CN219034491U - Split type heavy push-and-pull smooth rabbet structure and push-and-pull device - Google Patents

Abstract

The utility model discloses a split type heavy push-pull smooth rabbet structure and a push-pull device, wherein the smooth rabbet structure comprises a glass fan groove, a linking bayonet lock and a supporting pulley groove, the bottom surface of the glass fan groove is in pressure connection with the top surface of the supporting pulley groove, the bottom surface of the glass fan groove is provided with an upper groove body with a downward opening, the top surface of the supporting pulley groove is provided with a lower groove body with an upward opening, the upper groove body is communicated with the lower groove body and forms a connecting groove which is suitable for the linking bayonet lock, and the linking bayonet lock is arranged in the connecting groove and is used for connecting the glass fan groove and the supporting pulley groove. In the smooth rabbet structure, the wall thickness of the integral section bars of the fan groove, the link bayonet lock and the supporting pulley groove is overlapped, so that the thickness of the bearing part of the smooth rabbet is increased, the bearing performance of the smooth rabbet is improved, and the smooth rabbet structure meets the use requirement of a heavy door and window. The design thought that the bearing performance is improved through the design of high wall thickness and high surface of the conventional heavy push-pull smooth rabbet is avoided, the surface of the surface is effectively reduced, the visible surface of the door and window is ensured, and the visible range of a user is improved.

Description

Split type heavy push-and-pull smooth rabbet structure and push-and-pull device

Technical Field

The utility model belongs to the technical field of smooth rabbets, and particularly relates to a split type heavy push-pull smooth rabbet structure and a push-pull device.

Background

The existing push-pull smooth rabbets on the aluminum alloy heavy type sliding doors in the market are integrated and split type smooth rabbets, the door leaf manufacturing size and weighing are considered, the smooth rabbets with high wall thickness or smooth rabbets with large viewing surfaces are generally difficult to manufacture in the production and manufacturing process, the production efficiency is low, and the processing precision of large rod piece sectional materials is not well controlled; the visible surface of the door leaf is limited, the visible outdoor scenery is not large, and the effect presented by vision is poor.

Disclosure of Invention

The utility model aims to provide a split type heavy push-pull smooth rabbet structure and a push-pull device, which are used for solving the problems in the prior art.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

in a first aspect, the utility model provides a split type heavy push-pull smooth rabbet structure, which comprises a glass fan groove, a linking bayonet lock and a supporting pulley groove, wherein the bottom surface of the glass fan groove is in pressure connection with the top surface of the supporting pulley groove, the bottom surface of the glass fan groove is provided with an upper groove body with a downward opening, the top surface of the supporting pulley groove is provided with a lower groove body with an upward opening, the upper groove body is communicated with the lower groove body and forms a connecting groove which is adaptive to the linking bayonet lock, and the linking bayonet lock is arranged in the connecting groove and is used for connecting the glass fan groove and the supporting pulley groove.

In one possible design, the inner circumference of the linking bayonet is provided with a lightening hole, and two outer side surfaces of the linking bayonet are respectively provided with a clamping groove;

correspondingly, the two sides of the upper groove body are respectively provided with an upper clamping block which can be inserted into the clamping groove, and the two sides of the lower groove body are respectively provided with a lower clamping block which can be inserted into the clamping groove.

In one possible design, the glass fan groove comprises a glass fan part and an additional part which are connected, a notch for assembling the glass fan is arranged above the glass fan part, a first cavity is arranged below the glass fan part, and the bottom surface of the first cavity is fixedly connected with the supporting pulley groove; the second cavity is arranged above the additional part, and the upper groove body is arranged below the additional part.

In one possible design, the first cavity and the second cavity are each formed of at least two frames, adjacent frames being joined by an angle to form a 45 ° butt joint.

In one possible design, a side plate is arranged on a side edge of one side of the top surface of the first cavity, the other side of the top surface of the first cavity is connected with the second cavity, and the side plate, the top surface of the first cavity and the side edge of the second cavity enclose the notch.

In one possible design, the supporting pulley groove comprises a top plate, a connecting block and a bottom plate which are sequentially connected from top to bottom, wherein the lower groove body is positioned on the top surface of the top surface, and a third cavity is arranged in the middle of the bottom plate.

In one possible design, the length of the connecting block is smaller than the length of the top plate or the length of the bottom plate, and the two sides of the connecting block are respectively provided with an inner groove, and the inner grooves are surrounded by the bottom surface of the top plate, the side surfaces of the connecting block and the top surface of the bottom plate.

In a second aspect, the utility model provides a push-pull device comprising the split heavy push-pull smooth rabbet structure.

