CN112523653B

CN112523653B - Bridge cut-off aluminium alloy glass door and window

Info

Publication number: CN112523653B
Application number: CN202011381940.1A
Authority: CN
Inventors: 黄彩虹
Original assignee: Shandong Junzheng Aluminum Plastic Door And Window Co ltd
Current assignee: Shandong Junzheng Aluminum Plastic Door And Window Co ltd
Priority date: 2020-12-01
Filing date: 2020-12-01
Publication date: 2022-07-26
Anticipated expiration: 2040-12-01
Also published as: CN112523653A

Abstract

The invention relates to a bridge cut-off aluminum alloy glass door and window, which comprises an outer frame, a push-jet device, a clamping device, two sealing rubber strips, a clamping device and two pieces of hollow glass, wherein the push-jet device is installed at the lower end of the outer frame, the clamping device is located above the push-jet device, the two sealing rubber strips are arranged on the left side and the right side of the upper end of the clamping device, the clamping device is installed at the upper end of the outer frame, and the two pieces of hollow glass are arranged between the clamping device and the clamping device. The invention can solve the problems that when the traditional bridge-cut-off aluminum alloy glass door and window is assembled, all parts of a longer sealing strip are difficult to be synchronously embedded into a gap between the outer frame and the hollow glass at equal intervals, the embedded sealing strip is easily in a wavy structure, effective sealing and fastening are difficult to form, all edge positions of the hollow glass are sealed through the fastening of the sealing strip, the time is longer, the assembly efficiency is lower, and the like.

Description

Bridge cut-off aluminium alloy glass door and window

Technical Field

The invention relates to the field of doors and windows, in particular to a bridge-cut-off aluminum alloy glass door and window.

Background

Broken bridge aluminium alloy glass door and window is the improved generation that releases for improving door and window thermal insulation performance on old aluminium alloy window basis, and broken bridge aluminium alloy glass door and window adopts thermal-insulated broken bridge aluminium alloy and hollow glass, has functions such as energy-conservation, sound insulation, noise control, dustproof, waterproof, and broken bridge aluminium alloy glass door and window reduces half than ordinary door and window heat dissipation simultaneously, the indoor heat preservation of being convenient for.

Traditional bridge cut-off aluminum alloy glass door and window is when the equipment, generally with cavity glass directly imbed to the frame after seal, the fastening through the sealing strip to its periphery, during the equipment, each part of longer sealing strip is difficult to in the interval of synchronous, equidistant embedding frame and cavity glass, it is wavy structure to lead to the sealing strip after the embedding easily, be difficult to form effectual sealed, the fastening, and each border position to cavity glass seals through the fastening of sealing strip, the time of spending is longer, packaging efficiency is lower.

Disclosure of Invention

Technical scheme (I)

In order to achieve the purpose, the invention adopts the following technical scheme: the utility model provides a bridge cut-off al-alloy glass door & window, includes the frame, pushes away and penetrates device, clamping device, two joint strip, clamping device and two cavity glass, the lower extreme of frame install and push away and penetrate the device, clamping device is installed to the lower extreme of frame, clamping device is located and pushes away the top that penetrates the device, the left and right sides of clamping device upper end is equipped with two joint strip, clamping device is installed to the upper end of frame, be equipped with two cavity glass between clamping device and the clamping device, and arrange about two cavity glass.

The frame include frame, slip track, main air cavity, two water drainage tank, the slip track is installed to the lower extreme of frame, has seted up main air cavity on the frame, two water drainage tank have been seted up at both ends about the frame, play the effect of drainage.

The push away and penetrate device include piston plate, the screw thread post, the carousel, connect rope and extrusion piece, the lower extreme left side in main air cavity is equipped with an internal thread section of thick bamboo, an internal thread section of thick bamboo is connected for screw-thread fit with the screw thread post, the carousel is installed to the left end of screw thread post, the right-hand member of screw thread post passes through the bearing and is connected with the piston plate, be connected for sliding fit between piston plate and the main air cavity, be connected for sliding fit between the upper end in main air cavity and the extrusion piece, even there is the connection rope between piston plate and the extrusion piece, the design of connecting the rope has guaranteed that the piston plate moves on the left when reseing, the extrusion piece can descend smoothly.

