CN217518463U - Spring link structure for drifting inner inverted window system - Google Patents

Abstract

The utility model discloses a spring link structure for drift inner window system, which belongs to the technical field of doors and windows, and comprises a first fixed supporting rod and a second fixed supporting rod which are connected with a window frame in a sliding way and a fixed supporting plate which is fixedly connected with a window sash, wherein the first fixed supporting rod and the second fixed supporting rod are respectively provided with one fixed supporting plate in a matching way, the bottom surfaces of the first fixed supporting rod and the second fixed supporting rod are respectively and rotatably connected with a movable component and are arranged in parallel with each other, the top surface of the fixed supporting plate is fixedly provided with a fixed component, and a linkage component, a limiting component, a buffering rotating component, a buffering sliding component, a buffering spring and a rotating pin shaft are sequentially arranged between the adjacent ends of the fixed component and the movable component; it can realize that the casement stationarity that opens and shuts is better, reduces wearing and tearing each other, improves life, can lock after the closure simultaneously, and the closed compactness of window is higher, can not take place to rock.

Description

Spring link structure for drifting inner inverted window system

Technical Field

The utility model relates to a door and window technical field, more specifically say, relate to a fall window spring link structure for system in drift.

Background

The drift window occupies a small space, has good sealing performance, is not easy to damage accessories, and overcomes the defects of large occupied space and the like caused by falling of a casement window and a casement window.

Through patent retrieval, Chinese patent with publication number CN 215056651U discloses a drifting inner inverted window system structure, and the device solves the problems that the existing drifting inner inverted window structure is too complex and is not convenient to slide;

but in the in-service use process, because the rotation folding position at top lacks buffer gear for the sound is all bigger when opening and shutting the window at every turn, and the rotating-structure wearing and tearing are comparatively serious, takes place the card shell easily moreover, and lack locking mechanism when closing the window, stability is not good after the window is closed, takes place to rock easily, and closed compactness is not high.

SUMMERY OF THE UTILITY MODEL

1. Technical problem to be solved

To the problem that exists among the prior art, the utility model aims to provide a fall window spring linkage structure for system in drift, it can realize setting up buffer gear in the folding turned position department of connecting the hinge, makes it the stationarity that opens and shuts better, reduces wearing and tearing each other, improves life, can lock after the closure simultaneously, and the closed compactness of window is higher, can not take place to rock.

2. Technical scheme

In order to solve the above problems, the utility model adopts the following technical proposal.

A spring linking structure for a drifting inner inverted window system comprises a first fixed supporting rod and a second fixed supporting rod which are in sliding connection with a window frame and a fixed supporting plate which is fixedly connected with a window sash, wherein the first fixed supporting rod and the second fixed supporting rod are respectively provided with one fixed supporting plate in a matching mode, the bottom surfaces of the first fixed supporting rod and the second fixed supporting rod are rotatably connected with movable components and are arranged in parallel, the top surface of the fixed supporting plate is fixedly provided with a fixed component, a linkage component, a limiting component, a buffering rotating component, a buffering sliding component, a buffering spring and a rotating pin shaft are sequentially arranged between the adjacent ends of the fixed component and the movable components and are rotatably connected, and one end, far away from the first fixed supporting rod, of the second fixed supporting rod is provided with a locking mechanism for closing and locking;

the fixing component comprises a connecting support plate, and a first connecting through hole, a second connecting through hole and a third connecting through hole are sequentially formed in the connecting support plate away from the fixing end;

the movable assembly comprises a movable support plate, and a fifth connecting through hole and a sixth connecting through hole are sequentially formed in the movable support plate away from the rotating end;

the linkage assembly comprises a rotating connecting block, a seventh connecting through hole is formed in the center of the rotating connecting block, a connecting pin column is arranged on the top surface of the rotating connecting block, and a limiting rotating groove is formed in one side edge of the rotating connecting block;

the limiting assembly comprises a fixed connecting sheet, a fixed pin column is arranged on the top surface of the fixed connecting sheet, and a limiting block is arranged on the outer side surface of the fixed connecting sheet;

the buffer rotating assembly comprises a buffer support, one end of the buffer support is provided with an eighth connecting through hole, and the other end of the buffer support is provided with a limiting sliding chute;

the buffering sliding assembly comprises a buffering sliding block, a limiting column is arranged on the side face of the buffering sliding block, and a ninth connecting through hole is formed in the buffering sliding block in a penetrating mode.

Furthermore, the fifth connecting through hole, the seventh connecting through hole and the central axis of the first connecting through hole are overlapped and are rotatably connected with each other through a pin shaft.

Furthermore, the eighth connecting through hole is rotatably connected to the inside of the limiting rotating groove, and the connecting pin is embedded into the sixth connecting through hole.

