CN112196416B

CN112196416B - Oblique slide rail type sliding window

Info

Publication number: CN112196416B
Application number: CN202011028746.5A
Authority: CN
Inventors: 詹卫东; 郑国朋; 席佳胜; 王春辉
Original assignee: China Helicopter Research and Development Institute
Current assignee: China Helicopter Research and Development Institute
Priority date: 2020-09-25
Filing date: 2020-09-25
Publication date: 2022-06-17
Anticipated expiration: 2040-09-25
Also published as: CN112196416A

Abstract

The invention belongs to the technical field of structural design of helicopters, and discloses an inclined slide rail type sliding window which comprises an upper inclined slide rail and a lower straight slide rail, wherein the upper inclined slide rail and the lower straight slide rail are arranged on a helicopter body structure and are connected with an upper pulley assembly and a lower pulley assembly of the sliding window. The upper part of the sliding window frame is provided with an angle slide rail which is marked as an upper slide rail, and the lower part of the sliding window frame is provided with a lower slide rail which is marked as a lower slide rail. The included angle between the inclined section and the straight line section of the upper slide rail and the lower slide rail is 1-5 degrees. The problem that the straight sliding rail type sliding window cannot realize continuous sealing, and the bent sliding rail type sliding window does not have larger movement space inside the machine body is solved.

Description

Oblique slide rail type sliding window

Technical Field

The invention belongs to the technical field of structural design of helicopters, and particularly relates to an inclined slide rail type sliding window.

Background

The existing helicopter sliding window configurations can be divided into an embedded type and an externally-hung type, wherein the embedded type generally adopts a curved slide rail, the sliding performance and the sealing performance are better, but the requirements on the peripheral structure are more limited, and a larger Y-direction space needs to be provided on a helicopter body so that the sliding window moves inwards; the outer hanging type adopts a straight slide rail mostly, the structure is simple, but the problems of friction between a sliding window and a sealing rubber strip, complex sealing structure and the like exist mostly in the sliding process.

Disclosure of Invention

The purpose of the invention is as follows: the sliding window in the inclined slide rail configuration of the helicopter is used for solving the problems that the sliding window in the straight slide rail configuration cannot realize continuous sealing and the sliding window in the bent slide rail configuration does not have larger movement space in the helicopter body.

The technical scheme of the invention is as follows:

an inclined slide rail type sliding window comprises a window body, an upper slide rail, a lower slide rail, an upper pulley assembly and a lower pulley assembly;

the upper sliding rail and the lower sliding rail are divided into an inclined section and a straight section; the inclined section is located in the area of the sliding window frame, the straight line section is located on the machine body structure beside the sliding window frame, and an included angle between the inclined section and the straight line section is 1-5 degrees;

the upper pulley component is fixed above the window body, and a pulley in the upper pulley component is arranged in the upper sliding rail and can slide in the upper sliding rail;

the lower pulley assembly is fixed below the window body, and pulleys in the lower pulley assembly are installed in the lower sliding rails and can slide in the lower sliding rails.

Furthermore, the upper slide rail is of an upper hanging type, and the section of the upper slide rail is of a C shape with a downward opening and a long flanging;

the lower slide rail is of an upper hanging type, and the section of the lower slide rail is of a C shape with a downward opening and a short flanging.

Further, the upper sheave assembly includes a plurality of upper sheave assemblies, each upper sheave assembly including: the device comprises an upper double-lug support, an upper single-lug boss support, two transverse wheels and two vertical wheels; the upper single-lug boss support is hinged with the upper double-lug support through a flat head shaft; the two transverse wheels are connected with the front side and the rear side of the upper single-lug boss bracket through flat shafts; the connecting line of the two transverse wheels is parallel to the upper sliding rail; the two vertical wheels are connected with the left side and the right side of the upper single-lug boss bracket through flat shafts, and the connecting line of the two vertical wheels is vertical to the connecting line of the two transverse wheels;

two vertical wheels slide on two long turned edges of the upper slide rail, and two transverse wheels slide between two side walls of the upper slide rail.

Furthermore, the two vertical wheels are positioned in the middle of the two transverse wheels, and the outer end faces of the two vertical wheels do not exceed the tangent point connecting line of the two transverse wheels and the side wall of the upper sliding rail.

Further, the lower pulley assembly includes a plurality of lower pulley blocks, each lower pulley block including: the lower double-lug support, the lower single-lug boss support and the transverse wheel are arranged on the lower side of the lower single-lug boss; one end of the lower double-lug support is fixed below the window body, the single lug end of the lower single-lug boss support is hinged to the double lug end of the lower double-lug support through a flat-head shaft, the transverse wheel is connected to the other end of the lower single-lug boss support through the flat-head shaft, and the transverse wheel slides between two side walls of the lower sliding rail.