Clamping device include rubber gasket, two grip blocks, the telescopic link that resets, two rubber slabs, sucking disc, the rubber gasket embedding is at the lower extreme of frame, the middle part of rubber gasket is equipped with two grip blocks, and arranges about two grip blocks, both ends are connected with two rubber slabs through the telescopic link that resets about the rubber gasket, the lateral wall of rubber gasket evenly is equipped with the sucking disc, evenly has seted up on the rubber slab and has passed the hole, the sucking disc is located and passes downtheholely.

During specific work, the lower end of the hollow glass is inserted into the rubber plate and between the clamping plates, the upper end of the hollow glass is attached to the middle block, then the rotary table is rotated to drive the piston plate to push rightwards, the extrusion block is driven to ascend, the rising extrusion block extrudes two clamping plates to move reversely, the clamping plates after displacement push the hollow glass to move outwards, the rubber plate moves synchronously, the hollow glass moving outwards and the sucker are attached to each other, and meanwhile the lower end of the hollow glass is clamped through the pushed clamping plate and the rubber plate.

Joint strip include that sealing strip, embedding are detained, the sealing strip is connected for sliding fit with the frame, has seted up the lock-in groove on the sealing strip, the lower extreme that the embedding was detained passes and detains mutually with the frame after the lock-in groove, concrete during operation, after the cavity glass installation finishes, to the inside side moving seal strip makes its and cavity glass side laminating, later, thereby detain through the embedding and pin with the frame, the setting of sealing strip has played the rainwater guide and has been sealed the effect to the cavity glass side.

The clamping device comprises two clamping mechanisms, a middle block, two clamping frames, a lower pressing block, a first connecting rod, a displacement block, a second connecting rod, a sliding block and a threaded shaft, wherein the two clamping mechanisms are arranged on the left side and the right side of the upper end of the frame, the middle block is arranged in the middle of the upper end of the frame, the left end and the right end of the middle block are connected with the two clamping frames in a sliding fit manner, the middle part of the middle block is connected with the lower pressing block in a sliding fit manner, the lower pressing block and the displacement block are connected with the first connecting rod through a pin shaft, the displacement block and the sliding block are connected with the second connecting rod through a pin shaft, the sliding block is connected with the upper end of the frame in a sliding fit manner, the displacement block and the threaded shaft are connected by a bearing, the threaded shaft and the frame are in a threaded fit manner, when the hollow glass upper end is attached to the middle block during specific work, the clamping block is clamped on the frame until the outer side surface of the hollow glass, the locking bolt is used for locking the clamping block, then the threaded shaft is rotated to enable the displacement block to move rightwards, the sliding block and the lower pressing block are driven to move reversely up and down under the pushing of the first connecting rod and the second connecting rod, the ascending sliding block is clamped into the door and window frame, the descending lower pressing block extrudes the two clamping frames to move reversely, and the clamping frames and the clamping blocks clamp the upper end of the hollow glass.

The side wall of the piston plate is attached to the inner wall of the main air cavity, the lower end of the extrusion block is provided with a sealing plate, the side wall of the sealing plate is attached to the inner wall of the main air cavity, and the upper end of the extrusion block is of a triangular structure.

Wherein, grip block and rubber gasket be sliding fit and be connected, the inclined plane of grip block is from last down for leaning out the structure gradually, the inclined plane of grip block is laminated mutually with the inclined plane of extrusion piece.

The sealing strip is made of rubber materials, the cross section of the sealing strip is of a triangular structure, and the embedding buckle is of an inverted T-shaped structure.

Wherein, the position of the sealing strip corresponds to that of the drainage groove.

The clamping mechanism comprises a clamping block and a locking bolt, the clamping block is connected with the frame in a sliding fit mode, and the clamping block is connected with the frame through the locking bolt.

The inclined plane of the clamping frame is of a structure which gradually inclines inwards from top to bottom, and the inclined plane at the lower end of the lower pressing block is attached to the inclined plane of the clamping frame.

