CN208605070U - Aluminum alloy doors and windows buffer structure - Google Patents

Abstract

The utility model discloses a kind of aluminum alloy doors and windows buffer structures, including window and door frame, the upper surface of the window and door frame opens up fluted, and the lower surface of groove inner wall is fixedly connected with the bottom end of the first spring, the top of first spring is fixedly connected with the outer surface of positioning pin, and first spring be socketed in the outer surface of positioning pin, the outer surface of the positioning pin and the inner wall of locating slot overlap.The Collapsible aluminum alloy doors and windows buffer structure, pass through the mutual cooperation of positioning pin, groove, locating slot, the first spring, fixed plate, shaft, bearing the first sliding block and first sliding groove, when staff pulls up positioning pin and drives the elongation of the first spring, it is transmitted to pressure on damping device, telescopic device is squeezed and released by block, the external force being subject to is cancelled by telescopic process, it avoids and is loosened between window and door frame and glass and doorframe etc., improve the damping effect of aluminum alloy doors and windows.

Description

Aluminum alloy doors and windows buffer structure

Technical field

The utility model relates to aluminum alloy doors and windows technical fields, specially aluminum alloy doors and windows buffer structure.

Background technique

Aluminum alloy doors and windows refer to and aluminum alloy extrusion section bar are used to be known as aluminium alloy door for the door and window of frame, stile, fan material production Window, abbreviation aluminium door and window.Including stressed member (rod piece for bearing and transmitting self weight and load) substrate is made with aluminium alloy and timber, The compound door and window of plastics, abbreviation aluminum wood composite door and window, aluminous plastic compound door & window.

Existing aluminum alloy doors and windows majority needs sealing joint strip to realize that the closure between profile and glass, between fan and frame is close The effect of envelope and fixed glass, but the provided buffering effect of the sealing joint strip of door and window is not satisfactory, aluminum alloy doors and windows are opening and closing It inevitably will receive collision during push-and-pull, if the effect of bumper and absorbing shock is bad, be easy to cause between door and window, glass and doorframe etc. It loosens, threatens to the personal safety of user of service, the buffer structure disassembly process complexity of part erection of doors and windows is cumbersome, unfavorable Buffer structure is cleared up and safeguarded in staff.

Utility model content

(1) the technical issues of solving

In view of the deficiencies of the prior art, the utility model provides aluminum alloy doors and windows buffer structure, solves alloy door Window inevitably will receive collision during opening and closing push-and-pull, if the effect of bumper and absorbing shock is bad, be easy to cause door and window, glass and door It loosens between frame etc., threatens to the personal safety of user of service, the buffer structure disassembly process of part erection of doors and windows is complicated It is cumbersome, it is unfavorable for the problem of staff clears up and safeguards to buffer structure.

(2) technical solution

To achieve the above object, the utility model provides the following technical solutions: aluminum alloy doors and windows buffer structure, including door Window-frame, the upper surface of the window and door frame open up fluted, and the lower surface of groove inner wall is fixedly connected with the bottom end of the first spring, The top of first spring is fixedly connected with the outer surface of positioning pin, and the first spring is socketed in the outer surface of positioning pin, institute The inner wall of the outer surface and locating slot of stating positioning pin overlaps, and locating slot is provided with the upper surface of fixed plate, and fixed plate is located at The top of first spring.

The lower surface of the fixed plate is fixedly connected with the top of shaft, and the bottom end of shaft is socketed with bearing, and bearing It is connected to the upper surface of frame, the right side of the frame is fixedly connected with the left side of the first sliding block, and the first sliding block slides It is connected in first sliding groove, the first sliding groove is provided with the left side of window and door frame.

Preferably, the left side of the frame inner wall is fixedly connected with the left side of the first laminate, and the right side of the first laminate Side is fixedly connected with the left side of two the first buffer stoppers, and the right side of two the first buffer stoppers and two the second buffer stoppers Left side be fixedly connected, and the opposite face of two the first buffer stoppers and two the second buffer stoppers with the outer surface of damping device It is fixedly connected, and the right side of two the second buffer stoppers is fixedly connected with the right side of the second laminate inner wall.

