is arranged in the parting bead part, and the sunshade main body is required to be connected in the frame part before glass closing.

The structure firstly needs to process the air holes on the inner side of the parting bead part, the inner hole is processed in an integrally formed structure, the filling of the molecular sieve is not easy to carry out on the parting bead part, and the frame part needs to be subjected to color spraying treatment, and the integrated arrangement can enable the parting bead part to be simultaneously colored, so that after the coloring, the paint surface or the powder surface of the parting bead part is poor in adhesion with the adhesive after the subsequent gluing, the problem of tightness is easy to occur, the surface of the parting bead part is also easy to scratch in transportation, the appearance is easy to be influenced, in addition, after the sunshade main body is installed, the parting bead part is glued again, and the sunshade main body is easy to be polluted. Therefore, the existing internally-arranged sunshade hollow glass product has complex production process, is difficult to process, is easy to influence the quality of the product, has complex structure and is inconvenient to produce and install.

Disclosure of Invention

The invention aims to solve the technical problem of providing the built-in sunshade hollow glass, which can simplify the production process, is convenient to process and can improve the product quality.

In order to solve the technical problems, the invention provides a production method of a built-in sunshade hollow glass product, which comprises the following steps:

the main body connecting frame is connected with the parting bead frame.

Fixing the sunshade body assembly in the body connector to form a first integral body prior to interconnection of the body connector with the spacer frame, or

After the main body connecting frame and the parting bead frame are connected with each other, the sunshade main body component is fixed in the main body connecting frame, or

The operation of fixing the sunshade main body component in the main body connecting frame to form a first whole is completed simultaneously with the operation of connecting the main body connecting frame and the parting bead frame;

and (5) finishing the glass combination operation.

As an improvement of the above solution, the step of interconnecting the main body connecting frame and the division bar frame includes:

The side part of the main body connecting frame is connected with the side part of the parting bead frame.

As an improvement of the above solution, the step of interconnecting the main body connecting frame and the division bar frame further includes:

the main body connecting frame is provided with a buckling convex edge, the parting bead frame is provided with a splicing groove, and the buckling convex edge is inserted into the splicing groove so that the main body connecting frame is connected with the parting bead frame.

As an improvement of the above scheme, the glass-closing completion operation comprises the following steps:

And coating a first adhesive on the side part of the parting bead frame, attaching the parting bead frame to the first glass, and then connecting the main body connecting frame or the first whole with the parting bead frame.

As an improvement of the above scheme, the glass-closing completion operation further comprises the following steps:

after the first whole and the parting bead frame are connected with each other to form a second whole, a first adhesive is coated on the side, opposite to the first glass, of the second whole, and then the second glass is attached to the side, opposite to the first glass, of the second whole.

As an improvement of the above scheme, the glass-closing completion operation further comprises the following steps:

The first whole and the parting bead frame are connected with each other to form a second whole, then first adhesive is coated on two sides of the second whole respectively, and then first glass and second glass are attached to two sides of the second whole respectively.

As an improvement of the above scheme, the method further comprises the following steps:

forming the division bar frame through a bending process and/or a cutting process and/or a stamping process, or

Connecting a plurality of parting strips with each other through connecting angle blocks to form the parting strip frame;

and a moisture absorption piece is arranged in the parting bead or the parting bead frame.

As an improvement of the above scheme, the method further comprises the following steps:

the body connecting frame comprises a single connecting section, the sunshade body assembly is fixed in the connecting section to form the first whole, or

The main body connecting frame comprises two or more connecting sectional materials, the connecting sectional materials are connected with each other, and the sun-shading main body component is fixed in the connecting sectional materials to form a first whole.

As an improvement of the above scheme, the method further comprises the following steps:

and after the glass combining operation is finished, coating a second adhesive on the edge of the formed built-in sunshade hollow glass product.

On the other hand, in order to solve the technical problems, the invention also discloses a built-in sunshade product which is manufactured by the production method of the built-in sunshade hollow glass product, and comprises a main body connecting frame, a parting bead frame and a sunshade main body component, wherein the sunshade main body component comprises a sunshade main body curtain, and the sunshade main body curtain is connected with the main body connecting frame.

A mounting space is formed in the parting bead frame, and the main body connecting frame can be inserted into the mounting space;

the main body connecting frame comprises a connecting section bar, and the connecting section bar is connected with the sun-shading main body curtain.

As the improvement of above-mentioned scheme, one side of parting bead frame is equipped with the jack-in groove, the notch of jack-in groove is towards the outside of parting bead, the lateral part of main part link is equipped with the lock chimb, the lock chimb can insert in the jack-in groove.

As an improvement of the above-mentioned scheme, the parting bead frame is made up by using bending process and/or cutting process and/or stamping process, or

The parting bead frame comprises parting beads and connecting angle blocks, wherein the connecting angle blocks are provided with two connecting ends, a through containing hole is formed in each parting bead, two adjacent parting beads are connected through the connecting angle blocks, and the connecting ends can be inserted into the containing holes from the end parts of the parting beads.