The lower end of the hollow glass is positioned between the rubber plate and the clamping plate, and the upper end of the hollow glass is positioned between the clamping frame and the clamping block.

(II) advantageous effects

1. According to the bridge-cut-off aluminum alloy glass door and window, hollow glass is installed in a twice fastening mode, the upper end and the lower end of the hollow glass are inserted into the clamping frame and the clamping blocks and the rubber plate and the clamping plate to be pre-tightened for the first time, then the upper end and the lower end of the hollow glass are clamped in a pushing mode by adopting a design concept of a linked structure, so that secondary fastening is carried out, the assembly time is greatly reduced by the linked structure, and the structures of the clamping frame, the clamping blocks, the rubber plate and the clamping plate are fixed in the fastening process, so that the situation that the sealing effect is reduced due to structural deformation is avoided;

2. according to the bridge-cut-off aluminum alloy glass door and window, the push-jet device and the clamping device are matched to clamp and position the lower end of the hollow glass, and the fastening degree of the lower end of the hollow glass is improved through double fastening of air suction and mechanical clamping;

3. according to the bridge-cut-off aluminum alloy glass door and window, the sealing rubber strip further improves the sealing effect with the hollow glass, and the penetration amount of rainwater is greatly reduced by matching with the arrangement of the drainage groove;

4. according to the bridge-cut-off aluminum alloy glass door and window, the clamping device is used for carrying out wrapped clamping on the upper end of the hollow glass, the design of the linkage structure further simplifies the operation difficulty, and the assembly efficiency is greatly improved.

Drawings

The invention is further illustrated with reference to the following figures and examples.

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

FIG. 2 is a cross-sectional view of the present invention;

FIG. 3 is a cross-sectional view of the frame, main air cavity, drainage channel, push-shooting device, clamping device and hollow glass of the present invention;

FIG. 4 is a schematic perspective view of the joint strip of the present invention;

FIG. 5 is an enlarged view of a portion of the invention taken in the direction X of FIG. 3;

fig. 6 is an enlarged view of the invention in the Y-direction of fig. 2.

Detailed Description

Embodiments of the present invention will be described below with reference to the drawings. In this process, the width of the lines or the size of the components in the drawings may be exaggerated for clarity and convenience of description.

In addition, the following terms are defined based on the functions of the present invention, and may be different depending on the intention of a user or an operator or a common practice. Therefore, these terms are defined based on the entire contents of the present specification.

As shown in fig. 1 to 6, a bridge cut-off aluminum alloy glass door and window comprises an outer frame 1, a push-jet device 2, a clamping device 3, two sealing rubber strips 4, a clamping device 5 and two hollow glass 6, wherein the push-jet device 2 is installed at the lower end of the outer frame 1, the clamping device 3 is located above the push-jet device 2, the two sealing rubber strips 4 are arranged on the left side and the right side of the upper end of the clamping device 3, the clamping device 5 is installed at the upper end of the outer frame 1, the two hollow glass 6 are arranged between the clamping device 5 and the clamping device 3, and the two hollow glass 6 are arranged left and right.

The outer frame 1 comprises a frame 11, a sliding rail 12, a main air cavity 13 and two water drainage grooves 14, wherein the sliding rail 12 is installed at the lower end of the frame 11, the main air cavity 13 is formed in the frame 11, and the two water drainage grooves 14 are formed in the left end and the right end of the frame 11, so that a water drainage effect is achieved.

The push injection device 2 comprises a piston plate 21, a threaded column 22, a rotary table 23, a connecting rope 24 and an extrusion block 25, wherein an internal threaded cylinder is arranged on the left side of the lower end of a main air cavity 13, the internal threaded cylinder is in threaded fit connection with the threaded column 22, the rotary table 23 is installed at the left end of the threaded column 22, the right end of the threaded column 22 is connected with the piston plate 21 through a bearing, the piston plate 21 is in sliding fit connection with the main air cavity 13, the upper end of the main air cavity 13 is in sliding fit connection with the extrusion block 25, the connecting rope 24 is connected between the piston plate 21 and the extrusion block 25, the design of the connecting rope 24 ensures that the extrusion block 25 can smoothly descend when the piston plate 21 moves leftwards and resets, the side wall of the piston plate 21 is attached to the inner wall of the main air cavity 13, a sealing plate is arranged at the lower end of the extrusion block 25, a sealed space is formed between the piston plate 21 and the sealing plate, and the extrusion block 25 synchronously ascends and descends when the piston plate 21 pushes, the side wall of the sealing plate is attached to the inner wall of the main air cavity 13, and the upper end of the extrusion block 25 is of a triangular structure, so that the extrusion effect is achieved.

