CN113638668A

CN113638668A - Corner splicing connecting piece profile structure of energy-saving door and window

Info

Publication number: CN113638668A
Application number: CN202110926386.9A
Authority: CN
Inventors: 汪时栋
Original assignee: Chongqing Jiaxinda Hardware Technology Co ltd
Current assignee: Chongqing Jiaxinda Hardware Technology Co ltd
Priority date: 2021-08-12
Filing date: 2021-08-12
Publication date: 2021-11-12
Anticipated expiration: 2041-08-12
Also published as: CN113638668B

Abstract

The invention relates to the technical field of building doors and windows, in particular to a corner splicing connecting piece profile structure of an energy-saving door and window, be connected with the adjustment subassembly through two mounting brackets, two damper are connected with two mounting brackets, the mounting bracket has a plurality of fixed orificess, first urceolus is connected with the mounting bracket, a plurality of reset spring are connected with first urceolus, first inner tube and a plurality of reset spring are connected, the chucking board is connected with first inner tube, two pull rods and inner tube connection, the horizontal pole is connected with two pull rods, the hasp is connected with the horizontal pole, two locked grooves are connected with the mounting bracket, fix glass on the mounting bracket, the inside reset spring of first urceolus on the mounting bracket promotes first inner tube to the glass direction, make the chucking board on the first inner tube with the glass chucking, there is the problem that the clearance can influence the fixed effect of mounting bracket to glass between the mounting bracket inside wall of energy-saving door and window's bight concatenation connecting piece section bar structure and the glass.

Description

Corner splicing connecting piece profile structure of energy-saving door and window

Technical Field

The invention relates to the technical field of building doors and windows, in particular to a corner splicing connecting piece profile structure of an energy-saving door and window.

Background

With the development of modern buildings, corner windows are gradually popularized, and the treatment of corners can affect the lighting degree and the sealing property of the windows and doors;

the corner splicing connecting piece of the existing energy-saving door and window is formed by installing glass on the inner side wall of an installation frame and splicing the two installation frames;

but there is the clearance between mounting bracket inside wall and the glass can influence the fixed effect of mounting bracket to glass.

Disclosure of Invention

The invention aims to provide a corner splicing connecting piece profile structure of an energy-saving door window, and aims to solve the problem that a gap exists between the inner side wall of an installation frame and glass of the corner splicing connecting piece profile structure of the energy-saving door window, so that the fixing effect of the installation frame on the glass is influenced.

In order to achieve the aim, the invention provides a corner splicing connecting piece profile structure of an energy-saving door window, which comprises an installation mechanism, two damping mechanisms and two clamping mechanisms;

the mounting mechanism comprises two mounting frames and an adjusting component, the two mounting frames are respectively and fixedly connected with the adjusting component and are positioned on two sides of the adjusting component, the two damping mechanisms are respectively and fixedly connected with the two mounting frames and are positioned on the inner side wall of the mounting frames, and the mounting frames are provided with a plurality of fixing holes;

the clamping mechanism comprises a first outer barrel, a plurality of reset springs, a first inner barrel, a clamping plate, two pull rods, a cross rod, a lock catch and two locking grooves, the first outer barrel is fixedly connected with the mounting frame and is positioned on the inner side wall of the mounting frame, the reset springs are respectively fixedly connected with the first outer barrel and are positioned in the first outer barrel, the first inner barrel is fixedly connected with the reset springs and penetrates through the first outer barrel, the clamping plate is fixedly connected with the first inner barrel and is positioned on one side far away from the reset springs, the two pull rods are respectively fixedly connected with the first inner barrel and penetrate through the first outer barrel and the mounting frame, the cross rod is fixedly connected with the two pull rods and is positioned between the two pull rods, the lock catch is fixedly connected with the cross rod and is positioned on one side far away from the mounting frame, two the locked groove respectively with mounting bracket fixed connection all is located and is close to one side of hasp.

Fix glass on the mounting bracket, on the mounting bracket inside wall inside the first urceolus reset spring promotes to the glass direction first inner tube, makes on the first inner tube the chucking board is with glass chucking.

The clamping mechanism further comprises a first limiting block, and the first limiting block is fixedly connected with the first inner cylinder and is positioned inside the first outer cylinder.

The diameter of the first limiting block is larger than the caliber of the first outer cylinder, so that the first inner cylinder can be prevented from being ejected out of the second outer cylinder by the reset spring.

Wherein, installation mechanism still includes a plurality of screw rings, and is a plurality of the screw ring respectively with two mounting bracket fixed connection all is located the downthehole lateral wall of fixed orifices.

The threaded ring increases the resistance of the screw fixing the mounting bracket to the mounting bracket, thereby increasing the stability of the screw fixing the mounting bracket.