Preferably, the damping device includes fixed cylinder, and the outer surface of fixed cylinder and two the first buffer stoppers and two The opposite face of second buffer stopper is fixedly connected, and the inner surface of the fixed cylinder is fixedly connected with the outer surface of three blocks, and is kept off The inner surface of block is fixedly connected by telescopic device with the outer surface of support rod, and the both ends of support rod respectively with fixed cylinder inner wall Front and back be fixedly connected.

Preferably, the telescopic device includes telescopic rod, and the surface of telescopic rod is socketed with second spring, the telescopic rod It is fixedly connected respectively with the outer surface of the inner surface of block and support rod with the both ends of second spring.

Preferably, the telescopic rod includes sleeve, and the upper surface of sleeve is fixedly connected with the lower surface of support rod, and is covered The left side and right side of cylinder inner wall offer second sliding slot, and the opposite face of two second sliding slot inner walls is sliding with second respectively The left side and right side of block are slidably connected, and the lower surface of second sliding block is fixedly connected with the top of round bar, and round bar Bottom end is fixedly connected with the upper surface of block inner wall.

Preferably, the shape W font of first laminate and the second laminate, and the shape of the first sliding block and first sliding groove is equal For T shape.

(3) beneficial effect

The utility model provides aluminum alloy doors and windows buffer structure, have it is following the utility model has the advantages that

(1), the Collapsible aluminum alloy doors and windows buffer structure, passes through positioning pin, groove, locating slot, the first bullet The mutual cooperation of spring, fixed plate, shaft, bearing the first sliding block and first sliding groove, when staff pulls up positioning pin and band Dynamic first spring elongation, makes positioning pin no longer push down fixed plate, and staff rotates fixed plate, and fixed plate rotates around the shaft, fixed Position slot is detached from positioning pin, and staff pulls up frame, the first sliding block is made to skid off first sliding groove, realizes the fast of buffer unit Quick-detach is cleared up and is stored to buffer unit convenient for staff, when the surface of the first laminate and the second laminate is by outer The collision of power, the external force being subject to squeeze the first buffer stopper and the second buffer stopper, are squeezed slowly deform therebetween, make pressure It is transmitted on damping device, telescopic device is squeezed and released by block, be cancelled the external force being subject to by telescopic process, It avoids and is loosened between window and door frame and glass and doorframe etc., improve the damping effect of aluminum alloy doors and windows.

(2), the Collapsible aluminum alloy doors and windows buffer structure passes through the first laminate and the second laminate W font Design makes the first laminate and the second laminate obtain very high mechanical strength, and the first laminate and the second laminate is made to have preferable bullet Property and extension property, the first laminate and the second laminate biggish spacing is set, make that there is therebetween damping performance, improve the The toughness of one laminate and the second laminate carries out buffering counteracting convenient for the first laminate and the first laminate external force that window-frame is subject on the door.

(3), the Collapsible aluminum alloy doors and windows buffer structure, passes through the first sliding block, first sliding groove and fixed plate Mutual cooperation, due to the T-shaped design of first sliding groove and the first sliding block, first sliding groove blocks the first sliding block, avoids first Sliding block is detached from first sliding groove, keeps the connection between frame and window and door frame more stable, while improving frame and window and door frame progress Agility in disassembly process, and the utility model which has a compact structure and a reasonable design, it is practical.

Detailed description of the invention

Fig. 1 is the schematic diagram of the section structure that the utility model is faced；

Fig. 2 is the structural schematic diagram that the utility model fixed plate is overlooked；

Fig. 3 is the schematic diagram of the section structure that the utility model damping device is faced；

Fig. 4 is the schematic diagram of the section structure that the utility model first sliding groove is overlooked；

Fig. 5 is the schematic diagram of the section structure that the utility model telescopic rod is faced.

In figure: A1 window and door frame, A2 groove, the first spring of A3, A4 positioning pin, A5 locating slot, A6 fixed plate, A7 shaft, A8 Damping device, A81 fixed cylinder, A82 block, A83 support rod, A84 telescopic device, A841 telescopic rod, A8411 sleeve, A8412 Two sliding blocks, A8413 second sliding slot, A8414 round bar, A842 second spring, A9 bearing, the second buffer stopper of A10, A11 first are buffered Block, the second laminate of A12, the first laminate of A13, A14 frame, A15 first sliding groove, the first sliding block of A16.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work Every other embodiment obtained, fall within the protection scope of the utility model.