Furthermore, the rotating pin shaft is rotatably installed inside the ninth connecting through hole, the buffering sliding block and the limiting column are slidably embedded inside the limiting sliding groove, and the buffering spring is embedded between the side face of the buffering sliding block and the inner wall of the limiting sliding groove and surrounds the outer surface of the limiting column.

Furthermore, the bottom end of the rotating pin shaft is rotatably embedded into the third connecting through hole, the fixing pin column is installed inside the second connecting through hole, and the end part of the limiting block is attached to the side wall of the rotating connecting block.

Further, blocked mechanical system is including seting up in second fixed branch keeps away from the locking groove of first fixed branch one end and with window frame fixed connection's fixing support, the fixing support bottom surface is provided with rotation branch, rotation branch is connected with balanced regulating plate through being provided with connecting pin rod rotation, balanced regulating plate is close to locking groove one end is provided with assorted triangle locking lug with it, the last torsional spring that is provided with of connecting pin rod.

3. Advantageous effects

Compared with the prior art, the utility model has the advantages of:

(1) this scheme is provided with buffering runner assembly, buffering slip subassembly, buffer spring and rotates the round pin axle and cooperatees, and usable buffer spring's compression and bounce-back cushion fixed subassembly and movable assembly's relative rotation to the realization is cushioned opening and shutting of casement, makes the casement stationarity of opening and shutting better, reduces wearing and tearing each other, improves life.

(2) This scheme is provided with blocked mechanical system, can be after the casement is closed, can be at the closed in-process for triangle locking lug and locking groove relative movement to assorted position utilize movable assembly to carry out the propelling movement to triangle locking lug simultaneously, make triangle locking lug imbed the locking inslot portion, realize the closed locking of casement, make window closed compactness higher, can not take place to rock.

Drawings

Fig. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic view of the bottom three-dimensional structure of the present invention;

FIG. 3 is an enlarged view of part A of FIG. 2;

fig. 4 is a schematic view of the local explosion structure of the present invention;

fig. 5 is a schematic view of a local structure of the present invention.

The numbering in the figures illustrates:

1. a first fixed strut; 2. a second fixed strut; 3. fixing a support plate; 4. a fixing assembly; 401. connecting the support plate; 402. a first connecting through hole; 403. a second connecting through hole; 404. a third connecting through hole; 5. a movable component; 501. a movable support plate; 502. a fifth connecting through hole; 503. a sixth connecting through hole; 6. a linkage assembly; 601. rotating the connecting block; 602. a seventh connecting through hole; 603. connecting a pin column; 604. a limiting rotation groove; 7. a limiting component; 701. fixing the connecting sheet; 702. fixing the pin column; 703. a limiting block; 8. a buffer rotating assembly; 801. a buffer support; 802. an eighth connecting through hole; 803. a limiting chute; 9. a buffer slide assembly; 901. a buffer slide block; 902. a ninth connecting through hole; 903. a limiting post; 10. a buffer spring; 11. rotating the pin shaft; 12. a locking groove; 13. a fixed support; 14. rotating the supporting rod; 15. a connecting pin rod; 16. a triangular locking projection; 17. balance adjusting plate.

Detailed Description

The technical solution in the embodiment of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiment of the present invention; obviously, the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and all other embodiments obtained by those skilled in the art without any inventive work are within the scope of the present invention based on the embodiments of the present invention.

Example (b):

referring to fig. 1-5, a spring linking structure for a drifting inward-tilting window system comprises a first fixed supporting rod 1 and a second fixed supporting rod 2 which are in sliding connection with a window frame and a fixed supporting plate 3 which is fixedly connected with a window sash, wherein the first fixed supporting rod 1 and the second fixed supporting rod 2 are respectively provided with one fixed supporting plate 3 in a matching way, the bottom surfaces of the first fixed supporting rod 1 and the second fixed supporting rod 2 are respectively and rotatably connected with a movable assembly 5 and are arranged in parallel, a fixed assembly 4 is fixedly arranged on the top surface of the fixed supporting plate 3, a linkage assembly 6, a limiting assembly 7, a buffering rotating assembly 8, a buffering sliding assembly 9, a buffering spring 10 and a rotating pin shaft 11 are sequentially arranged between the adjacent ends of the fixed assembly 4 and the movable assembly 5 for rotating connection, and one end of the second fixed supporting rod 2, which is far away from the first fixed supporting rod 1, is provided with a locking mechanism for closing and locking;

the fixing component 4 comprises a connecting support plate 401, and a first connecting through hole 402, a second connecting through hole 403 and a third connecting through hole 404 are sequentially formed on the connecting support plate 401 away from the fixed end;

the movable assembly 5 comprises a movable support plate 501, and a fifth connecting through hole 502 and a sixth connecting through hole 503 are sequentially formed on the movable support plate 501 away from the rotating end;