As an improvement of the scheme, an anti-falling mechanism is arranged on the connecting end and arranged between the connecting end and the containing hole and used for preventing the connecting end from falling out of the containing hole.

As an improvement of the above, the anti-disengaging mechanism comprises an anti-disengaging mechanism arranged between the connecting end surface and the inner wall of the receiving hole, and/or

The anti-disengaging mechanism comprises an elastic structure, the elastic structure is arranged on the connecting end and protrudes out of the side wall of the connecting end, and the end part of the elastic structure can be abutted to the inner wall of the containing hole.

As an improvement of the scheme, a limiting plate is arranged at the bottom side of the inserting groove, a concave limiting groove is arranged at the edge of one side, close to the buckling convex edge, of the limiting plate, a convex positioning block is arranged below the buckling convex edge, the position of the positioning block corresponds to that of the limiting groove, and the positioning block can be inserted into the limiting groove.

As the improvement of above-mentioned scheme, the spacing groove includes spacing intersection line and locates respectively spacing intersection line both sides first spacing inclined plane and second spacing inclined plane, first spacing inclined plane with the spacing inclined plane of second is followed spacing intersection line is towards both sides slope setting respectively, spacing intersection line is from being close to the one side of lock chimb is upwards inclined towards keeping away from the one side of lock chimb.

The locating piece includes location intersection line and locates respectively first location inclined plane and the second location inclined plane of location intersection line both sides, first location inclined plane with the second location inclined plane is followed the location intersection line is set up towards both sides slope respectively, the location intersection line is from being close to one side of spacing groove is kept away from one side of spacing groove is inclined downwards, the location intersection line can the butt in on the spacing intersection line.

As the improvement of above-mentioned scheme, the parting bead is including grafting side and the dorsal part that sets up relatively, the grafting groove is located on the grafting side, be equipped with spacing and lower spacing in the grafting groove, the lock chimb can insert go up spacing with between the spacing down.

As an improvement of the above, the main body connecting frame is made of aluminum alloy and/or stainless steel and/or plastic and/or wood material.

As a modification of the above, the spacer frame is made of an aluminum alloy and/or stainless steel and/or plastic and/or wood material.

The implementation of the invention has the following beneficial effects:

According to the production method of the built-in sun-shading hollow glass product, the main body connecting frame and the parting bead frame are arranged separately, before or during glass closing, the sun-shading main body component is fixed in the main body connecting frame, and the main body connecting frame and the parting bead frame can be integrated, so that the main body connecting frame and the parting bead frame can be processed respectively, the main body connecting frame and the parting bead frame can be provided with simple structures, meanwhile, the ventilation holes are processed on the parting bead frame independently, the main body connecting frame can be sprayed with colors independently, the appearance of the parting bead frame can be provided with an oxide layer independently, surface scratches are avoided, the influence of paint or powder on the adhesive tightness of the parting bead frame can be avoided, the parting bead frame can be glued first before the sun-shading main body component or the first whole is installed, the separated parting bead frame and the main body component can not be polluted, and meanwhile, a ventilation gap can be formed between the parting bead frame and the main body connecting frame, and the moisture absorbing hollow glass is more convenient. Therefore, the production method of the built-in sunshade hollow glass product simplifies the production process, is convenient to process, and can improve the product quality.

Drawings

FIG. 1 is a schematic diagram of the split structure of the built-in sunshade hollow glass product of the present invention;

FIG. 2 is a partially disassembled schematic view of a first view of the product of the present invention;

FIG. 3 is a partially disassembled schematic view of a second view of the product of the present invention;

FIG. 4 is a schematic view of the second overall structure of the present invention;

FIG. 5 is a schematic cross-sectional view of the anti-disengaging mechanism of the present invention;

FIG. 6 is a schematic cross-sectional view of a connecting corner block of the present invention;

FIG. 7 is a schematic view of a limiting groove according to the present invention;

FIG. 8 is a schematic view of the structure of the positioning block of the present invention;

FIG. 9 is a schematic flow chart of the production method of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings, for the purpose of making the objects, technical solutions and advantages of the present invention more apparent. It is only stated that the terms of orientation such as up, down, left, right, front, back, inner, outer, etc. used in this document or the imminent present invention, are used only with reference to the drawings of the present invention, and are not meant to be limiting in any way.

Referring to fig. 1 and 9, the embodiment of the invention discloses a production method of a built-in sunshade hollow glass product, which comprises the following steps:

s01, connecting the main body connecting frame 1 and the parting bead frame 2 with each other;

S02, before the main body connecting frame 1 and the parting bead frame 2 are connected with each other, the sunshade main body assembly 3 is fixed in the main body connecting frame 1 to form a first integral body 4, or after the main body connecting frame 1 and the parting bead frame 2 are connected with each other, the sunshade main body assembly 3 is fixed in the main body connecting frame 1, or the operation of fixing the sunshade main body assembly 3 in the main body connecting frame 1 to form the first integral body 4 is completed simultaneously with the operation of connecting the main body connecting frame 1 and the parting bead frame 2 with each other.