The installation mechanism further comprises two first cushion pads, and the two first cushion pads are fixedly connected with the two installation frames and are located on the inner side walls of the installation frames.

The first cushion pad can avoid damage caused by friction between one side of the glass, which is far away from the clamping plate, and the mounting frame, and therefore the first cushion pad is arranged on the mounting frame.

Wherein, damper includes second urceolus, a plurality of damping spring and second inner tube, the second urceolus with mounting bracket fixed connection, and be located the mounting bracket inside wall, it is a plurality of damping spring respectively with a plurality of the outer section of thick bamboo fixed connection of second all is located inside the outer section of thick bamboo of second, the second inner tube with a plurality of damping spring fixed connection, and run through the second urceolus.

The second inner cylinder of the damping mechanism transmits the vibration generated by the glass in the using process to the damping spring in the second outer cylinder, and the damping spring absorbs the vibration to provide stability for the glass.

The damping mechanism further comprises a second limiting block, and the second limiting block is fixedly connected with the second inner cylinder and is positioned inside the second outer cylinder.

The diameter of the second limiting block is larger than the caliber of the second outer cylinder, so that the second inner cylinder can be prevented from being ejected out of the second outer cylinder by the damping spring.

The damping mechanism further comprises a second cushion pad, and the second cushion pad is fixedly connected with the second inner cylinder and is positioned on one side far away from the damping spring.

The second buffer pad can avoid the second inner cylinder from rubbing with the glass to cause damage.

According to the corner splicing connecting piece section structure of the energy-saving door and window, glass is fixed on the mounting frame, the reset spring in the first outer cylinder on the inner side wall of the mounting frame pushes the first inner cylinder towards the glass, so that the clamping plate on the first inner cylinder clamps the glass, and the problem that the fixing effect of the mounting frame on the glass is influenced due to the gap between the inner side wall of the mounting frame of the corner splicing connecting piece section structure of the energy-saving door and window and the glass is solved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic structural diagram of a corner splicing connector profile structure of an energy-saving door window provided by the invention;

FIG. 2 is an enlarged view of detail A of FIG. 1;

FIG. 3 is a sectional view of the corner splicing connecting piece profile structure of an energy-saving door and window provided by the invention along the direction of a return spring;

FIG. 4 is an enlarged view of detail B of FIG. 3;

fig. 5 is a sectional view of the corner splicing connecting piece profile structure of the energy-saving door and window provided by the invention along the direction of a rotating shaft.

1-an installation mechanism, 2-a damping mechanism, 3-a clamping mechanism, 4-an installation rack, 5-an adjustment component, 6-a first outer cylinder, 7-a return spring, 8-a first inner cylinder, 9-a clamping plate, 10-a pull rod, 11-a cross rod, 12-a lock catch, 13-a lock groove, 14-a fixed hole and 15-a first limit block, 16-a threaded ring, 17-a first cushion pad, 18-a second outer cylinder, 19-a damping spring, 20-a second inner cylinder, 21-a second limiting block, 22-a second cushion pad, 23-a connecting cylinder, 24-a rotating shaft, 25-a fixed block, 26-a torsion spring, 27-a first sliding block, 28-a second sliding block, 29-a first sliding groove and 30-a second sliding groove.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are illustrative and intended to be illustrative of the invention and are not to be construed as limiting the invention.

In the description of the present invention, it is to be understood that the terms "length", "width", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships illustrated in the drawings, and are used merely for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, are not to be construed as limiting the present invention. Further, in the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

Referring to fig. 1 to 5, the invention provides a corner splicing connecting piece profile structure of an energy-saving door and window, comprising an installation mechanism 1, two damping mechanisms 2 and two clamping mechanisms 3;

the mounting mechanism 1 comprises two mounting frames 4 and an adjusting component 5, the two mounting frames 4 are respectively and fixedly connected with the adjusting component 5 and are respectively positioned at two sides of the adjusting component 5, the two damping mechanisms 2 are respectively and fixedly connected with the two mounting frames 4 and are respectively positioned on the inner side walls of the mounting frames 4, and the mounting frames 4 are provided with a plurality of fixing holes 14;

the clamping mechanism 3 comprises a first outer barrel 6, a plurality of reset springs 7, a first inner barrel 8, a clamping plate 9, two pull rods 10, a cross rod 11, a lock catch 12 and two locking grooves 13, the first outer barrel 6 is fixedly connected with the mounting frame 4 and is positioned on the inner side wall of the mounting frame 4, the reset springs 7 are respectively fixedly connected with the first outer barrel 6 and are both positioned inside the first outer barrel 6, the first inner barrel 8 is fixedly connected with the reset springs 7 and penetrates through the first outer barrel 6, the clamping plate 9 is fixedly connected with the first inner barrel 8 and is positioned on one side far away from the reset springs 7, the two pull rods 10 are respectively fixedly connected with the first inner barrel 8 and penetrate through the first outer barrel 6 and the mounting frame 4, the cross rod 11 is fixedly connected with the two pull rods 10 and is positioned between the two pull rods 10, hasp 12 with horizontal pole 11 fixed connection to be located and keep away from one side of mounting bracket 4, two the locked groove 13 respectively with mounting bracket 4 fixed connection all is located and is close to one side of hasp 12.