Further, the sliding window further includes: a front end locking mechanism, the front end locking mechanism comprising: a fixed stop component fixed on the front end structure of the machine body and a lock hook component fixed on the window body;

the fixing and stopping member includes: the base is provided with a toothed lock pin, a toothed plate and a rubber inclined plane stop block;

the base is provided with a toothed lock pin vertically arranged on a toothed plate, the toothed plate is fixed on a machine body structure through a bolt, and one side of the toothed plate, which is provided with the base and the toothed lock pin, is also provided with a rubber inclined plane stop dog;

the lock hook component comprises a lock box cover plate, a lock box, a lock hook, a rotating shaft, a tension spring for providing pretightening force, an outer side driving handle and an inner side driving handle;

the lock box is fixed at the front end of the window body through a bolt; the rotating shaft is arranged in the bottom surface of the lock box, one end of the lock hook is fixed with the rotating shaft, and the other end of the lock hook is matched with the toothed lock pin of the base for locking the front end locking mechanism; the outer side driving handle and the inner side driving handle are respectively positioned at the outer side and the inner side of the window body and are fixed with the rotating shaft; the outer side driving handle and the inner side driving handle are used for driving the rotating shaft to rotate so as to drive the lock hook to rotate, so that the front end locking mechanism is opened and closed; one end of the tension spring is connected with the lock hook, the other end of the tension spring is connected with the side wall of the lock box, and the tension spring is used for providing locking force for closing the lock hook; the lock box cover plate is used for sealing the lock box.

Further, the sliding window further includes: rear end limiting mechanism, rear end limiting mechanism includes: a rotation stopping component fixed on the rear end structure of the machine body;

the rotation stopping member includes: the device comprises a limiting box, a rotating shaft, a pre-tightening pressure spring, a rotating limiting boss, a limiting handle, a rotating limiting ball and a limiting ball pressure spring;

the limiting box is fixed on the machine body structure, the rotating shaft is arranged in the limiting box and penetrates through the limiting box, and the pre-tightening pressure spring is sleeved on the rotating shaft in the limiting box;

the rotary limiting boss is sleeved on the rotary shaft close to the machine body structure side and attached to the limiting box; the limiting handle is arranged at one end of the rotating shaft close to the window body; a groove is formed in the rotary limiting boss, a limiting ball pressure spring is arranged in the groove and connected to the outer side of the limiting ball pressure spring, a first limiting hole is formed in the joint side of the limiting box and the rotary limiting boss, and the limiting ball is matched with the limiting hole and used for limiting the limiting handle in the direction perpendicular to the window body to prevent the limiting handle from rotating; the limiting handle is used for rotating to the direction perpendicular to the window body to limit the window body to move towards the window frame when the window body is opened.

Further, a second limiting hole is formed in the joint side of the limiting box and the rotary limiting boss, and the difference between the second limiting hole and the first limiting hole is 90 degrees relative to the center of the rotary shaft; the second limiting hole is used for being matched with the limiting ball to limit the limiting handle in the vertical direction so as to prevent the limiting handle from rotating; a horizontal through hole is formed in the limiting handle; a limiting hook is fixed at the rear end of the window body; the limiting hook is used for preventing the window body from moving perpendicular to the plane of the window body when the window body is closed.

The invention has the beneficial technical effects that: the invention provides a sliding window with a helicopter inclined slide rail structure, which solves the problems that the sliding window with a straight slide rail structure cannot realize continuous sealing, and the sliding window with a bent slide rail structure does not have larger movement space inside a helicopter body. The sliding window adopts a unique pulley component matching mode, namely, two vertical theories which are symmetrically distributed left and right and two transverse wheel structural forms which are symmetrically distributed front and back, so that the sliding window is prevented from sliding and clamping when sliding in the process of straightening the inclined sliding rail. The rear end of the sliding window is provided with a limiting mechanism integrating closing limiting and opening limiting, so that the rear end limiting in a sliding closing state is ensured, and the sliding window does not tend to move when being in a completely opening state. The sliding limiting test is carried out on the sliding window principle sample piece with the inclined slide rail configuration, and the result shows that the flexible sliding of the sliding window can be realized

Drawings

FIG. 1 is a schematic view of a sliding window of the slanted slide rail type;

FIG. 2 is a schematic view of the upper and lower slide rails;

FIG. 3 is a schematic view of an upper pulley set;

FIG. 4 is a schematic view of the lower sheave block;

FIG. 5 is a schematic view of a front end locking mechanism;

