CN205224980U - Gliding of bridge cut -off heat -insulating aluminum alloy - Google Patents
Gliding of bridge cut -off heat -insulating aluminum alloy Download PDFInfo
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- CN205224980U CN205224980U CN201520943091.2U CN201520943091U CN205224980U CN 205224980 U CN205224980 U CN 205224980U CN 201520943091 U CN201520943091 U CN 201520943091U CN 205224980 U CN205224980 U CN 205224980U
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- plate
- baffle
- internal baffle
- step plate
- outer baffle
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Abstract
The utility model provides a gliding of bridge cut -off heat -insulating aluminum alloy, including the gliding section bar body, the gliding section bar body is close to outer baffle one side middle part and is equipped with the first board of bending of step form including relative interior baffle, outer baffle and the heat insulating strip that sets up, interior baffle, and the first board of bending includes a step plate, the 2nd step plate and first connecting plate, and baffle one end was equipped with first track in a step plate kept away from, interior baffle is close to outer baffle one side lower extreme and is equipped with the diaphragm, and the diaphragm passes through the starting stave with the 2nd step plate and is connected, outer baffle is close to interior baffle one side upper end and is equipped with the step form second board of bending, and the second is bent the board and is included the 3rd step plate, fourth step plate and second connecting plate, is equipped with the second track on the 3rd step plate, the 3rd step plate lower extreme is equipped with the second riser, heat insulating strip one end is connected with the starting stave cooperation, and the other end is connected with the cooperation of second riser. The utility model discloses simple structure, simple to operate, thermal -insulated, the sound -proofing properties is good, bearing capacity is strong, long service life.
Description
Technical field
The utility model relates to down-sliding aluminum profile technical field, particularly relates to a kind of bridge-cut-off insulated aluminium alloy and glides.
Background technology
Aluminium alloys is a most widely used class non-ferrous metal structural meterials in industry, widely applies in Aeronautics and Astronautics, automobile, machine-building, boats and ships and chemical industry.Along with science and technology and the develop rapidly of industrial economy in recent years, increasing to the demand of Welded structural member, make the Research on Weldability of aluminium alloys also thereupon deeply.The extensive use of aluminium alloys facilitates the development of aluminum alloy solder technology, and the development of solder technology has simultaneously expanded again the application of aluminium alloys, the therefore solder technology of aluminium alloys just one of focus becoming research.In existing technology, traditional down-sliding aluminum profile effect of heat insulation is poor, and supporting capacity is poor, mutability, and application life is short.
Utility model content
Based on the technical problem existed in background technology, the utility model proposes a kind of bridge-cut-off insulated aluminium alloy and glide.
A kind of bridge-cut-off insulated aluminium alloy that the utility model proposes glides, comprise gliding structural section body, gliding structural section body comprises the Internal baffle, outer baffle and the heat insulating strip that are oppositely arranged, and Internal baffle, outer baffle are all vertically arranged, the length of Internal baffle is greater than the length of outer baffle, wherein:
Internal baffle is provided with step-like first bending plate near outer baffle one middle side part, first bending plate comprises first step plate, second step plate and connects the first junction plate of first step plate and second step plate, first step plate be connected with Internal baffle and the height of first step plate higher than the height of second step plate, first step plate is provided with the first track away from Internal baffle one end; Internal baffle is provided with transverse slat near lower end, outer baffle side, and transverse slat is connected by starting stave with second step plate, surrounds abdominal cavity between Internal baffle, the first bending plate, transverse slat, starting stave;
Outer baffle is provided with step-like second bending plate near upper end, Internal baffle side, the height of the second bending plate is lower than the height of the first bending plate, second bending plate comprises the 3rd stepped plate, the 4th stepped plate and connects the second junction plate of the 3rd stepped plate and the 4th stepped plate, 4th stepped plate be connected with outer baffle and the height of the 4th stepped plate lower than the height of the 3rd stepped plate, the 3rd stepped plate is provided with the second track near Internal baffle one end; 3rd stepped plate is provided with the second riser to downward-extension away from lower end, Internal baffle one end, forms the first chute between the second riser and Internal baffle, forms the second chute between the second riser and outer baffle;
Heat insulating strip one end and starting stave are connected, and the other end and the second riser are connected.