the linkage assembly 6 comprises a rotary connecting block 601, a seventh connecting through hole 602 is formed in the center of the rotary connecting block 601, a connecting pin 603 is arranged on the top surface of the rotary connecting block 601, and a limiting rotary groove 604 is formed in one side edge of the rotary connecting block;

the limiting assembly 7 comprises a fixed connecting sheet 701, a fixed pin 702 is arranged on the top surface of the fixed connecting sheet 701, and a limiting block 703 is arranged on the outer side surface of the fixed connecting sheet 701;

the buffering rotating assembly 8 comprises a buffering support 801, one end of the buffering support 801 is provided with an eighth connecting through hole 802, and the other end of the buffering support 801 is provided with a limiting sliding groove 803;

the buffering sliding assembly 9 comprises a buffering sliding block 901, a limiting column 903 is arranged on the side face of the buffering sliding block 901, and a ninth connecting through hole 902 is formed in the buffering sliding block 901 in a penetrating mode.

Referring to fig. 1 and fig. 4, the central axes of the fifth connecting through hole 502, the seventh connecting through hole 602, and the first connecting through hole 402 are coincident with each other and are rotatably connected to each other by a pin, so that they can rotate coaxially.

Referring to fig. 1 and 4, the eighth connecting through hole 802 is rotatably connected to the inside of the limiting rotation groove 604, so that the buffering rotation assembly 8 can rotate relative to the linkage assembly 6, and the connecting pin 603 is embedded in the sixth connecting through hole 503, so that the movable assembly 5 and the linkage assembly 6 are fixedly connected.

Referring to fig. 4 and 5, the rotating pin 11 is rotatably installed inside the ninth connecting through hole 902, the buffering sliding block 901 and the limiting column 903 are slidably inserted into the limiting sliding groove 803, the buffering spring 10 is inserted between the side surface of the buffering sliding block 901 and the inner wall of the limiting sliding groove 803, and surrounds the outer surface of the limiting column 903, so that the buffering rotating assembly 8 and the buffering sliding assembly 9 can buffer and slide relatively to form a buffer.

Referring to fig. 1 and 4, the bottom end of the rotating pin 11 is rotatably inserted into the third connecting through hole 404, so that the buffering sliding assembly 9 can rotate relative to the fixed assembly 4, and the fixing pin 702 is installed inside the second connecting through hole 403, so that the limiting assembly 7 and the fixed assembly 4 are fixedly connected, and the end of the limiting block 703 is attached to the side wall of the rotating connecting block 601, so that the limiting assembly 7 can be used to limit the rotating angle of the linkage assembly 6, i.e., the rotating angle of the movable assembly 5.

Referring to fig. 2 and 3, the locking mechanism includes a locking groove 12 opened at the second fixing support rod 2 and far away from one end of the first fixing support rod 1 and a fixing support 13 fixedly connected with the window frame, and a rotating support rod 14 is arranged at the bottom of the fixing support 13, and the rotating support rod 14 is rotatably connected with a balance adjusting plate 17 through a connecting pin rod 15, and a triangular locking lug 16 matched with the locking groove is arranged at one end of the balance adjusting plate 17 close to the locking groove 12, and a torsion spring is arranged on the connecting pin rod 15, and the reverse direction of the resilience of the torsion spring is far away from one end of the triangular locking lug 16, so that the triangular locking lug 16 can be embedded into the locking groove 12 only in the state of pushing by external force.

The working principle is as follows: when the window sash is closed, the fixed component 4 and the movable component 5 rotate relatively, the linkage component 6 is driven to rotate relative to the fixed component 4, the buffer rotating component 8 and the buffer sliding component 9 rotate relatively, the distance between the buffer rotating component and the buffer sliding component is reduced, the buffer sliding component 9 slides gradually and retracts into the buffer rotating component 8, the buffer spring 10 is compressed, so that the relative rotation of the fixed component 4 and the movable component 5 is buffered, the closing stability is better, the mutual abrasion is reduced, the service life is prolonged, the movable component 5 gradually contracts towards the bottom of the second fixed supporting rod 2, the second fixed supporting rod 2 gradually slides towards one end of the triangular locking lug 16, the movable component 5 pushes one end of the triangular locking lug 16 to rotate upwards around the connecting pin rod 15 in the closing process, and the locking groove 12 slides to the position right above the triangular locking lug 16, therefore, the triangular locking lug 16 is embedded into the locking groove 12, the closing and locking of the window sash are realized, the closing tightness of the window is higher, and the window cannot shake;

when the casement is opened, triangle locking lug 16 loses thrust, then rotate downwards under the effect of the reverse elasticity of torsional spring, thereby break away from inside locking groove 12, make things convenient for opening of casement, cushion rotating assembly 8 simultaneously, cushion sliding assembly 9 reverse movement relatively, buffer spring 10 extends under the effect of reverse elasticity simultaneously, and then can cushion the rotation earlier to opening the in-process, make opening stability higher, and spacing subassembly 7 can be injectd the rotational position of linkage assembly 6, can injectd the rotational position of movable assembly 5, make the window rotate and can not exceed maximum angle, avoid taking place to damage.