S03, finishing the glass combination operation.

The built-in sun-shading hollow glass product comprises a built-in sun-shading hollow glass, a built-in sun-shading hollow glass door, a built-in sun-shading hollow glass window and other products, and the hollow glass of the built-in sun-shading hollow glass product forms an interlayer, so that the built-in sun-shading hollow glass product has good heat insulation and noise reduction performances. The main body connecting frame 1 is used for connecting the sunshade main body component 3, the main body connecting frame 1 forms a connecting transition structure between the sunshade main body component 3 and the parting bead frame 2, and a moisture absorbing piece is arranged in the parting bead frame 2 and can absorb water and air in the built-in sunshade hollow glass product. The moisture absorbing member may be a material having a function of absorbing moisture, such as a molecular sieve, silica gel, activated carbon, or the like.

The main body connecting frame 1 can be connected with the sunshade main body component 3, and the sunshade main body component 3 can only comprise sunshade main bodies such as a shutter and the like, and also can comprise sunshade main bodies and related mechanisms such as a pull rope mechanism, a lifting mechanism and the like for controlling the sunshade main bodies to turn over and lift. In the above-mentioned process, the order in which the sunshade main body assembly 3 and the main body connecting frame 1 are assembled is not limited, and the process in which the main body connecting frame 1 and the division bar frame 2 are connected to each other may be performed simultaneously with the process in which the main body connecting frame 1 and the division bar frame 2 are connected to each other by properly setting the assembly position after the main body connecting frame 1 and the division bar frame 2 are connected to each other. That is, in various embodiments, the joint at which the sunshade main assembly 3 and the main connecting frame 1 are mounted may be arranged simultaneously with the connection of the main connecting frame 1 and the division bar frame 2, or may be arranged before or after the connection of the main connecting frame 1 and the division bar frame 2.

The sun-shading main body assembly 3 is fixed in the main body connecting frame 1 to form the first whole 4, and meanwhile, the main body connecting frame 1 and the parting bead frame 2 are separately and independently arranged, so that the main body connecting frame 1 and the parting bead frame 2 can be separately and independently processed, ventilation holes in the parting bead frame 2 are easy to process, oxidation treatment can be independently carried out, the surface of the parting bead frame 2 cannot be influenced when the main body connecting frame 1 is subjected to color spraying, the sealing performance of the viscose of the parting bead frame 2 is prevented from being influenced by a paint surface or a powder surface, and meanwhile, the parting bead frame 2 and the sun-shading main body assembly 3 can be separated due to the fact that the viscose on the parting bead frame 2 cannot pollute the sun-shading main body assembly 3 during gluing, and meanwhile, ventilation gaps can be formed between the separated parting bead frame 2 and the main body connecting frame 1, so that moisture in hollow glass can be absorbed by a moisture absorbing piece conveniently.

Wherein the glass-fitting operation may be performed simultaneously with the operation of interconnecting the body frame 1 and the spacer frame 2 and/or the operation of fixing the sunshade body assembly 3 to the body frame 1 to form the first whole 4.

The production method of the built-in sunshade hollow glass product has the following beneficial effects:

Through setting up main part link 1 with parting bead frame 2 separately, before closing glass or in closing glass, with sunshade main part subassembly 3 is fixed in main part link 1, main part link 1 can with parting bead frame 2 forms an entirety, consequently, main part link 1 with parting bead frame 2 can process respectively, main part link 1 with parting bead frame 2 can set up simple structure, simultaneously alone right parting bead frame 2 processing bleeder vent is also simpler, main part link 1 can carry out the independent color spraying, moreover parting bead frame 2 outward appearance can set up the oxide layer alone, avoids the surface fish tail, also can avoid paint or powder to influence the viscose leakproofness of parting bead frame 2, before installing sunshade main part subassembly 3 or first whole 4, can be earlier make glue to parting bead frame 2, can not make the sunshade main part subassembly 3 like this, simultaneously, after the separation parting bead frame 2 with can form more convenient moisture absorption clearance that the moisture can form between the main part link 1, and the more convenient hollow glass that absorbs moisture. Therefore, the production method of the built-in sunshade hollow glass product simplifies the production process, is convenient to process, and can improve the product quality.

Wherein the step of interconnecting the body frame 1 and the division bar frame 2 comprises:

the side of the main body connecting frame 1 is connected with the side of the parting bead frame 2.

The body connection frame 1 alone or the body connection frame 1 in the first whole 4 is connected to the spacer frame 2 by means of side connection. The side portion of the main body connecting frame 1 may be an outer side portion of the frame body, or may be an inner side portion of the frame body, and the side portion of the division bar frame 2 may be an inner side portion or an outer side portion.

Wherein, referring specifically to fig. 2, the step of interconnecting the body connection frame 1 with the spacer frame 2 comprises:

The main body connecting frame 1 is provided with a buckling convex edge, the parting bead frame 2 is provided with a plugging groove, and the buckling convex edge is inserted into the plugging groove so that the main body connecting frame 1 is connected with the parting bead frame 2.