Clamping device 3 include rubber gasket 31, two grip blocks 32, the telescopic link 33 that resets, two rubber slabs 34, sucking disc 35, rubber gasket 31 imbeds at the lower extreme of frame 11, rubber gasket 31's middle part is equipped with two grip blocks 32, and arranges about two grip blocks 32, rubber gasket 31 about both ends through the telescopic link 33 that resets be connected with two rubber slabs 34, rubber gasket 31's lateral wall evenly is equipped with sucking disc 35, evenly seted up on rubber slab 34 and passed the hole, sucking disc 35 is located and passes downtheholely, grip block 32 be connected for sliding fit with rubber gasket 31, grip block 32's inclined plane is from last down for leaning out's structure gradually, grip block 32's inclined plane is laminated with the inclined plane of extrusion piece 25 mutually, has guaranteed that grip block 32 can be extruded smoothly.

During specific work, the lower end of the hollow glass 6 is inserted into the rubber plate 34 and between the clamping plates 32, the upper end of the hollow glass 6 is attached to the middle block 52, then the rotary table 23 is rotated to drive the piston plate 21 to push rightwards, the extrusion block 25 is driven to ascend, the ascending extrusion block 25 extrudes the two clamping plates 32 to move reversely, the clamping plates 32 after displacement push the hollow glass 6 to slightly move outwards, the rubber plates 34 move synchronously, the hollow glass 6 slightly moving outwards is attached to the suction disc 35 to attract each other, and meanwhile, the lower end of the hollow glass 6 is clamped through the pushed clamping plates 32 and the rubber plates 34.

Sealing strip 4 include sealing strip 41, embedding knot 42, sealing strip 41 is connected for sliding fit with frame 11, has seted up the lock-in groove on the sealing strip 41, embedding knot 42's lower extreme passes after the lock-in groove and detains mutually with frame 11, sealing strip 41 make by the rubber material, and its cross-section is the triangle-shaped structure, embedding knot 42 is the type of falling T structure, the design of the type of falling T structure and rubber material has improved the locking degree between embedding knot 42 and the frame 11 greatly, sealing strip 41 corresponding with the position of water drainage tank 14, during specific work, after hollow glass 6 has installed, inside removal sealing strip 41 makes its and the laminating of hollow glass 6 side, afterwards, thereby detain down through embedding knot 42 and pin with frame 11, the setting of sealing strip 41 has played the rainwater guide and has sealed the effect to hollow glass 6 side.

The clamping device 5 comprises two clamping mechanisms 51, a middle block 52, two clamping frames 53, a lower pressing block 54, a first connecting rod 55, a displacement block 56, a second connecting rod 57, a sliding block 58 and a threaded shaft 59, wherein the two clamping mechanisms 51 are arranged on the left side and the right side of the upper end of the frame 11, the middle block 52 is arranged in the middle of the upper end of the frame 11, the left end and the right end of the middle block 52 are connected with the two clamping frames 53 in a sliding fit manner, the middle part of the middle block 52 is connected with the lower pressing block 54 in a sliding fit manner, the lower pressing block 54 is connected with the displacement block 56 through a pin shaft and the first connecting rod 55, the displacement block 56 is connected with the sliding block 58 through a pin shaft and the second connecting rod 57, the sliding block 58 is connected with the upper end of the frame 11 in a sliding fit manner, the displacement block 56 is connected with the threaded shaft 59 through a bearing, the threaded shaft 59 is connected with the frame 11 in a threaded fit manner, and the clamping mechanisms 51 comprise clamping blocks 511, a clamping block, The clamping block 511 is connected with the frame 11 in a sliding fit manner, the clamping block 511 is connected with the frame 11 through the locking bolt 512, the inclined surface of the clamping frame 53 is of a structure which gradually inclines inwards from top to bottom, the inclined surface of the lower end of the lower pressing block 54 is attached to the inclined surface of the clamping frame 53, so that the clamping frame 53 can be smoothly extruded out, during specific work, the upper end of the hollow glass 6 is attached to the middle block 52, the clamping block 511 is clamped on the frame 11 until the clamping block is attached to the outer side surface of the hollow glass 6, the clamping block 511 is locked through the locking bolt 512, then the threaded shaft 59 is rotated to enable the displacement block 56 to move rightwards, the sliding block 58 and the lower pressing block 54 are driven to move reversely up and down under the pushing of the first connecting rod 55 and the second connecting rod 57, the ascending sliding block 58 is clamped on a door window frame, and the descending lower pressing block 54 presses the two clamping frames 53 to move reversely, so that the clamping frame 53 and the clamping block 511 clamp the upper end of the hollow glass 6.