The above description is only the preferred embodiment of the present invention; the scope of the present invention is not limited thereto. Any person skilled in the art should also be able to cover the technical scope of the present invention by replacing or changing the technical solution and the improvement concept of the present invention with equivalents and modifications within the technical scope of the present invention.

Claims (6)

1. The utility model provides a structure is linked to spring for window system in drifting, includes first fixed branch (1) and second fixed branch (2) with window frame sliding connection and with casement fixed connection's fixed extension board (3), its characterized in that: the locking mechanism is characterized in that the first fixed supporting rod (1) and the second fixed supporting rod (2) are respectively provided with one fixed supporting plate (3) in a matching manner, the bottom surfaces of the first fixed supporting rod (1) and the second fixed supporting rod (2) are respectively connected with a movable assembly (5) in a rotating manner and are arranged in parallel, the top surface of the fixed supporting plate (3) is fixedly provided with a fixed assembly (4), a linkage assembly (6), a limiting assembly (7), a buffering rotating assembly (8), a buffering sliding assembly (9), a buffering spring (10) and a rotating pin shaft (11) are sequentially arranged between the adjacent ends of the fixed assembly (4) and the movable assembly (5) in a rotating manner, and one end, away from the first fixed supporting rod (1), of the second fixed supporting rod (2) is provided with a locking mechanism for locking;

the fixing component (4) comprises a connecting support plate (401), and a first connecting through hole (402), a second connecting through hole (403) and a third connecting through hole (404) are sequentially formed in the connecting support plate (401) away from the fixing end;

the movable assembly (5) comprises a movable support plate (501), and a fifth connecting through hole (502) and a sixth connecting through hole (503) are sequentially formed in the movable support plate (501) far away from the rotating end;

the linkage assembly (6) comprises a rotary connecting block (601), a seventh connecting through hole (602) is formed in the center of the rotary connecting block (601), a connecting pin column (603) is arranged on the top surface of the rotary connecting block (601), and a limiting rotary groove (604) is formed in one side edge of the rotary connecting block;

the limiting assembly (7) comprises a fixed connecting sheet (701), a fixed pin column (702) is arranged on the top surface of the fixed connecting sheet (701), and a limiting block (703) is arranged on the outer side surface of the fixed connecting sheet (701);

the buffer rotating assembly (8) comprises a buffer support (801), one end of the buffer support (801) is provided with an eighth connecting through hole (802), and the other end of the buffer support (801) is provided with a limiting sliding groove (803);

the buffering sliding assembly (9) comprises a buffering sliding block (901), a limiting column (903) is arranged on the side face of the buffering sliding block (901), and a ninth connecting through hole (902) penetrates through the buffering sliding block (901).

2. The spring linking structure for a drifting inner inverted window system according to claim 1, wherein: the central axes of the fifth connecting through hole (502), the seventh connecting through hole (602) and the first connecting through hole (402) are coincident, and are rotatably connected with each other through a pin shaft.

3. The spring linking structure for a drifting inverted window system according to claim 1, wherein: the eighth connecting through hole (802) is rotatably connected to the inside of the limiting rotating groove (604), and the connecting pin (603) is embedded in the sixth connecting through hole (503).

4. The spring linking structure for a drifting inverted window system according to claim 1, wherein: the rotating pin shaft (11) is rotatably installed inside the ninth connecting through hole (902), the buffering sliding block (901) and the limiting column (903) are embedded inside the limiting sliding groove (803) in a sliding mode, and the buffering spring (10) is embedded between the side face of the buffering sliding block (901) and the inner wall of the limiting sliding groove (803) and surrounds the outer surface of the limiting column (903).

5. The spring linking structure for a drifting inverted window system according to claim 1, wherein: the bottom end of the rotating pin shaft (11) is rotatably embedded into the third connecting through hole (404), the fixing pin column (702) is installed inside the second connecting through hole (403), and the end part of the limiting block (703) is attached to the side wall of the rotating connecting block (601).

6. The spring linking structure for a drifting inverted window system according to claim 1, wherein: blocked mechanical system is including seting up in second fixed branch (2) are kept away from the locking groove (12) of first fixed branch (1) one end and with window frame fixed connection's fixing support (13), fixing support (13) bottom surface is provided with rotation branch (14), rotation branch (14) are rotated through being provided with connecting pin pole (15) and are connected with balanced regulating plate (17), balanced regulating plate (17) are close to locking groove (12) one end is provided with assorted triangle locking lug (16) with it, be provided with the torsional spring on connecting pin pole (15).

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