By means of the buckling convex edge and the inserting grooves, the main body connecting frame 1 and the parting bead frame 2 can be connected together, and in installation, no matter whether the main body connecting frame 1 is connected into the first whole 4 or not, the main body connecting frame 1 is inserted from the side part of the parting bead frame 2, or the parting bead frame 2 is inserted from the side part of the main body connecting frame 1, so that connection can be completed, the inserting grooves can form limiting and guiding structures of the buckling convex edge, and the buckling convex edge can be conveniently inserted, so that the connecting procedure is simple and convenient.

The glass-closing completion operation comprises the following steps:

And after the side part of the parting bead frame 2 is coated with first adhesive and the parting bead frame 2 is attached to first glass, the main body connecting frame 1 or the first whole 4 is connected with the parting bead frame 2. The material of the first adhesive is not limited, butyl adhesive can be generally used, the adhesive force is strong, and the water vapor permeation can be effectively prevented.

There are two steps in the glass-fitting operation, namely, the first glass and the second glass are respectively adhered, and when the first glass is adhered, there may be an embodiment in which the first glass is adhered to one side of the spacer frame 2, if the body connecting frame 1 does not form the first integral 4 with the sunshade main body assembly 3 at this time, the body connecting frame 1 and the spacer frame 2 are connected to each other after the first glass is adhered, and then the sunshade main assembly 3 is mounted in the body connecting frame 1 to form the first integral 4, and if the body connecting frame 1 and the sunshade main body assembly 3 have already formed the first integral 4 at this time, the first integral 4 and the spacer frame 2 are connected to each other afterwards.

Referring to fig. 4, after the connection of the first glass pane is completed, the glass-joining operation further includes the steps of:

After the first integral 4 and the division bar frame 2 are connected to form a second integral 5, a first adhesive is coated on the side, opposite to the first glass, of the second integral 5, and then the second glass is attached to the side, opposite to the first glass, of the second integral 5.

Regardless of the order in which the first glass, the body connector 1 and the sunshade body assembly 3 are attached to form the first whole 4, the body connector 1 and the spacer frame 2 are connected to each other, the attachment of the second glass needs to be performed after the first whole 4 and the spacer frame 2 are connected to each other to form the second whole 5.

In addition, the glass-combining operation comprises the following steps:

The first integral 4 and the division bar frame 2 are connected with each other to form a second integral 5, then first adhesive is respectively coated on two sides of the second integral 5, and then first glass and second glass are respectively attached to two sides of the second integral 5.

Unlike the other embodiments described above in which the first glass is first adhered, in this step, the first integral body 4 and the division bar frame 2 are first connected to each other to form a second integral body 5, and then the first glass and the second glass are adhered to both sides of the second integral body 5, respectively.

Thus, there is not a too significant sequence of limitations between the glass-fitting operation, the operation of forming the first whole 4 by the body connection frame 1 and the sunshade body assembly 3, and the operation of interconnecting the body connection frame 1 and the spacer frame 2.

In all the above embodiments, the spacer frame 2 may be manufactured by a bending process and/or a cutting process and/or a stamping process, that is, by a combination of one or more processes of bending, cutting and stamping, or may be formed by connecting a plurality of spacer bars 21 to each other through connecting angle blocks 22, and the operation of placing the moisture absorbing member may be performed before or after the spacer frame 2 is formed, if the spacer frame 2 is formed by the bending process and/or the cutting process and/or the stamping process, the moisture absorbing member may be placed in the spacer frame 2, if the spacer frame 2 is formed by connecting a plurality of spacer bars 21 to each other through connecting angle blocks 22, the moisture absorbing member may be placed in the spacer bar 21, or after the spacer frame 2 is formed by connecting, the moisture absorbing member may be placed in the spacer frame 2. The moisture absorbing member may be a material having a function of absorbing moisture, such as a molecular sieve, silica gel, activated carbon, or the like.

Furthermore, referring to fig. 1, the body connection frame 1 comprises a single connection profile 11, the sunshade body assembly 3 being fixed in the connection profile 11 to form the first whole 4, or the body connection frame 1 comprises two or more connection profiles 11, the connection profiles 11 being connected to each other, the sunshade body assembly 3 being fixed in the connection profile 11 to form the first whole 4.

The body connection frame 1 may be constituted by a single connection profile 11, such that the sun protection body assembly 3 is fixed in a single connection profile 11 forming the first whole 4. The body connecting frame 1 may be formed by two or more connecting profiles 11, the connecting profiles 11 are connected to each other, and the sunshade body assembly 3 may be fixed to one of the connecting profiles 11 or simultaneously connected to a plurality of the connecting profiles 11 to form the first whole 4.

And after the glass combining operation is finished, after the first glass and the second glass are adhered, a second adhesive is coated on the edge of the formed built-in sunshade hollow glass product, and the second adhesive can further seal the edge of the formed built-in sunshade hollow glass product. The second adhesive can be single-component adhesive or double-component adhesive, and the common materials can be silicone structural sealant, polysulfide sealant and the like.