The beneficial effects are that:

the glass fan groove is connected with the supporting pulley groove through the linking bayonet lock, the linking bayonet lock not only plays a role in connection, but also serves as a bearing rod piece in the smooth rabbet structure, so that the overall bearing performance of the smooth rabbet is improved.

Structurally, the wall thickness of the integral section bar of the fan groove, the link bayonet lock and the supporting pulley groove is overlapped, so that the thickness of the bearing part of the smooth rabbet is increased, the bearing performance of the smooth rabbet is improved, and the smooth rabbet structure meets the use requirement of a heavy door and window. The design thought that the bearing performance is improved through the design of high wall thickness and high surface of looking is avoided by the conventional heavy push-pull smooth rabbet, the surface of looking is effectively reduced, the visual surface of the door and window is ensured, the visual range of a user is improved, and the use effect is improved.

During production and processing, the split type design reduces the die opening cost, reduces the production difficulty in the product manufacturing process, improves the production efficiency, also improves the production precision, and effectively solves the problems of difficult manufacturing and low production efficiency in the prior art.

Drawings

Fig. 1 is a schematic structural diagram of a split heavy push-pull smooth rabbet structure.

Fig. 2 is a schematic view of a glass fan trough.

Fig. 3 is a schematic structural view of the link bayonet.

Fig. 4 is a schematic structural view of a supporting pulley groove.

In the figure:

100. a glass fan groove; 11. a glass fan part; 12. an attachment section; 101. an upper tank body; 102. a notch; 103. a first cavity; 104. a second cavity; 105. a side plate; 200. a link bayonet; 201. a lightening hole; 202. a clamping groove; 300. a supporting pulley groove; 31. a top plate; 32. a connecting block; 33. a bottom plate; 301. a lower tank body; 302. a third cavity; 303. an inner groove.

Detailed Description

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the present utility model will be briefly described below with reference to the accompanying drawings and the description of the embodiments or the prior art, and it is obvious that the following description of the structure of the drawings is only some embodiments of the present utility model, and other drawings can be obtained according to these drawings without inventive effort to a person skilled in the art. It should be noted that the description of these examples is for aiding in understanding the present utility model, but is not intended to limit the present utility model.

Examples:

as shown in fig. 1-4, the present embodiment provides a split heavy push-pull smooth rabbet structure, which comprises a glass fan groove 100, a link bayonet 200 and a supporting pulley groove 300, wherein the bottom surface of the glass fan groove 100 is in press connection with the top surface of the supporting pulley groove 300, the bottom surface of the glass fan groove 100 is provided with an upper groove body 101 with a downward opening, the top surface of the supporting pulley groove 300 is provided with a lower groove body 301 with an upward opening, the upper groove body 101 is communicated with the lower groove body 301 and forms a connecting groove adapted to the link bayonet 200, and the link bayonet 200 is arranged in the connecting groove and is used for connecting the glass fan groove 100 and the supporting pulley groove 300.

In the smooth rabbet structure, the glass fan groove 100 is connected with the supporting pulley groove 300 through the linking bayonet lock 200, and the linking bayonet lock 200 not only plays a role in connection, but also serves as a bearing rod piece in the smooth rabbet structure, so that the overall bearing performance of the smooth rabbet is improved.

Structurally, the wall thicknesses of the three integral sections are overlapped, so that the thickness of the bearing part of the smooth rabbet is increased, the bearing performance of the smooth rabbet is improved, and the smooth rabbet structure meets the use requirement of a heavy door and window. The design thought that the bearing performance is improved through the design of high wall thickness and high surface of looking is avoided by the conventional heavy push-pull smooth rabbet, the surface of looking is effectively reduced, the visual surface of the door and window is ensured, the visual range of a user is improved, and the use effect is improved.

During production and processing, the split type design reduces the die opening cost, reduces the production difficulty in the product manufacturing process, improves the production efficiency, also improves the production precision, and effectively solves the problems of difficult manufacturing and low production efficiency in the prior art.

When the smooth rabbet structure is used, the smooth rabbet structure is assembled firstly, namely, the glass fan groove 100 and the supporting pulley groove 300 are connected through the link bayonet 200. And then the smooth rabbet structure is connected with the rest parts, namely the rest parts of the sliding door and window are connected through the supporting pulley groove 300, and the glass fan is assembled on the glass fan groove 100.