As shown in Figs. 1-5, the utility model provides a kind of technical solution: aluminum alloy doors and windows buffer structure, including door and window Frame 1, the upper surface of window and door frame 1 opens up fluted 2, and the lower surface of 2 inner wall of groove is fixedly connected with the bottom end of the first spring 3, By the way that the first spring 3 is arranged, when staff is again pushed into the first sliding block 16 in first sliding groove 15, rotation fixed plate 6 is sharp Positioning pin 4 is blocked again with locating slot 5, the first spring 3 shortens and positioning pin 4 is pulled tightly to be bonded with fixed plate 6, realizes The top of the quick fixed installation of buffer unit, the first spring 3 is fixedly connected with the outer surface of positioning pin 4, and 3 sets of the first spring It connects in the outer surface of positioning pin 4, the outer surface of positioning pin 4 and the inner wall of locating slot 5 overlap, and pass through setting positioning pin 4 and positioning Slot 5, when positioning pin 4 is blocked with locating slot 5, the first sliding block 16 can not skid off first sliding groove 15, realize frame 14 and door and window Fixation between frame 1, and locating slot 5 is provided with the upper surface of fixed plate 6, and fixed plate 6 is located at the top of the first spring 3.

The lower surface of fixed plate 6 is fixedly connected with the top of shaft 7, and the bottom end of shaft 7 is socketed with bearing 9, and bearing 9 It is connected to the upper surface of frame 14, by setting shaft 7 and bearing 9, not only makes to be fixed between fixed plate 6 and frame 14, Fixed plate 6 is not influenced rotate on frame 14, improve the flexibility of fixed plate 6 simultaneously, the left side of 14 inner wall of frame and the The left side of one laminate 13 is fixedly connected, and the fixed company in left side of the right side of the first laminate 13 and two the first buffer stoppers 11 It connects, by the first buffer stopper 11 of setting and the second buffer stopper 10, when the surface of the first laminate 13 and the second laminate 12 is by external force Collision, the external force that is subject to squeezes the first buffer stopper 11 and the second buffer stopper 10, is squeezed slowly deforms therebetween, then Slowly restore deformation, and the right side of two the first buffer stoppers 11 is fixedly connected with the left side of two the second buffer stoppers 10, and The opposite face of two the first buffer stoppers 11 and two the second buffer stoppers 10 is fixedly connected with the outer surface of damping device 8, is passed through Damping device 8 is set, is slowly deformed when being squeezed between the first buffer stopper 11 and the second buffer stopper 10, is transmitted to pressure and subtracts It shakes on device 8, telescopic device 84 is squeezed and released by block 82, the external force being subject to is cancelled by telescopic process, keeps away Exempt to loosen between window and door frame 1 and glass and doorframe etc., improved the damping effect of aluminum alloy doors and windows, damping device 8 wraps Fixed cylinder 81 is included, and the outer surface of fixed cylinder 81 and the opposite face of two the first buffer stoppers 11 and two the second buffer stoppers 10 are fixed Connection, the inner surface of fixed cylinder 81 are fixedly connected with the outer surface of three blocks 82, and the inner surface of block 82 passes through flexible dress It sets 84 to be fixedly connected with the outer surface of support rod 83, by the way that telescopic device 84 is arranged, by the way that telescopic device 84 is arranged, block 82 is right In 84 extrusion process of telescopic device, second spring 842 is made to be squeezed shortening, the then elongation of second spring 842 drives telescopic rod 841 extend and block 82 are pushed to be restored to original position, are stretched, are made back and forth by second spring 842 and telescopic rod 841 The external force being subject to is cancelled, and telescopic device 84 includes telescopic rod 841, and telescopic rod 841 includes sleeve 8411, and sleeve 8411 is upper Surface is fixedly connected with the lower surface of support rod 83, and the left side of 8411 inner wall of sleeve and right side offer second sliding slot 8413, and the opposite face of two 8413 inner walls of second sliding slot connects with the left side of the second sliding block 8412 and right side sliding respectively It connects, by the second sliding block 8412 of setting and second sliding slot 8413, reduces the frictional force between round bar 8414 and sleeve 8411, the The lower surface of two sliding blocks 8412 is fixedly connected with the top of round bar 8414, and the upper table of the bottom end of round bar 8414 and 82 inner wall of block Face is fixedly connected, and the surface of telescopic rod 841 is socketed with second spring 842, the both ends point of telescopic rod 841 and second spring 842 It is not fixedly connected with the outer surface of the inner surface of block 82 and support rod 83, by the way that support rod 83 is arranged, support rod 83 is by stretching Carry out damping, buffering between compression apparatus 84 and block 82, and the both ends of support rod 83 respectively with the front of 81 inner wall of fixed cylinder and back Face is fixedly connected, and the right side of two the second buffer stoppers 10 is fixedly connected with the right side of 12 inner wall of the second laminate, and first The shape W font of laminate 13 and the second laminate 12 makes the first laminate due to the W-shaped design of the first laminate 13 and the second laminate 12 13 and second laminate 12 obtain very high mechanical strength, make the first laminate 13 and the second laminate 12 that there is preferable elasticity and extend Biggish arch spacing is arranged in performance, the first laminate 13 and the second laminate 12, makes have damping performance therebetween, improves The toughness of one laminate 13 and the second laminate 12 carries out the external force that window and door frame 1 is subject to convenient for the first laminate 13 and the first laminate 13 Buffering is offset, and the right side of frame 14 is fixedly connected with the left side of the first sliding block 16, and the first sliding block 16 is slidably connected at the In one sliding slot 15, and the shape of the first sliding block 16 and first sliding groove 15 is T shape, due to first sliding groove 15 and the first sliding block 16 T-shaped design, first sliding groove 15 block the first sliding block 16, avoid the first sliding block 16 and are detached from first sliding groove 15, make 14 He of frame Connection between window and door frame 1 is more stable, while improving the agility in frame 14 and the progress disassembly process of window and door frame 1, the One sliding slot 15 is provided with the left side of window and door frame 1.