The lower end of the hollow glass 6 is positioned between the rubber plate 34 and the clamping plate 32, and the upper end of the hollow glass 6 is positioned between the clamping frame 53 and the clamping block 511.

When in work:

s1: taking out the clamping block 511, inserting the lower end of one piece of hollow glass 6 between the rubber plate 34 and the clamping plate 32, attaching the upper end of the hollow glass 6 to the side wall of the middle block 52, and clamping and locking the hollow glass 6 into the clamping block 511 again;

s2, rotating the turntable 23 to drive the piston plate 21 to push rightwards, further driving the extrusion block 25 to ascend, wherein the ascending extrusion block 25 extrudes the two clamping plates 32 to move reversely, the hollow glass 6 is slightly moved outwards by the thrust, so that the hollow glass 6 is attached to and attracted with the suction disc 35, and meanwhile, the lower end of the hollow glass 6 is clamped through the outwards-pushed clamping plates 32 and the rubber plate 34;

s3, repeating the steps S1-S2 to mount another piece of hollow glass 6;

s4, the outer frame 1 and the hollow glass 6 are installed on a door and window frame, the sliding rail 12 is clamped at the lower end of the door and window frame, the sliding block 58 corresponds to the upper end of the door and window frame, then the threaded shaft 59 is rotated to enable the displacement block 56 to move rightwards, the sliding block 58 and the lower pressing block 54 are driven to move reversely up and down under the pushing of the first connecting rod 55 and the second connecting rod 57, the ascending sliding block 58 is clamped on the door and window frame, the descending lower pressing block 54 extrudes the two clamping frames 53 to move reversely, so that the clamping frames 53 and the clamping blocks 511 clamp the upper end of the hollow glass 6, and at the moment, the two hollow glass 6 are installed completely;

and S5, repeating the steps S1-S4, and installing another bridge-cut aluminum alloy glass door and window on the door and window frame, wherein the bridge-cut aluminum alloy glass door and window can slide in the door and window frame.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims

1. The utility model provides a bridge cut-off aluminum alloy glass door and window, includes frame (1), pushes away penetrates device (2), clamping device (3), two joint strip (4), clamping device (5) and two cavity glass (6), its characterized in that: the lower end of the outer frame (1) is provided with the ejection device (2), the lower end of the outer frame (1) is provided with the clamping device (3), the clamping device (3) is positioned above the ejection device (2), the left side and the right side of the upper end of the clamping device (3) are provided with two sealing rubber strips (4), the upper end of the outer frame (1) is provided with the clamping device (5), two pieces of hollow glass (6) are arranged between the clamping device (5) and the clamping device (3), and the two pieces of hollow glass (6) are arranged in the left-right direction;

the outer frame (1) comprises a frame (11), a sliding rail (12), a main air cavity (13) and two water drainage grooves (14), wherein the sliding rail (12) is installed at the lower end of the frame (11), the main air cavity (13) is formed in the frame (11), and the two water drainage grooves (14) are formed in the left end and the right end of the frame (11);