One possible assembly method of the smooth rabbet structure is as follows: the part of the link stopper 200 is inserted in one of the upper and lower groove bodies 101 and 301, and when the bottom surface of the glass fan groove 100 is press-fitted on the top surface of the supporting pulley groove 300, the upper and lower groove bodies 101 and 301 constitute a connection groove, and the remaining part of the link stopper 200 is inserted in the other one of the upper and lower groove bodies 101 and 301.

In addition, for the contact surface of the glass fan groove 100 and the supporting pulley groove 300, the connection groove portions are connected by the link bayonet 200, and the portions other than the connection groove are connected by the fixed connection to improve the connection firmness of the glass fan groove 100 and the supporting pulley groove 300.

In this embodiment, the inner circumference of the link bayonet 200 is provided with a lightening hole 201, and two outer side surfaces of the link bayonet 200 are respectively provided with a clamping groove 202; based on the design scheme, the dead weight of the link bayonet 200 is greatly reduced through the design of the lightening hole 201, and the whole weight of the smooth rabbet is reduced; meanwhile, the mechanical property of the linking bayonet lock 200 is improved, and the linking bayonet lock 200 has the characteristics of good toughness, impact resistance, high compressive strength, good buffering and vibration resistance and the like, and the bearing performance of the smooth rabbet is improved in an auxiliary manner.

In addition, the connection is realized through the clamping groove 202, so that the glass fan groove 100, the link clamping pin 200 and the supporting pulley groove 300 are connected into a whole to form the smooth rabbet structure. Correspondingly, two sides of the upper groove body 101 are respectively provided with an upper clamping block which can be inserted into the clamping groove 202, and two sides of the lower groove body 301 are respectively provided with a lower clamping block which can be inserted into the clamping groove 202. When the bottom surface of the glass fan groove 100 is pressed against the top surface of the supporting pulley groove 300, the upper clamping block and the lower clamping block on the same side are mutually abutted to form a clamping strip, and the clamping strip is at least partially inserted into the clamping groove 202 to realize connection.

In this embodiment, the glass fan groove 100 includes a glass fan portion 11 and an additional portion 12 connected, a notch 102 for assembling a glass fan is provided above the glass fan portion 11, a first cavity 103 is provided below the glass fan portion 11, and a bottom surface of the first cavity 103 is fixedly connected with a supporting pulley groove 300; a second cavity 104 is provided above the attachment portion 12, and the upper groove 101 is provided below the attachment portion 12.

Based on the above design, the glass fan 11 is used for assembling the glass fan to ensure the normal use of the smooth rabbet, and the additional part 12 is used for increasing the thickness of the bearing part of the glass fan groove 100 to increase the bearing performance of the smooth rabbet. Meanwhile, the first cavity 103 and the second cavity 104 form a multi-cavity design, so that the weight can be reduced, the heat preservation and insulation performance, wind pressure resistance and air tightness of the door leaf or the window sash can be improved, and the comprehensive performance of the door leaf or the window sash is improved.

Alternatively, the fixed connection is to realize fastening connection through a mechanism pin, and specifically, an upper hole body adapted to the mechanism pin is formed in the middle of the bottom surface of the glass fan portion 11, and a lower hole body coaxial with the upper hole body is formed on the top surface of the supporting pulley groove 300.

In one possible implementation, the first cavity 103 and the second cavity 104 are each formed of at least two frames, adjacent frames being joined by a corner fitting to form a 45 ° butt joint. Based on the above design scheme, the corner connector is adapted to the respective sizes of the first cavity 103 and the second cavity 104, and the corner connector with corresponding specification is selected to realize corner connection. Through angle code group angle connection, help improving holistic intensity, and smooth rabbet's roughness under this connected mode is better, avoids appearing the untidy phenomenon in group angle department, avoids old man, child to appear the fish tail when using or passing by, improves the security of using.

In a possible implementation manner, a side plate 105 is arranged on a side edge of one side of the top surface of the first cavity 103, the other side of the top surface of the first cavity 103 is connected with the second cavity 104, and the side plate 105, the top surface of the first cavity 103 and the side edge of the second cavity 104 enclose the notch 102. Based on the design scheme, the size of the notch 102 is larger than the groove body structure on the existing smooth rabbet, the size of hollow glass with different specifications is met, and different types of hollow glass are selected according to different use requirements, so that the functions of ultraviolet resistance, heat insulation, sound insulation, wind resistance and the like are achieved, the use is flexible, and the practicability is good.

In this embodiment, the supporting pulley groove 300 includes a top plate 31, a connecting block 32 and a bottom plate 33 sequentially connected from top to bottom, wherein the lower groove 301 is located on the top surface of the top surface, and a third cavity 302 is provided in the middle of the bottom plate 33. Based on the above design, the top plate 31 is used for connecting the glass run channel 100 and the bottom plate 33 is used for connecting the remaining parts of the door or window sash. Meanwhile, the third cavity 302 may be used to both connect the remaining components and cooperate with the first and second cavities 103 and 104 to form a multi-cavity design at the support pulley groove 300.

