CN216130779U - Rotary safety anti-theft sliding sash structure - Google Patents

Abstract

The utility model relates to the technical field of aluminum alloy sliding doors and windows, in particular to a rotary safe anti-theft sliding window structure which comprises a window frame connected and matched with a wall surface, wherein a plurality of sliding window sashes are arranged on the window frame; the locking structure comprises a locking groove arranged on the window frame, an elastic plate is arranged in the locking groove, and the elastic plate is switched between a pressing position and a bouncing position; the locking structure also comprises a pressing plate piece correspondingly arranged on the horizontal section at the bottom of the sliding sash, and the pressing plate piece is provided with a clamping groove and is clamped with the elastic plate for locking or separated for unlocking; the unlocking piece is used for shifting the elastic plate from the locking position to the unlocking position; the unlocking member includes a knob assembly connected to the window frame and rotating the switching position between the first angle and the second angle. The utility model avoids damaging the locking structure; the sliding window sash can be independently positioned and locked, and the reliability is higher.

Description

Rotary safety anti-theft sliding sash structure

Technical Field

The utility model relates to the technical field of aluminum alloy sliding doors and windows, in particular to a rotary type safe anti-theft sliding window structure.

Background

The sliding window is used as a structural accessory of a household room and has been widely used as a decoration component of the household room. The sliding window generally comprises a basic window frame arranged at a window opening on a wall body, wherein a plurality of sliding rail structures are arranged on the window frame, and then the window sash is in sliding fit with the sliding rail structures.

In the prior art, a sliding sash structure generally adopts a structure that a corresponding locking structure is arranged at the vertical side where a sash is matched with a window frame, so that the sash is connected and locked with the window frame; or a non-return structure is arranged between two adjacent sashes, so that the two adjacent sashes cannot retreat and slide, and the two sashes can be locked when being arranged. However, the existing window sash locking structures all have certain defects:

for example, the locking structure disposed on the vertical side of the window sash is usually a locking structure that slides up and down, and is opened when sliding to one side and locked when sliding to the other side, and there is no mechanism for automatic return.

The non-return structure is arranged between two adjacent sashes, the application of the non-return structure is generally limited to a structure with double sashes, when the number of the sashes is more, the non-return structure is difficult to realize the corresponding non-return effect, or part of the non-return structure needs to be reversely arranged to enable all the sashes to realize relative locking. However, when the locking device is arranged in this way, the situation that the locking effect can be realized only by resetting the position of the window sash due to the disordered matching of the non-return structure after the window sash moves still exists. Thus greatly reducing the efficiency of the sash locking arrangement.

Therefore, the existing sliding window structure still has an improvement, the locking structure of the sliding window structure is insufficient in a specific using process, the structure is easily damaged or the operation efficiency is easily reduced, and a more reasonable technical scheme is required to be provided aiming at the defects in the existing scheme, so that the technical problem in the prior art is solved.

SUMMERY OF THE UTILITY MODEL

In order to solve the defects in the prior art, the utility model provides a rotary type safe anti-theft sliding sash structure, which aims to improve the locking structure between a sash and a frame, so that the phenomenon that the locking structure is damaged due to collision can not occur in the relative movement process of the sash and the frame, and the operation efficiency of locking the window can be improved.

In order to achieve the above effects, the utility model adopts the technical scheme that:

a rotary safe anti-theft sliding window structure comprises a window frame which is connected and matched with a wall surface, wherein a plurality of sliding window sashes are arranged on the window frame, double sliding rails are arranged between the sliding window sashes and the window frame, a certain gap is reserved between the double sliding rails, and locking structures are respectively arranged in the gap corresponding to the position of each sliding window sash when the sliding window sash moves to be closed; the locking structure comprises a locking groove arranged on the horizontal section of the bottom of the window frame, an elastic plate is arranged in the locking groove, the elastic plate is switched between a pressing position and a bouncing position, the elastic plate is hinged with the locking groove, and an elastic restoring piece is arranged at the hinged position; the locking structure also comprises a pressing plate piece correspondingly arranged on the horizontal section at the bottom of the sliding sash, and the pressing plate piece is provided with a clamping groove and is clamped with the elastic plate for locking or separated for unlocking; the locking groove and the pressing plate piece are both positioned in a gap between the double sliding rails, and the locking device also comprises an unlocking piece used for shifting the elastic plate from a locking position to an unlocking position; the unlocking piece comprises a knob component, the knob component is connected to the window frame and rotates between a first angle and a second angle to switch positions, and when the knob component is switched to the first angle, the elastic plate deflects downwards and enters the lock groove; when the knob assembly is switched to the second angle, the elastic plate rebounds upwards and exits the lock slot.