Referring to fig. 1, 2 and 3, the invention also discloses a built-in sunshade product manufactured by the method for producing the built-in sunshade hollow glass product, which comprises a main body connecting frame 1, a parting bead frame 2 and a sunshade main body assembly 3, wherein the sunshade main body assembly 3 comprises a sunshade main body curtain 31, and the sunshade main body curtain 31 is connected with the main body connecting frame 1. The inside of the division bar frame 2 is provided with a mounting space 27, when in mounting, the main body connecting frame 1 can be inserted into the mounting space 27, and the mounting is more convenient by means of opposite insertion mounting, and the main body connecting frame 1 comprises a connecting section bar 11, and the connecting section bar 11 is connected with the sun-shading main body curtain 31.

The built-in sun-shading product comprises products such as built-in sun-shading hollow glass, a built-in sun-shading hollow glass door, a built-in sun-shading hollow glass window and the like, and the hollow glass of the built-in sun-shading hollow glass product forms an interlayer, so that the built-in sun-shading hollow glass product has good heat insulation and noise reduction performances. The main body connecting frame 1 is used for connecting the sunshade main body component 3, the main body connecting frame 1 forms a connecting transition structure between the sunshade main body component 3 and the parting bead frame 2, and moisture absorbing pieces such as molecular sieves are arranged in the parting bead frame 2 and can absorb water and air in the built-in sunshade hollow glass product. The main body connecting frame 1 can be connected with the sunshade main body component 3, and the sunshade main body component 3 can only comprise sunshade main bodies such as a shutter and the like, and also can comprise sunshade main bodies and related mechanisms such as a pull rope mechanism, a lifting mechanism and the like for controlling the sunshade main bodies to turn over and lift.

The built-in sunshade product has the following beneficial effects:

The built-in sun-shading product is provided with the main body connecting frame 1, the parting bead frame 2 and the sun-shading main body assembly 3, the parting bead frame 2 and the main body connecting frame 1 are arranged separately, when in processing, the parting bead frame 2 and the main body connecting frame 1 can be processed independently, after being arranged separately, the parting bead frame 2 and the main body connecting frame 1 are simple in structure, independent paint spraying can be performed, subsequent viscose operation is not affected, molecular sieves can be filled independently, in addition, an air-permeable gap is formed between the parting bead frame 2 and the main body connecting frame 1 easily, moisture of hollow glass is absorbed by a moisture absorbing piece conveniently, and when in installation, only the main body connecting frame 1 and the parting bead frame 2 are needed to be inserted mutually. Therefore, the built-in sunshade hollow glass can lead the structure of the parting bead frame 2 and the main body connecting frame 1 to be simple, and is convenient for processing and installation.

Referring to fig. 2, an insertion groove 212 is further formed on one side of the parting bead 21, a buckling convex edge 111 is formed on the side of the main body connecting frame 1, and when the main body connecting frame is installed, the main body connecting frame 1 and the parting bead 21 can be connected simply only by inserting the buckling convex edge 111 into the insertion groove 212 in the glass-closing process.

Referring to fig. 3, the division bar frame 2 is manufactured through a bending process and/or a cutting process and/or a punching process or is formed by connecting a plurality of division bars 21 to each other through connection angle blocks 22. The connecting corner block 22 is provided with two connecting ends 221, the inside of each division bar 21 is provided with a through containing hole 211, two adjacent division bars 21 are connected through the connecting corner block 22, and the connecting ends 221 can be inserted into the containing holes 211 from the end parts of the division bars 21, so that the upper division bars 21, the lower division bars 21, the left division bars 21 and the right division bars 21 form a frame. After the separation setting, the parting bead 21 can process the bleeder vent alone, does not have the hindrance on the connection section bar 11 structure, and it is simpler to process the bleeder vent, connection section bar 11 can spray alone, and the spraying can not influence parting bead 21 to can not influence the adhesion between parting bead 21 and the viscose, also can avoid influencing in the transportation parting bead 21's outward appearance face.

Referring to fig. 5, the connection end 221 is provided with an anti-falling mechanism 28, and the anti-falling mechanism 28 is disposed between the connection end 221 and the receiving hole 211, for preventing the connection end 221 from falling out of the receiving hole 211. In one embodiment, the anti-disengagement mechanism 28 includes anti-degluing disposed between the surface of the connection end 221 and the inner wall of the receiving hole 211. The anti-degumming coating is performed by applying an adhesive such as butyl adhesive to the connection end 221, and the anti-degumming coating can prevent the connection end 221 from being separated from the receiving hole 211 after the connection end 221 is inserted into the receiving hole 211. In one embodiment, the anti-falling mechanism 28 includes an elastic structure 281, where the elastic structure 281 is disposed on the connection end 221 and protrudes from a side wall of the connection end 221, and after the connection end 221 is inserted into the receiving hole 211, an end of the elastic structure 281 can abut against an inner wall of the receiving hole 211, so as to greatly increase friction between the connection end 221 and the receiving hole 211, and achieve an anti-falling effect. The elastic structure 281 may be a sheet or a thin rod structure having elasticity. The two embodiments described above may be implemented in combination.