In one possible implementation, the length of the connection block 32 is smaller than the length of the top plate 31 or the length of the bottom plate 33, and the two sides of the connection block 32 are respectively provided with an inner groove 303, wherein the inner groove 303 is surrounded by the bottom surface of the top plate 31, the side surfaces of the connection block 32 and the top surface of the bottom plate 33. Based on the above technical solution, the pulley groove 300 is supported to connect the other parts of the door leaf or the window sash through the inner groove 303, and the inner groove 303 helps to increase the contact area, thereby improving the connection stability.

The embodiment introduces a push-pull device based on the split type heavy push-pull smooth rabbet structure, wherein the push-pull device comprises the split type heavy push-pull smooth rabbet structure.

Based on the structure, through the application of the split type heavy push-pull smooth rabbet structure, the push-pull device is good in bearing performance, and has good heat insulation performance, wind pressure resistance and air tightness through the multi-cavity design of the split type heavy push-pull smooth rabbet structure. Further optionally, the push-pull device includes, but is not limited to, a sliding door and a sliding window.

Finally, it should be noted that: the foregoing description is only of the preferred embodiments of the utility model and is not intended to limit the scope of the utility model. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (8)

1. The utility model provides a split type heavy push-and-pull smooth rabbet structure, a serial communication port, including glass fan groove (100), link bayonet lock (200) and support pulley groove (300), the bottom surface crimping of glass fan groove (100) is on the top surface of support pulley groove (300), and the bottom surface of glass fan groove (100) is equipped with opening decurrent last cell body (101), be equipped with opening decurrent lower cell body (301) on the top surface of support pulley groove (300), go up cell body (101) and lower cell body (301) intercommunication and constitute the spread groove that is adapted to link bayonet lock (200), link bayonet lock (200) setting in the spread groove and be used for connecting glass fan groove (100) and support pulley groove (300).

2. The split type heavy push-pull smooth rabbet structure according to claim 1, wherein the inner periphery of the link bayonet (200) is provided with a lightening hole (201), and two outer side surfaces of the link bayonet (200) are respectively provided with a clamping groove (202);

correspondingly, two sides of the upper groove body (101) are respectively provided with an upper clamping block which can be inserted into the clamping groove (202), and two sides of the lower groove body (301) are respectively provided with a lower clamping block which can be inserted into the clamping groove (202).

3. The split type heavy push-pull smooth rabbet structure according to claim 1, wherein the glass fan groove (100) comprises a glass fan part (11) and an additional part (12) which are connected, a notch (102) for assembling the glass fan is arranged above the glass fan part (11), a first cavity (103) is arranged below the glass fan part (11), and the bottom surface of the first cavity (103) is fixedly connected with a supporting pulley groove (300); a second cavity (104) is arranged above the additional part (12), and the upper groove body (101) is arranged below the additional part (12).

4. A split heavy duty push-pull smooth rabbet structure according to claim 3, wherein the first cavity (103) and the second cavity (104) are each formed by at least two frames, adjacent frames being joined by an angle code to form a 45 ° butt joint.

5. The split type heavy push-pull smooth rabbet structure according to claim 4, wherein a side plate (105) is arranged on a side edge of one side of the top surface of the first cavity (103), the other side of the top surface of the first cavity (103) is connected with the second cavity (104), and the side plate (105), the top surface of the first cavity (103) and the side edge of the second cavity (104) enclose the notch (102).

6. The split heavy-duty push-pull smooth rabbet structure according to claim 1, wherein the supporting pulley groove (300) comprises a top plate (31), a connecting block (32) and a bottom plate (33) which are sequentially connected from top to bottom, wherein the lower groove body (301) is positioned on the top surface of the top surface, and a third cavity (302) is arranged in the middle of the bottom plate (33).

7. The split type heavy push-pull smooth rabbet structure according to claim 6, wherein the length of the connecting block (32) is smaller than the length of the top plate (31) or the length of the bottom plate (33), inner grooves (303) are respectively formed in two sides of the connecting block (32), and the inner grooves (303) are formed by the bottom surface of the top plate (31), the side surfaces of the connecting block (32) and the top surface of the bottom plate (33) in a surrounding mode.

8. A push-pull device comprising a split heavy-duty push-pull smooth rabbet structure according to any one of claims 1-7.

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