Above-mentioned public austral window, sliding sash structure through set up locking structure at the bottom horizontal segment of window frame with the slip casement, realizes locking or unblock through the sliding fit of bottom, has avoided the locking structure collision damage that the slip casement leads to at the slip in-process, carries out the independent location locking to every casement simultaneously, also can satisfy the locking demand under a plurality of casement circumstances.

Furthermore, the matching structure of the locking groove and the elastic plate adopted by the utility model can be various, and the utility model is optimized and one of the feasible options is provided: the locking groove and the elastic plate are positioned at the horizontal section of the bottom of the window frame, the pressure plate piece is positioned at the horizontal section of the bottom of the sliding window sash, and the unlocking piece is positioned at the horizontal section of the bottom of the window frame and correspondingly matched with the pressure plate piece. When the scheme is adopted, the elastic plate is normally upwards bounced and is located at the locking position, the elastic plate deflects downwards and rotates to the unlocking position when the pressing plate piece is pressed from the elastic plate, the sliding window sash continues to slide forwards, the elastic plate deflects upwards again to the locking position after the pressing plate piece slides through the elastic plate, the elastic plate abuts against the clamping groove of the pressing plate piece to be tightly matched to realize locking, and the sliding window sash cannot be directly retreated.

Further, the structure of the platen member is not limited, and is optimized and one of the possible options is: the clamp plate piece still including setting up in the anterior lock seat of draw-in groove, be provided with the orientation lever on the lock seat, coaxial cup jointing has compressed the body on the orientation lever, cup joints the elastic component on the orientation lever, the elastic component supports tightly compresses the body and will compress tightly the body and promote downwards. When the scheme is adopted, the elastic piece can adopt a spring, the bolt body is pushed downwards under the action of the elastic force of the spring, and the reciprocating motion direction of the bolt body is the direction of the directional rod.

Furthermore, the structure of the pressing body is optimized, and the following feasible options are provided: the lower end of the pressing body is provided with a roller which slides along the horizontal section of the window frame and slides on the upper surface of the elastic plate to be pressed.

Further, in the present invention, the knob assembly may adopt various schemes, and is specifically optimized and one of the feasible options is shown: the knob subassembly including rotate the knob spare that sets up on the slip casement, still including setting up the top push member in the window frame is inside, the top push member on be provided with knob spare complex connecting portion, still be provided with elastic plate complex butt portion, switch over to the second angle from first angle when the knob subassembly, knob spare promotes connecting portion and makes the top push member upwards move along linear motion, and butt portion moves along circumference upward and promotes the elastic plate upwards to deflect and withdraw from the locked groove.

Furthermore, a mounting groove is formed in the sliding window sash, and the locking structure is arranged in the mounting groove. When adopting such scheme, mounting groove and slip casement integrated into one piece.

Further, the locked groove department be provided with the cell body, cell body detachably connects on the window frame and the cell body stretches into in the locked groove.

Furthermore, the elastic plate and the elastic reset piece at the locking groove are torsion springs.

Furthermore, the window frame is provided with a limiting structure matched with the knob assembly.

Still further, the limit structure comprises an upper limit structure and a lower limit structure.

Compared with the prior art, the utility model has the beneficial effects that:

according to the utility model, the locking structures are arranged at the bottom horizontal sections of the sliding window sash and the window frame, so that the locking structures are prevented from being damaged due to collision between the window sash and the window frame in the sliding process; the sliding window sash can be independently positioned and locked, and the reliability is higher.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, it should be understood that the following drawings only show some embodiments of the present invention, and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is a schematic structural diagram at a sliding window rail.

Fig. 2 is a schematic view of the sliding window structure in the embodiment, in which the unlocking member is located at the locking position.

Figure 3 is a schematic view of the embodiment of the sliding window with the unlocking member in the unlocked position.

In the above figures, the meanings of the reference symbols are as follows: 1. a window frame; 2. a sliding sash; 3. a lock seat; 4. an orientation bar; 5. an elastic member; 6. a compression body; 7. a roller; 8. locking the groove; 9. an elastic plate; 10. pushing the piece; 11. rotating the block; 12. a lower limit structure; 13. and an upper limiting structure.

Detailed Description

The utility model is further explained below with reference to the drawings and the specific embodiments.

It should be noted that the description of the embodiments is provided to help understanding of the present invention, but the present invention is not limited thereto. Specific structural and functional details disclosed herein are merely illustrative of example embodiments of the utility model. This invention may, however, be embodied in many alternate forms and should not be construed as limited to the embodiments set forth herein.

In the following description, specific details are provided to facilitate a thorough understanding of example embodiments. However, it will be understood by those of ordinary skill in the art that the example embodiments may be practiced without these specific details. For example, systems may be shown in block diagrams in order not to obscure the examples in unnecessary detail. In other instances, well-known processes, structures and techniques may be shown without unnecessary detail in order to avoid obscuring example embodiments.