Further, referring to fig. 6, in order to better realize the anti-disengaging effect, the connecting end 221 is provided with an anti-disengaging hole 23, the anti-disengaging hole 23 penetrates through the connecting end 221, the arrangement direction of the anti-disengaging hole 23 is perpendicular to the length direction of the parting bead 21, a first abutting surface 231 and a second abutting surface 232 which are oppositely arranged are arranged in the anti-disengaging hole 23, the first abutting surface 231 is located at one side close to the parting bead 21, the second abutting surface 232 is located at one side far away from the parting bead 21, the first abutting surface 231 is a plane, the middle part of the second abutting surface 232 protrudes towards the direction where the first abutting surface 231 is located and forms an arc-shaped surface, an elastic rod 24 is arranged between the first abutting surface 231 and the second abutting surface 232, the end part of the elastic rod 24 protrudes out of the side wall of the connecting end 221, the elastic rod 24 abuts against the first abutting surface 231 in the original state, the connecting end 221 is inserted into the connecting end part 221, the second abutting surface 211 is bent, the elastic rod 24 can be abutted against the second abutting surface 211, and the arc-shaped end part of the elastic rod 24 can be prevented from moving, and the connecting end part of the connecting end 211 can be prevented from being bent, and the connecting end part can be connected with the elastic rod 24.

Referring to fig. 7 and 8, in order to further improve the connection convenience and stability between the parting bead frame 2 and the main body connecting frame 1, a limiting plate 25 is disposed at the bottom side of the plugging slot 212, a concave limiting slot 26 is disposed at the edge of one side of the limiting plate 25, which is close to the buckling convex edge 111, the limiting slot 26 includes a limiting intersecting line 261, and a first limiting inclined plane 262 and a second limiting inclined plane 263 disposed at two sides of the limiting intersecting line 261, respectively, and the first limiting inclined plane 262 and the second limiting inclined plane 263 are disposed obliquely from the limiting intersecting line 261, specifically, disposed obliquely upward, and the first limiting inclined plane 262 and the second limiting inclined plane 263 are connected to the limiting intersecting line 261, and because the first limiting inclined plane 262 and the second limiting inclined plane 263 are disposed obliquely upward from the limiting intersecting line 261, the first limiting inclined plane 262 and the second limiting inclined plane 263 are disposed at a position far from the buckling convex edge 111. The positioning block 12 is disposed under the fastening flange 111, the position of the positioning block 12 corresponds to the position of the limiting groove 26, the positioning block 12 can be inserted along the limiting groove 26, the positioning block 12 includes a positioning intersecting line 121, and a first positioning inclined plane 122 and a second positioning inclined plane 123 disposed on two sides of the positioning intersecting line 121, the first positioning inclined plane 122 and the second positioning inclined plane 123 are connected to the positioning intersecting line 121, the first positioning inclined plane 122 and the second positioning inclined plane 123 are disposed obliquely from the positioning intersecting line 121 toward two sides, the oblique directions of the first positioning inclined plane 122 and the second positioning inclined plane 123 correspond to the oblique directions of the first limiting inclined plane 262 and the second limiting inclined plane 263, the positioning intersecting line 121 is inclined downward from one side close to the limiting groove 26 toward one side far away from the limiting groove 26, and the oblique directions of the positioning intersecting line 121 correspond to the oblique directions of the limiting intersecting line 261.

During connection, the main body connecting frame 1 formed by the connecting profiles 11 is inserted into the parting bead frame 2 formed by the parting beads 21, the main body connecting frame 1 is continuously pressed, the first positioning inclined plane 122 is abutted against the first limiting inclined plane 262 and/or the second positioning inclined plane 123 is abutted against the second limiting inclined plane 263, a positioning guiding effect is formed, under the inclined guiding effect of the first limiting inclined plane 262 and/or the second limiting inclined plane 263, the positioning intersecting line 121 can be abutted against the limiting intersecting line 261, and then the limiting intersecting line 261 can guide the positioning intersecting line 121 to move. If the insertion position of the connecting profile 11 on the upper side is too high, the insertion position of the connecting profile 11 on the lower side is too high, and the first positioning inclined surfaces 122 of the connecting profile 11 on the left and right sides are abutted against the first positioning inclined surfaces 262 to form positioning guidance, so that the positioning intersecting line 261 on the lower side can guide the positioning intersecting line 121 to move obliquely to the lower position, thereby moving the entire body connecting frame 1 downward, and if the insertion position of the connecting profile 11 on the upper side is too low, the insertion position of the connecting profile 11 on the lower side is too low, and the second positioning inclined surfaces 123 of the connecting profile 11 on the left and right sides are abutted against the second positioning inclined surfaces 263 to form positioning guidance, so that the positioning intersecting line 261 on the upper side can guide the positioning intersecting line 121 to move obliquely to the upper position, thereby moving the entire body connecting frame 1 upward, and the positional adjustment of the left and right connecting profiles 11 is similar. By using the limiting groove 26 and the positioning block 12, the main body connecting frame 1 and the parting bead frame 2 can quickly form a positioning effect during installation, and the main body connecting frame 1 can be automatically guided to quickly move to a centering position, so that a quick and accurate installation effect is obtained.