In use, firstly, making positioning pin 4 not when staff pulls up positioning pin 4 and drives the elongation of the first spring 3 Fixed plate 6 is pushed down again, and staff rotates fixed plate 6,7 rotation around the shaft of fixed plate 6, and locating slot 5 is detached from positioning pin 4, work Personnel pull up frame 14, and the first sliding block 16 is made to skid off first sliding groove 15, realize the fast quick-detach of buffer unit, are convenient for work Make personnel buffer unit is cleared up and stored, then when the first sliding block 16 is pushed into first sliding groove 15 by staff again It is interior, fixed plate 6 is rotated, is blocked positioning pin 4 again using locating slot 5, the first spring 3 shortens and pulls positioning pin 4 and fixes Plate 6 is tightly bonded, and realizes the Fast Installation of buffer unit.

It can to sum up obtain, which passes through positioning pin 4, groove 2, locating slot 5, the mutual cooperation of the first spring 3, fixed plate 6, shaft 7, bearing 9 first sliding block 16 and first sliding groove 15, when staff to Upper pulling positioning pin 4 simultaneously drives the elongation of the first spring 3, so that positioning pin 4 is no longer pushed down fixed plate 6, staff rotates fixed plate 6,7 rotation around the shaft of fixed plate 6, locating slot 5 is detached from positioning pin 4, and staff pulls up frame 14, keeps the first sliding block 16 sliding First sliding groove 15 out, realize the fast quick-detach of buffer unit, and buffer unit is cleared up and stored convenient for staff, when Collision of the surface of first laminate 13 and the second laminate 12 by external force, it is slow that the external force being subject to squeezes the first buffer stopper 11 and second Block 10 is rushed, is squeezed slowly deforms therebetween, is transmitted to pressure on damping device 8, by block 82 to telescopic device 84 squeeze and release, and are cancelled the external force being subject to by telescopic process, avoid and send out between window and door frame 1 and glass and doorframe etc. It is raw to loosen, improve the damping effect of aluminum alloy doors and windows.

Meanwhile the Collapsible aluminum alloy doors and windows buffer structure, pass through the first laminate 13 and the second laminate 12W word The design of shape makes the first laminate 13 and the second laminate 12 obtain very high mechanical strength, makes the first laminate 13 and the second laminate 12 Biggish arch spacing is set with preferable elasticity and extension property, the first laminate 13 and the second laminate 12, is made therebetween With damping performance, the toughness of the first laminate 13 and the second laminate 12 is improved, it is right convenient for the first laminate 13 and the first laminate 13 The external force that window and door frame 1 is subject to carries out buffering counteracting.