Examples

To the condition that present slip casement will all have the drawback through side locking or through contrary locking structure, or damage locking structure, or reliable inadequately during locking, this embodiment optimizes the problem in order to solve prior art to the structure of slip casement.

As shown in fig. 1, 2 and 3, a rotary safe anti-theft sliding sash structure comprises a window frame 1 connected and matched with a wall surface, wherein a plurality of sliding sashes 2 are arranged on the window frame 1, double sliding rails are arranged between the sliding sashes 2 and the window frame 1, a certain gap is reserved between the double sliding rails, and locking structures are respectively arranged in the gap corresponding to the positions of each sliding sash 2 when the sliding sash 2 moves to be closed; the locking structure comprises a locking groove 8 arranged on the horizontal section at the bottom of the window frame 1, an elastic plate 9 is arranged in the locking groove 8, the elastic plate 9 is switched between a pressing position and a bouncing position, the elastic plate 9 is hinged with the locking groove 8, and an elastic restoring piece is arranged at the hinged position; the locking structure also comprises a pressing plate piece correspondingly arranged on the horizontal section at the bottom of the sliding sash 2, and the pressing plate piece is provided with a clamping groove and is clamped with the elastic plate 9 for locking or separated unlocking; the locking groove 8 and the pressing plate piece are both positioned in a gap between the double sliding rails, and the locking device also comprises an unlocking piece used for shifting the elastic plate 9 from a locking position to an unlocking position; the unlocking part comprises a knob component which is connected with the window frame 1 and rotates at a switching position between a first angle and a second angle, and when the knob component is switched to the first angle, the elastic plate 9 deflects downwards and enters the locking groove 8; when the knob assembly is switched to the second angle, the elastic plate 9 springs back upward and exits the locking slot 8.

Above-mentioned public austral window, sliding sash structure through set up locking structure at the bottom horizontal segment of window frame 1 with slip casement 2, realizes locking or unblock through the sliding fit of bottom, has avoided the locking structure collision damage that slip casement 2 leads to at the slip in-process, carries out the independent location locking to every casement simultaneously, also can satisfy the locking demand under the a plurality of casement circumstances.

The embodiment can adopt various matching structures of the locking groove 8 and the elastic plate 9, and is optimized and adopts one of the feasible options: the locking groove 8 and the elastic plate 9 are positioned at the bottom horizontal section of the window frame 1, the pressure plate piece is positioned at the horizontal section of the bottom of the sliding window sash 2, and the unlocking piece is positioned at the bottom horizontal section of the window frame 1 and correspondingly matched with the pressure plate piece. When adopting such scheme, the elastic plate 9 upwards bounces and is in the locking position under the normality, and when the clamp plate piece pressed from the elastic plate 9, the elastic plate 9 deflected downwards and rotated to the unlocking position, and when the sliding window sash 2 continued to slide forward, after the clamp plate piece slipped the elastic plate 9, the elastic plate 9 deflected upwards again to the locking position, and the draw-in groove of elastic plate 9 and clamp plate piece at this moment supported the tight cooperation and realized locking, and the sliding window sash 2 can't directly retreat.

The structure of the platen member is not limited, and the present embodiment is optimized and adopts one of the possible options: the clamp plate piece still including setting up in the anterior lock seat 3 of draw-in groove, be provided with directional pole 4 on the lock seat 3, coaxial cup jointing has compressing body 6 on directional pole 4, cup joints elastic component 5 on directional pole 4, elastic component 5 supports tightly compresses tightly body 6 and will compress tightly body 6 and promote downwards. When the scheme is adopted, the elastic piece 5 can adopt a spring, the bolt body is pushed downwards under the action of the elastic force of the spring, and the reciprocating motion direction of the bolt body is the direction of the directional rod 4.

The structure of the compression body 6 is optimized in the embodiment, and the following feasible options are adopted: the lower end of the pressing body 6 is provided with a roller 7, and the roller 7 slides along the horizontal section of the window frame 1 and slides on the upper surface of the elastic plate 9 to be pressed.

In this embodiment, the knob assembly may adopt a plurality of schemes, and is specifically optimized and adopts one of the feasible options: the knob subassembly including rotate the knob spare that sets up on slip casement 2, still including setting up the top push member in window frame 1 inside, top push member 10 on be provided with knob spare complex connecting portion, still be provided with elastic plate 9 complex butt portion, switch over to the second angle from first angle when the knob subassembly, knob spare promotes connecting portion and makes top push member 10 move up along linear motion, and butt portion moves up along the circumference and promotes elastic plate 9 and upwards deflect and withdraw from locked groove 8.

Preferably, an installation groove is formed in the sliding window sash 2, and the locking structure is arranged in the installation groove. When adopting such scheme, mounting groove and slip casement 2 integrated into one piece.

Preferably, the locking groove 8 is provided with a groove body, the groove body is detachably connected to the window frame 1, and the groove body extends into the locking groove 8.