In this embodiment, fix glass on two of installation mechanism 1 on mounting bracket 4, according to the size of wall body contained angle two mounting bracket 4 passes through adjustment assembly 5 carries out corresponding regulation, and uses the screw to run through on mounting bracket 4 fixed orifices 14 will mounting bracket 4 is fixed on the wall body, with glass installation into in the in-process of mounting bracket 4, at first stimulate pull rod 10 on the horizontal pole 11, make on the pull rod 10 first inner tube 8 extrudes reset spring 7 slides into inside first urceolus 6, pull rod 10 passes through on the horizontal pole 11 hasp 12 is fixed on mounting bracket 4 on keyway 13, make first inner tube 8 keep in the state inside first urceolus 6, for reserving the mounted position for glass, after the glass installation, inside reset spring 7 of first urceolus 6 on the mounting bracket 4 inside wall promotes to the glass direction first inner tube 8 And the clamping plate 9 on the first inner cylinder 8 clamps the glass on the mounting frame 4, so that the problem that the gap between the inner side wall of the mounting frame 4 and the glass of the corner splicing connecting piece profile structure of the energy-saving door and window can influence the fixing effect of the mounting frame 4 on the glass is solved.

Further, the chucking mechanism 3 further comprises a first limiting block 15, and the first limiting block 15 is fixedly connected with the first inner cylinder 8 and is positioned inside the first outer cylinder 6.

In this embodiment, the diameter of the first stopper 15 is larger than the diameter of the first outer cylinder 6, so that the first inner cylinder 8 is prevented from being pushed out of the second outer cylinder 18 by the return spring 7.

Further, the mounting mechanism 1 further comprises a plurality of threaded rings 16, and the plurality of threaded rings 16 are respectively and fixedly connected with the two mounting frames 4 and are positioned on the inner side wall of the fixing hole 14; the installation mechanism 1 further comprises two first cushion pads 17, wherein the two first cushion pads 17 are respectively fixedly connected with the two installation frames 4 and are positioned on the inner side walls of the installation frames 4.

In this embodiment, the threaded ring 16 increases the resistance between the screw for fixing the mounting frame 4 and the mounting frame 4, thereby increasing the stability of the screw for fixing the mounting frame 4, and the first cushion 17 can prevent the glass from being damaged due to friction between the side of the glass away from the clamping plate 9 and the mounting frame 4, so the first cushion 17 is provided on the mounting frame 4.

Further, the damping mechanism 2 includes a second outer tube 18, a plurality of damping springs 19 and a second inner tube 20, the second outer tube 18 is fixedly connected with the mounting frame 4 and is located on the inner side wall of the mounting frame 4, the plurality of damping springs 19 are respectively fixedly connected with the plurality of second outer tubes 18 and are located inside the second outer tube 18, and the second inner tube 20 is fixedly connected with the plurality of damping springs 19 and penetrates through the second outer tube 18; the damping mechanism 2 further comprises a second limiting block 21, and the second limiting block 21 is fixedly connected with the second inner cylinder 20 and is positioned inside the second outer cylinder 18; the damping mechanism 2 further comprises a second cushion pad 22, and the second cushion pad 22 is fixedly connected with the second inner cylinder 20 and is located on one side far away from the damping spring 19.

In this embodiment, the second inner cylinder 20 of the damper mechanism 2 transmits the vibration generated during the use of the glass to the damper spring 19 inside the second outer cylinder 18, the damper spring 19 absorbs the vibration to provide stability for the glass, the diameter of the second stopper 21 is larger than the diameter of the second outer cylinder 18, so that the damper spring 19 can prevent the second inner cylinder 20 from being pushed out of the second outer cylinder 18, and the second cushion pad 22 can prevent the second inner cylinder 20 from being damaged due to the friction with the glass.

Further, the adjusting part 5 includes a connecting cylinder 23, a rotating shaft 24, a fixed block 25 and a plurality of torsional springs 26, the connecting cylinder 23 with 4 fixed connection of mounting bracket, and be located 4 lateral walls of mounting bracket, the rotating shaft 24 with another 4 fixed connection of mounting bracket, and be located 4 lateral walls of mounting bracket, just the rotating shaft 24 runs through the connecting cylinder 23, the fixed block 25 with 24 dismantlements of rotating shaft are connected, and are located 24 around the rotating shaft, it is a plurality of torsional springs 26 respectively with two 4 fixed connection of mounting bracket, and be located and be close to one side of locked groove 13.