Meanwhile the Collapsible aluminum alloy doors and windows buffer structure, by the first sliding block 16, first sliding groove 15 and consolidate The mutual cooperation of fixed board 6, due to the T-shaped design of first sliding groove 15 and the first sliding block 16, first sliding groove 15 blocks the first sliding block 16, it avoids the first sliding block 16 and is detached from first sliding groove 15, keep the connection between frame 14 and window and door frame 1 more stable, mention simultaneously High frame 14 and window and door frame 1 carry out the agility in disassembly process, and the utility model which has a compact structure and a reasonable design, practical Property is strong.

While there has been shown and described that the embodiments of the present invention, for the ordinary skill in the art, It is understood that these embodiments can be carried out with a variety of variations in the case where not departing from the principles of the present invention and spirit, repaired Change, replacement and variant, the scope of the utility model is defined by the appended claims and the equivalents thereof.

Claims (6)

1. aluminum alloy doors and windows buffer structure, including window and door frame (1), it is characterised in that: the upper surface of the window and door frame (1) opens up Fluted (2), and the lower surface of groove (2) inner wall is fixedly connected with the bottom end of the first spring (3), first spring (3) Top is fixedly connected with the outer surface of positioning pin (4), and the first spring (3) is socketed in the outer surface of positioning pin (4), the positioning The inner wall of the outer surface and locating slot (5) of selling (4) overlaps, and locating slot (5) is provided with the upper surface of fixed plate (6), and fixed Plate (6) is located at the top of the first spring (3)；

The lower surface of the fixed plate (6) is fixedly connected with the top of shaft (7), and the bottom end of shaft (7) is socketed with bearing (9), and bearing (9) is connected to the upper surfaces of frame (14), the right side of the frame (14) and the left side of the first sliding block (16) Face is fixedly connected, and the first sliding block (16) is slidably connected in first sliding groove (15), and the first sliding groove (15) is provided with door and window The left side of frame (1).

2. aluminum alloy doors and windows buffer structure according to claim 1, it is characterised in that: a left side for frame (14) inner wall Side is fixedly connected with the left side of the first laminate (13), and the right side of the first laminate (13) and two the first buffer stoppers (11) Left side be fixedly connected, and the right side of two the first buffer stoppers (11) and the left side of two the second buffer stoppers (10) are fixed Connection, and outer surface of the opposite face of two the first buffer stoppers (11) and two the second buffer stoppers (10) with damping device (8) It is fixedly connected, and the right side of two the second buffer stoppers (10) is fixedly connected with the right side of the second laminate (12) inner wall.

3. aluminum alloy doors and windows buffer structure according to claim 2, it is characterised in that: the damping device (8) includes Fixed cylinder (81), and the outer surface of fixed cylinder (81) and two the first buffer stoppers (11) and two the second buffer stoppers (10) is opposite Face is fixedly connected, and the inner surface of the fixed cylinder (81) is fixedly connected with the outer surface of three blocks (82), and block (82) Inner surface is fixedly connected by telescopic device (84) with the outer surface of support rod (83), and the both ends of support rod (83) are respectively and solid The front and back of safety barrel (81) inner wall is fixedly connected.

4. aluminum alloy doors and windows buffer structure according to claim 3, it is characterised in that: the telescopic device (84) includes Telescopic rod (841), and the surface of telescopic rod (841) is socketed with second spring (842), the telescopic rod (841) and second spring (842) both ends are fixedly connected with the outer surface of the inner surface of block (82) and support rod (83) respectively.

5. aluminum alloy doors and windows buffer structure according to claim 4, it is characterised in that: telescopic rod (841) includes sleeve (8411), and the upper surface of sleeve (8411) is fixedly connected with the lower surface of support rod (83), and the left side of sleeve (8411) inner wall Side and right side offer second sliding slot (8413), and the opposite face of two second sliding slot (8413) inner walls is respectively with second The left side and right side of sliding block (8412) are slidably connected, the lower surface of second sliding block (8412) and the top of round bar (8414) End is fixedly connected, and the bottom end of round bar (8414) is fixedly connected with the upper surface of block (82) inner wall.

6. aluminum alloy doors and windows buffer structure according to claim 2, it is characterised in that: first laminate (13) and The shape W font of two laminates (12), and the shape of the first sliding block (16) and first sliding groove (15) is (T shape).