Preferably, the elastic plate 9 and the elastic restoring member at the locking groove 8 are torsion springs.

In this embodiment, the window frame 1 is provided with a limiting structure matched with the knob assembly.

Preferably, the limiting structure comprises an upper limiting structure 13 and a lower limiting structure 12.

The above embodiments are just exemplified in the present embodiment, but the present embodiment is not limited to the above alternative embodiments, and those skilled in the art can obtain other various embodiments by arbitrarily combining with each other according to the above embodiments, and any other various embodiments can be obtained by anyone in light of the present embodiment. The above detailed description should not be construed as limiting the scope of the present embodiments, which should be defined in the claims, and the description should be used for interpreting the claims.

Claims (10)

1. The utility model provides a rotary safe theftproof slip austral window, sliding sash structure which characterized in that: the window comprises a window frame (1) connected and matched with a wall surface, wherein a plurality of sliding window sashes (2) are arranged on the window frame (1), double sliding rails are arranged between the sliding window sashes (2) and the window frame (1), a certain gap is reserved between the double sliding rails, and a locking structure is respectively arranged in the gap corresponding to the position of each sliding window sash (2) when the sliding window sash moves to be closed; the locking structure comprises a locking groove (8) arranged on the horizontal section of the bottom of the window frame (1), an elastic plate (9) is arranged in the locking groove (8), the elastic plate (9) is switched between a pressing position and a bouncing position, the elastic plate (9) is hinged with the locking groove (8), and an elastic restoring piece is arranged at the hinged position; the locking structure also comprises a pressing plate piece correspondingly arranged on the horizontal section at the bottom of the sliding window sash (2), and the pressing plate piece is provided with a clamping groove and is clamped with the elastic plate (9) for locking or separating for unlocking; the locking groove (8) and the pressure plate piece are both positioned in a gap between the double sliding rails, and the locking device also comprises an unlocking piece for shifting the elastic plate (9) from a locking position to an unlocking position; the unlocking piece comprises a knob component which is connected to the window frame (1) and rotates between a first angle and a second angle to a switching position, and when the knob component is switched to the first angle, the elastic plate (9) deflects downwards and enters the locking groove (8); when the knob assembly is switched to the second angle, the elastic plate (9) rebounds upwards and exits the lock slot (8).

2. A rotary safety anti-theft sliding sash structure according to claim 1, characterized in that: the locking groove (8) and the elastic plate (9) are located at the horizontal section of the bottom of the window frame (1), the pressing plate piece is located at the horizontal section of the bottom of the sliding window sash (2), and the unlocking piece is located at the horizontal section of the bottom of the window frame (1) and is correspondingly matched with the pressing plate piece.

3. A rotary safety anti-theft sliding sash structure according to claim 1 or 2, characterized in that: the clamp plate piece still including setting up in the anterior lock seat (3) of draw-in groove, be provided with directional pole (4) on lock seat (3), coaxial cup jointing has compressing body (6) on directional pole (4), cup joints elastic component (5) on directional pole (4), elastic component (5) support tightly compress body (6) and will compress body (6) and promote downwards.

4. A rotary safety anti-theft sliding sash structure according to claim 3, characterized in that: the lower end of the pressing body (6) is provided with a roller (7), and the roller (7) slides along the horizontal section of the window frame (1) and slides on the upper surface of the elastic plate (9) to be pressed.

5. A rotary safety anti-theft sliding sash structure according to claim 1, characterized in that: the knob subassembly including rotate the knob spare that sets up on slip casement (2), still including setting up the top that pushes up in window frame (1) inside, top push up and be provided with on (10) with knob spare complex connecting portion, still be provided with elastic plate (9) complex butt portion, switch over to the second angle from first angle when the knob subassembly, knob spare promotes connecting portion and upwards moves and make top push up (10) and shift up, and butt portion moves and promotes elastic plate (9) upwards deflection and withdraw from locked groove (8) along circumference upward movement.

6. A rotary safety anti-theft sliding sash structure according to claim 1, characterized in that: the sliding window sash (2) is internally provided with an installation groove, and the locking structure is arranged in the installation groove.

7. A rotary safety anti-theft sliding sash structure according to claim 1, characterized in that: the lock groove (8) is provided with a groove body which is detachably connected to the window frame (1) and extends into the lock groove (8).

8. A rotary safety anti-theft sliding sash structure according to claim 1, characterized in that: the elastic reset pieces at the positions of the elastic plate (9) and the locking groove (8) are torsion springs.

9. A rotary safety anti-theft sliding sash structure according to claim 1, characterized in that: the window frame (1) is provided with a limiting structure matched with the knob assembly.

10. A rotary safety anti-theft sliding sash structure according to claim 9, characterized in that: the limiting structure comprises an upper limiting structure (13) and a lower limiting structure (12).

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