In this embodiment, the rotating shaft 24 on the mounting rack 4 penetrates through the connecting tube 23 on the other mounting rack 4, and the rotating shaft 24 is fixed on the connecting tube 23 through the fixing block 25, the rotating shaft 24 on the mounting rack 4 can rotate in the connecting tube 23 on the other mounting rack 4 for angle adjustment, and the two torsion springs 26 on the mounting rack 4 apply a force to the wall direction to the mounting rack 4, so as to increase the stability of the mounting rack 4 fixed on the wall.

Further, the adjusting assembly 5 further includes a first slider 27 and a second slider 28, the connecting cylinder 23 has a first sliding slot 29 and a second sliding slot 30, one side of the first slider 27 is fixedly connected to the rotating shaft 24 and is located at a side close to the connecting cylinder 23, the other side of the first slider 27 is slidably connected to the connecting cylinder 23 and is located on the first sliding slot 29, one side of the second slider 28 is fixedly connected to the fixing block 25 and is located at a side close to the connecting cylinder 23, and the other side of the second slider 28 is slidably connected to the connecting cylinder 23 and is located on the second sliding slot 30.

In this embodiment, when the rotating shaft 24 on the mounting bracket 4 is angularly adjusted on another mounting bracket 4, the first sliding block 27 can slide in the first sliding groove 29 on the connecting cylinder 23 to increase the fluency when the rotating shaft 24 rotates, and the fixed block 25 on the rotating shaft 24 can slide in the second sliding groove 30 on the connecting cylinder 23 through the second sliding block 28 to increase the fluency when the fixed block 25 rotates along with the rotating shaft 24.

The invention relates to a corner splicing connecting piece sectional material structure of an energy-saving door and window, which is characterized in that glass is fixed on two mounting frames 4 of a mounting mechanism 1, the two mounting frames 4 are correspondingly adjusted through an adjusting component 5 according to the size of an included angle of a wall body, screws penetrate through fixing holes 14 in the mounting frames 4 to fix the mounting frames 4 on the wall body, in the process of mounting the glass into the mounting frames 4, firstly, a pull rod 10 on a cross rod 11 is pulled, so that a first inner cylinder 8 on the pull rod 10 extrudes a return spring 7 and slides into a first outer cylinder 6, the pull rod 10 is fixed on a locking groove 13 of the mounting frames 4 through a lock catch 12 on the cross rod 11, so that the first inner cylinder 8 is kept in the first outer cylinder 6, a mounting position is reserved for the glass, and after the glass is mounted, on the 4 inside walls of mounting bracket inside 6 first urceolus 7 promotes to the glass direction first inner tube 8 makes on the first inner tube 8 chucking board 9 is in with the glass chucking on the mounting bracket 4, there is the problem that the clearance can influence mounting bracket 4 to glass's fixed effect between 4 inside walls of mounting bracket and the glass of energy-saving door and window's bight concatenation connecting piece section bar structure.

Although the present invention has been described with reference to the preferred embodiments, it is to be understood that the invention is not limited to the details of construction and construction, and that various changes, substitutions and alterations can be made herein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims

1. A corner splicing connecting piece profile structure of an energy-saving door window is characterized by comprising an installation mechanism, two damping mechanisms and two clamping mechanisms;

2. The corner splicing connecting piece profile structure of energy-saving doors and windows as claimed in claim 1,

3. The corner splicing connecting piece profile structure of energy-saving doors and windows as claimed in claim 2,

the installation mechanism still includes a plurality of screw rings, and is a plurality of the screw ring respectively with two mounting bracket fixed connection all is located the downthehole lateral wall of fixed orifices.

4. The corner splicing connecting piece profile structure of energy-saving doors and windows according to claim 3,

the installation mechanism further comprises two first cushion pads, and the two first cushion pads are fixedly connected with the installation frame and are located on the inner side wall of the installation frame.

5. The corner splicing connecting piece profile structure of energy-saving doors and windows as claimed in claim 4,

damper includes second urceolus, a plurality of damping spring and second inner tube, the second urceolus with mounting bracket fixed connection, and be located the mounting bracket inside wall, it is a plurality of damping spring respectively with a plurality of second urceolus fixed connection all is located inside the second urceolus, the second inner tube with a plurality of damping spring fixed connection, and run through the second urceolus.

6. The corner splicing connecting piece profile structure of energy-saving doors and windows according to claim 5,

7. The corner splicing connecting piece profile structure of energy-saving doors and windows according to claim 5,

the damping mechanism further comprises a second cushion pad, and the second cushion pad is fixedly connected with the second inner barrel and is positioned on one side far away from the damping spring.