Further, referring to fig. 7, the spacer 21 includes an insertion side 213 and a back side 214 that are disposed opposite to each other, the insertion groove 212 is disposed on the insertion side 213, an upper limit 215 and a lower limit 216 are disposed in the insertion groove 212, after the main body connecting frame 1 is guided by the limit groove 26 to be inserted, the fastening convex edge 111 can be inserted between the upper limit 215 and the lower limit 216, and the upper limit 215 and the lower limit 216 form a limit on the fastening convex edge 111, so that the main body connecting frame 1 is prevented from moving continuously, and a quick fixing effect is achieved. The body connection frame 1 is made of an aluminium alloy and/or stainless steel and/or plastic and/or wood material, and the spacer bar frame 2 is made of an aluminium alloy and/or stainless steel and/or plastic and/or wood material.

The foregoing is a preferred embodiment of the present invention and it should be noted that modifications and adaptations to those skilled in the art may be made without departing from the principles of the present invention and are intended to be comprehended within the scope of the present invention.

Claims (13)

1. A method for producing a built-in sunshade insulating glass product, characterized in that it comprises the following steps: Connect the main connecting frame and the spacer frame to each other; Before the main body connection frame and the spacer frame are connected to each other, the sunshade main body assembly is fixed in the main body connection frame to form a first whole; or After the main body connection frame and the spacer frame are connected to each other, the sunshade main body assembly is fixed in the main body connection frame; or The operation of fixing the sunshade main body assembly in the main body connecting frame to form a first whole is completed simultaneously with the operation of connecting the main body connecting frame and the spacer frame to each other; Complete the glass closing operation; The step of connecting the main body connecting frame and the spacer frame to each other also includes: the main body connecting frame is provided with a buckling convex edge, the spacer frame is provided with an insertion groove, the buckling convex edge is inserted into the insertion groove, so that the main body connecting frame is connected to the spacer frame; The main body connecting frame includes two or more connecting profiles, the connecting profiles are connected to each other, and the sunshade main body assembly is fixed in the connecting profiles to form the first whole; The spacer frame is formed by connecting a plurality of spacers and connecting corner blocks, the connecting corner blocks are provided with two connecting ends, a through receiving hole is provided in the spacer, two adjacent spacers are connected by the connecting corner blocks, and the connecting end can be inserted into the receiving hole from the end of the spacer; A limiting plate is provided at the bottom side of the plug-in slot, an edge of the limiting plate close to the buckling convex edge is provided with an inwardly concave limiting slot, and an outwardly convex positioning block is provided below the buckling convex edge, the position of the positioning block corresponds to the position of the limiting slot, and the positioning block can be inserted into the limiting slot; The limiting groove includes a limiting intersection line and a first limiting inclined surface and a second limiting inclined surface respectively arranged on both sides of the limiting intersection line, the first limiting inclined surface and the second limiting inclined surface are respectively arranged to be inclined toward both sides from the limiting intersection line, and the limiting intersection line is inclined upward from a side close to the buckling convex edge to a side away from the buckling convex edge; The positioning block includes a positioning intersection line and a first positioning inclined surface and a second positioning inclined surface respectively arranged on both sides of the positioning intersection line, the first positioning inclined surface and the second positioning inclined surface are respectively arranged to be inclined toward both sides from the positioning intersection line, the positioning intersection line is inclined downward from a side close to the limiting groove to a side away from the limiting groove, and the positioning intersection line can abut against the limiting intersection line; During connection, the main connecting frame composed of the connecting profiles is inserted into the partition frame composed of the partitions, and the main connecting frame is continuously pressed so that the first positioning slope abuts against the first limiting slope and/or the second positioning slope abuts against the second limiting slope, forming a positioning guiding effect. Under the inclined guiding effect of the first limiting slope and/or the second limiting slope, the positioning intersection line can abut against the limiting intersection line, and then the limiting intersection line can guide the positioning intersection line to move. 2. The method for producing a built-in sunshade insulating glass product according to claim 1, characterized in that the step of connecting the main body connecting frame and the spacer frame to each other comprises: The side portion of the main body connecting frame is connected to the side portion of the spacer frame. 3. The method for producing a built-in sunshade insulating glass product according to claim 1, wherein the glass closing operation comprises the following steps: A first adhesive is applied to the side of the spacer frame, and after the spacer frame is attached to the first glass, the main connecting frame or the first integral body is connected to the spacer frame. 4. The method for producing a built-in sunshade insulating glass product according to claim 3, wherein the step of completing the glass bonding operation further comprises the following steps: After the first whole and the spacer frame are connected to form a second whole, a first adhesive is applied to a side of the second whole opposite to the first glass, and then a second glass is attached to a side of the second whole opposite to the first glass. 