FIG. 6 is a schematic view of a rear end positioning mechanism;

description of the numbering: 1-a window body; 2-upper sliding rail; 3-lower slide rail; 4-an upper pulley assembly; 5-a lower slider assembly; 6-front end locking mechanism; 7-a rear end limiting mechanism; 41-upper binaural bracket; 42-upper single lug boss bracket; 43-transverse wheels; 44-vertical wheels; 45-slotted bolts; 46-a flat head shaft; 47-bullnose flat head axis; 51-lower binaural bracket; 52-lower single lug boss bracket; 53-plain head axis; 54-a transverse wheel; 61-base toothed locking pin; 62-a toothed plate; 63-rubber inclined plane stop block; 64-lock box cover plate; 65-lock box; 66-a rotation axis; 67-tension spring; 68-an outboard drive handle; 69-inner drive handle; 71-a limit box; 72-limiting the rotation axis; 73-pre-tightening a pressure spring; 74-rotation limiting boss; 75-a limit handle; 76-rotation limiting ball; 77-limiting ball pressure spring; 78-with base latch hook.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

A sliding window with a helicopter inclined slide rail structure is shown in figure 1 and comprises an upper inclined slide rail and a lower straight slide rail which are arranged on a helicopter body structure and are connected with an upper pulley assembly and a lower pulley assembly of a window body 1; wherein, the upper part of the sliding window frame is provided with an angle sliding rail which is marked as an upper sliding rail 2; the lower part of the sliding window is provided with a sliding rail with an angle, the sliding rail is marked as a lower sliding rail 3, and the included angle between the inclined section and the straight section of the upper sliding rail and the lower sliding rail is 2.5 degrees.

Further, since the sliding window is in an upper hanging type structure, the upper pulley assembly 4 is provided with the vertical wheels and the transverse wheels, and the lower pulley assembly 5 is provided with only the transverse wheels, the upper and lower sliding rail assemblies are different in length of the lower end, as shown in fig. 2.

Four groups of pulley assemblies are arranged at the upper and lower positions of the sliding window, wherein a group of pulley assemblies with the same structural configuration are arranged at the front and the rear of the upper part of the window body 1 and are marked as an upper pulley assembly 4; a group of pulley assemblies with the same structure, namely a lower pulley assembly 5, is respectively arranged at the front and the rear of the lower part of the window body 1;

as shown in fig. 3, the upper pulley assembly 4 includes an upper binaural bracket 41 connected to the window body 1, an upper monaural boss bracket 42 connected to the upper binaural bracket 41, two transverse wheels 43, and two vertical wheels 44; the transverse wheels 43 and the vertical wheels are connected with the upper single-lug boss bracket 42 through large round head flat head shafts 47, and the vertical wheels 44 are connected with the upper single-lug boss bracket 42 through straight-groove bolts 45;

further, the vertical wheels 44 are disposed at the middle position of the upper pulley assembly 4 and are symmetrically arranged, and the two transverse wheels 43 are disposed at the front and rear ends of the upper pulley assembly 4.

As shown in fig. 4, the lower pulley assembly 5 includes a lower double-lug support 51 fixedly connected to the window body 1, a lower single-lug boss toothed support 52 connected to the pulley, and a transverse wheel 54. The transverse wheel 54 is connected with the lower single-lug boss toothed bracket 52 through a flat head shaft 53;

when the window body 1 is in a closed state, the window body 1 is limited through the window body front end locking mechanism 6 and the window body rear end limiting mechanism 7.

As shown in fig. 5, the window body front end locking mechanism 6 includes a fixed stopper member fixed to the body structure and a locking hook member attached to the sliding window. When the sliding window is closed, a locking hook in the locking hook component collides with a locking pin of the fixed stopping component, and a locking box of the locking hook component is limited by the inclined plane of a rubber stopper of the fixed stopping component, so that the limitation of the sliding window is realized.

Further, the fixed stop component comprises a base toothed lock pin 61, a toothed plate 62 and a rubber inclined surface stop 63;

further, the latch hook component includes a latch box cover 64, a latch box 65, a rotating shaft 66, a tension spring 67 for providing a pre-tightening force, an outer driving handle 68, and an inner driving handle 69;

as shown in fig. 6, the window body rear end positioning mechanism 7 includes a rotation stopping member fixed to the body rear end structure and a rear end positioning hook member connected to the sliding window. When the window body 1 is closed, the limiting hook in the rear limiting hook component is inserted into the square hole of the rotation stopping component to realize the rear limiting of the sliding window.

Further, the rotation stopping component comprises a limiting box 71, a limiting rotating shaft 72, a pre-tightening pressure spring 73, a rotation limiting boss 74, a limiting handle 75, a rotation limiting ball 76 and a limiting ball pressure spring 77;

further, the rear end limiting hook component comprises a base-carrying locking hook 78;

when the window body 1 is completely opened, the limiting handle 75 is rotated clockwise, the other handle of the limiting handle 75 blocks the front end of the sliding window, and the rotating limiting ball 76 on the rotating limiting boss 74 is clamped in the groove on the limiting box 71, so that the sliding window is limited and does not move forwards.