the push-shooting device (2) comprises a piston plate (21), a threaded column (22), a rotary table (23), a connecting rope (24) and an extrusion block (25), wherein an internal threaded cylinder is arranged on the left side of the lower end of a main air cavity (13), the internal threaded cylinder is in threaded fit connection with the threaded column (22), the rotary table (23) is installed at the left end of the threaded column (22), the right end of the threaded column (22) is connected with the piston plate (21) through a bearing, the piston plate (21) is in sliding fit connection with the main air cavity (13), the upper end of the main air cavity (13) is in sliding fit connection with the extrusion block (25), and the connecting rope (24) is connected between the piston plate (21) and the extrusion block (25);

the clamping device (3) comprises a rubber gasket (31), two clamping plates (32), a reset telescopic rod (33), two rubber plates (34) and a sucking disc (35), wherein the rubber gasket (31) is embedded at the lower end of the frame (11), the two clamping plates (32) are arranged in the middle of the rubber gasket (31), the two clamping plates (32) are arranged left and right, the left end and the right end of the rubber gasket (31) are connected with the two rubber plates (34) through the reset telescopic rod (33), the sucking disc (35) is uniformly arranged on the side wall of the rubber gasket (31), holes are uniformly formed in the rubber plates (34), and the sucking disc (35) is positioned in the holes;

the sealing rubber strip (4) comprises a sealing strip (41) and an embedded buckle (42), the sealing strip (41) is connected with the frame (11) in a sliding fit manner, a buckling groove is formed in the sealing strip (41), and the lower end of the embedded buckle (42) is buckled with the frame (11) after passing through the buckling groove;

the clamping device (5) comprises two clamping mechanisms (51), a middle block (52), two clamping frames (53), a lower pressing block (54), a first connecting rod (55), a displacement block (56), a second connecting rod (57), a sliding block (58) and a threaded shaft (59), wherein the two clamping mechanisms (51) are arranged on the left side and the right side of the upper end of the frame (11), the middle block (52) is arranged in the middle of the upper end of the frame (11), the left end and the right end of the middle block (52) are connected with the two clamping frames (53) in a sliding fit manner, the middle part of the middle block (52) is connected with the lower pressing block (54) in a sliding fit manner, the lower pressing block (54) is connected with the displacement block (56) through a pin shaft and the first connecting rod (55), the displacement block (56) is connected with the second connecting rod (57) through a pin shaft and the sliding block (58), the sliding block (58) is connected with the upper end of the frame (11) in a sliding fit manner, the displacement block (56) is connected with the threaded shaft (59) through a bearing, and the threaded shaft (59) is in threaded fit connection with the frame (11);

the clamping mechanism (51) comprises a clamping block (511) and a locking bolt (512), the clamping block (511) is connected with the frame (11) in a sliding fit manner, and the clamping block (511) is connected with the frame (11) through the locking bolt (512);

the side wall of the piston plate (21) is attached to the inner wall of the main air cavity (13), the lower end of the extrusion block (25) is provided with a sealing plate, the side wall of the sealing plate is attached to the inner wall of the main air cavity (13), and the upper end of the extrusion block (25) is of a triangular structure;

the clamping plate (32) is connected with the rubber gasket (31) in a sliding fit manner, the inclined surface of the clamping plate (32) is of a structure which gradually inclines outwards from top to bottom, and the inclined surface of the clamping plate (32) is attached to the inclined surface of the extrusion block (25);

the inclined surface of the clamping frame (53) is of a structure which is gradually inclined inwards from top to bottom, and the inclined surface at the lower end of the lower pressing block (54) is attached to the inclined surface of the clamping frame (53);

the lower end of the hollow glass (6) is positioned between the rubber plate (34) and the clamping plate (32), and the upper end of the hollow glass (6) is positioned between the clamping frame (53) and the clamping block (511).

2. The bridge-cut-off aluminum alloy glass door and window of claim 1, characterized in that: the sealing strip (41) is made of rubber materials, the cross section of the sealing strip is of a triangular structure, and the embedding buckle (42) is of an inverted T-shaped structure.

3. The bridge-cut-off aluminum alloy glass door and window of claim 1, characterized in that: the position of the sealing strip (41) corresponds to that of the drainage groove (14).