5. The method for producing a built-in sunshade insulating glass product according to claim 1, wherein the step of completing the glass bonding operation further comprises the following steps: The first whole and the spacer frame are connected to form a second whole, and then the first adhesive is applied to both sides of the second whole, and then the first glass and the second glass are attached to both sides of the second whole. 6. The method for producing a built-in sunshade insulating glass product according to claim 1, further comprising the following steps: The spacer frame is formed by a bending process and/or a cutting process and/or a stamping process; or The partition bar frame is formed by connecting a plurality of partition bars to each other through connecting corner blocks; The absorbent member is placed in the spacer or the spacer frame. 7. The method for producing a built-in sunshade insulating glass product according to claim 1, characterized in that it further comprises the following steps: After the glazing operation is completed, a second adhesive is applied to the edge of the formed built-in sunshade insulating glass product. 8. A built-in sunshade product manufactured using the method for producing a built-in sunshade hollow glass product according to any one of claims 1 to 7, characterized in that it comprises a main body connecting frame, a spacer frame and a sunshade main body assembly, the sunshade main body assembly comprises a sunshade main body curtain, and the sunshade main body curtain is connected to the main body connecting frame; The spacer frame is provided with an installation space, and the main body connecting frame can be inserted into the installation space; The main connecting frame includes a connecting profile, and the connecting profile is connected to the sunshade main curtain; A plug-in slot is provided on one side of the spacer frame, the slot of the plug-in slot faces the outside of the spacer, and a buckle convex edge is provided on the side of the main body connecting frame, and the buckle convex edge can be inserted into the plug-in slot; The spacer frame includes a spacer and a connecting corner block, the connecting corner block is provided with two connecting ends, a through receiving hole is provided in the spacer, two adjacent spacers are connected by the connecting corner block, and the connecting end can be inserted into the receiving hole from the end of the spacer; The main body connecting frame includes two or more connecting profiles, the connecting profiles are connected to each other, and the sunshade main body assembly is fixed in the connecting profiles to form the first whole; A limiting plate is provided at the bottom side of the plug-in slot, an edge of the limiting plate close to the buckling convex edge is provided with an inwardly concave limiting slot, and an outwardly convex positioning block is provided below the buckling convex edge, the position of the positioning block corresponds to the position of the limiting slot, and the positioning block can be inserted into the limiting slot; The limiting groove includes a limiting intersection line and a first limiting inclined surface and a second limiting inclined surface respectively arranged on both sides of the limiting intersection line, the first limiting inclined surface and the second limiting inclined surface are respectively arranged to be inclined toward both sides from the limiting intersection line, and the limiting intersection line is inclined upward from a side close to the buckling convex edge to a side away from the buckling convex edge; The positioning block includes a positioning intersection line and a first positioning inclined surface and a second positioning inclined surface respectively arranged on both sides of the positioning intersection line, the first positioning inclined surface and the second positioning inclined surface are respectively arranged to be inclined toward both sides from the positioning intersection line, the positioning intersection line is inclined downward from a side close to the limiting groove to a side away from the limiting groove, and the positioning intersection line can abut against the limiting intersection line; During connection, the main connecting frame composed of the connecting profiles is inserted into the partition frame composed of the partitions, and the main connecting frame is continuously pressed so that the first positioning slope abuts against the first limiting slope and/or the second positioning slope abuts against the second limiting slope, forming a positioning guiding effect. Under the inclined guiding effect of the first limiting slope and/or the second limiting slope, the positioning intersection line can abut against the limiting intersection line, and then the limiting intersection line can guide the positioning intersection line to move. 9. The built-in sunshade product according to claim 8, characterized in that an anti-slip mechanism is provided on the connecting end, and the anti-slip mechanism is arranged between the connecting end and the storage hole to prevent the connecting end from slipping out of the storage hole. 10. The built-in sunshade product according to claim 9, characterized in that the anti-detachment mechanism comprises an anti-detachment adhesive, and the anti-detachment adhesive is arranged between the surface of the connection end and the inner wall of the storage hole; and/or The anti-drop mechanism comprises an elastic structure, which is arranged on the connecting end and protrudes from the side wall of the connecting end, and the end of the elastic structure can abut against the inner wall of the receiving hole. 11. The built-in sunshade product according to claim 8 is characterized in that the partition bar includes a plug-in side and a back side that are arranged opposite to each other, the plug-in groove is arranged on the plug-in side, an upper limit bar and a lower limit bar are arranged in the plug-in groove, and the buckling convex edge can be inserted between the upper limit bar and the lower limit bar. 12. The built-in sunshade product according to claim 8, characterized in that the main connecting frame is made of aluminum alloy and/or stainless steel and/or plastic and/or wood. 13. The built-in sunshade product according to claim 8, characterized in that the partition frame is made of aluminum alloy and/or stainless steel and/or plastic and/or wood material.