The foregoing is merely a detailed description of the embodiments of the present invention, and some of the conventional techniques are not detailed. The scope of the present invention is not limited thereto, and any changes or substitutions that can be easily made by those skilled in the art within the technical scope of the present invention will be covered by the scope of the present invention. The protection scope of the present invention shall be subject to the protection scope of the claims.

Claims

1. An inclined slide rail type sliding window is characterized in that the sliding window comprises a window body, an upper slide rail, a lower slide rail, an upper pulley assembly and a lower pulley assembly;

the upper sliding rail and the lower sliding rail are divided into an inclined section and a straight section; the inclined section is located in the area of the sliding window frame, the straight line section is located on the machine body structure beside the sliding window frame, and an included angle between the inclined section and the straight line section is 1-5 degrees; the upper sliding rail is of an upper hanging type, and the section of the upper sliding rail is of a C shape with a downward opening and a long flanging;

the lower pulley assembly is fixed below the window body, and pulleys in the lower pulley assembly are arranged in the lower sliding rails and can slide in the lower sliding rails;

the upper sheave assembly includes a plurality of upper sheave blocks, and every upper sheave block all includes: the device comprises an upper double-lug support, an upper single-lug boss support, two transverse wheels and two vertical wheels; the upper single-lug boss bracket is fixed above the window body and is hinged with the upper double-lug bracket through a flat head shaft; the two transverse wheels are connected with the front side and the rear side of the upper single-lug boss bracket through flat shafts; the connecting line of the two transverse wheels is parallel to the upper sliding rail; the two vertical wheels are connected with the left side and the right side of the upper single-lug boss bracket through flat heads, and the connecting line of the two vertical wheels is perpendicular to the connecting line of the two transverse wheels.

2. A sliding window of the slanted slide rail type as set forth in claim 1, wherein:

3. The sliding window with inclined sliding track according to claim 2, wherein the two vertical wheels slide on the two long flanges of the upper sliding track, and the two horizontal wheels slide between the two side walls of the upper sliding track.

4. The sliding window with inclined sliding rail according to claim 3, wherein the two vertical wheels are located at the middle position of the two horizontal wheels, and the outer end faces of the two vertical wheels do not exceed the tangent point connecting line of the two horizontal wheels and the side wall of the upper sliding rail.

5. The sliding window of claim 2, wherein the lower pulley assembly comprises a plurality of lower pulley sets, each lower pulley set comprising: the lower double-lug support, the lower single-lug boss support and the transverse wheel are arranged on the lower side of the lower single-lug boss; one end of the lower double-lug support is fixed below the window body, the single lug end of the lower single-lug boss support is hinged to the double lug end of the lower double-lug support through a flat head shaft, the transverse wheel is connected to the other end of the lower single-lug boss support through the flat head shaft, and the transverse wheel slides between two side walls of the lower sliding rail.

6. The sliding window of claim 1, further comprising: a front end locking mechanism, the front end locking mechanism comprising: a fixed stop component fixed on the front end structure of the machine body and a lock hook component fixed on the window body;

the lock box is fixed at the front end of the window body through a bolt; the rotating shaft is arranged in the bottom surface of the lock box, one end of the lock hook is fixed with the rotating shaft, and the other end of the lock hook is matched with the toothed lock pin of the base to be used for locking the front end locking mechanism; the outer side driving handle and the inner side driving handle are respectively positioned at the outer side and the inner side of the window body and are fixed with the rotating shaft; the outer side driving handle and the inner side driving handle are used for driving the rotating shaft to rotate so as to drive the lock hook to rotate, so that the front end locking mechanism is opened and closed; one end of the tension spring is connected with the lock hook, the other end of the tension spring is connected with the side wall of the lock box, and the tension spring is used for providing locking force for closing the lock hook; the lock box cover plate is used for sealing the lock box.

7. The sliding window of claim 1, further comprising: rear end limiting mechanism, rear end limiting mechanism includes: a rotation stopping component fixed on the rear end structure of the machine body;

8. The sliding window of claim 7, wherein the joint side of the position-limiting box and the rotation-limiting boss is provided with a second position-limiting hole, and the difference between the second position-limiting hole and the first position-limiting hole is 90 degrees relative to the center of the rotation shaft; the second limiting hole is used for being matched with the limiting ball to limit the limiting handle in the vertical direction so as to prevent the limiting handle from rotating; a horizontal through hole is formed in the limiting handle; a limiting hook is fixed at the rear end of the window body; the limiting hook is used for preventing the window body from moving perpendicular to the plane of the window body when the window body is closed.