Preferably, starting stave is provided with the first sealing draw-in groove away from Internal baffle side, and the second riser is provided with the second sealing draw-in groove away from outer baffle side, and heat insulating strip one end is embedded in the first sealing draw-in groove, and the other end is embedded in the second sealing draw-in groove.
Preferably, the first sealing draw-in groove notch place is provided with the first sealing fastener, and the second sealing draw-in groove notch place is provided with the second sealing fastener
Preferably, Internal baffle is provided with wool top installation position near upper end, outer baffle side.
Preferably, the first step plate of the first bending plate is provided with the first screw installation position near side, abdominal cavity.
Preferably, transverse slat is provided with the second screw installation position near side, abdominal cavity.
Preferably, the 3rd stepped plate of the second bending plate is provided with the 3rd screw installation position away from the second track side.
Preferably, the first track is distributed with the first non-slip groove, the second track is distributed with the second non-slip groove.
In the utility model, Internal baffle is provided with step-like first bending plate near outer baffle one middle side part, and the first bending plate comprises first step plate, second step plate and the first junction plate, and first step plate is provided with the first track away from Internal baffle one end; Internal baffle is provided with transverse slat near lower end, outer baffle side, and transverse slat is connected by starting stave with second step plate, surrounds abdominal cavity between Internal baffle, the first bending plate, transverse slat, starting stave; Outer baffle is provided with step-like second bending plate near upper end, Internal baffle side, the height of the second bending plate is lower than the height of the first bending plate, second bending plate comprises the 3rd stepped plate, the 4th stepped plate and the second junction plate, and the 3rd stepped plate is provided with the second track near Internal baffle one end; 3rd stepped plate is provided with the second riser to downward-extension away from lower end, Internal baffle one end, forms the first chute between the second riser and Internal baffle, forms the second chute between the second riser and outer baffle; Heat insulating strip one end and starting stave are connected, and the other end and the second riser are connected.The utility model adopts the design of staged height rail, and outer low and inner high, draining is smooth and easy, larger violent storm does not have ponding and Seepage yet, causes aluminium extruded sections to corrode in order to avoid aluminium extruded sections makes moist; Improve the supporting capacity of aluminium extruded sections, extend the application life of aluminium extruded sections; Be connected by heat insulating strip between starting stave with the second riser, improve heat insulation, the sound insulation value of aluminium extruded sections.The utility model structure is simple, easy for installation, heat insulation, sound insulation value is good, and supporting capacity is strong, not yielding, long service life.
Accompanying drawing explanation
Fig. 1 is a kind of bridge-cut-off insulated aluminium alloy downslide structural representation that the utility model proposes.
Detailed description of the invention
As shown in Figure 1, Fig. 1 is a kind of bridge-cut-off insulated aluminium alloy downslide structural representation that the utility model proposes.
With reference to Fig. 1, the utility model proposes a kind of bridge-cut-off insulated aluminium alloy and glide, comprise gliding structural section body, gliding structural section body comprises the Internal baffle 1, outer baffle 2 and the heat insulating strip 3 that are oppositely arranged, Internal baffle 1, outer baffle 2 are all vertically arranged, and the length of Internal baffle 1 is greater than the length of outer baffle 2, wherein:
Internal baffle 1 is provided with wool top installation position 14 near upper end, outer baffle 2 side, Internal baffle 1 is provided with step-like first bending plate 4 near outer baffle 2 one middle side part, first bending plate 4 comprises first step plate 41, second step plate 42 and connects the first junction plate 43 of first step plate 41 and second step plate 42, first step plate 41 be connected with Internal baffle 1 and the height of first step plate 41 higher than the height of second step plate 42, first step plate 41 is provided with on the first track 8, first track 8 away from Internal baffle 1 one end and is distributed with the first non-slip groove 81.The first step plate 41 of the first bending plate 4 is provided with the first screw installation position 411 near side, abdominal cavity 7.Internal baffle 1 is provided with transverse slat 5 near lower end, outer baffle 2 side, and transverse slat 5 is provided with the second screw installation position 51 near side, abdominal cavity 7.Transverse slat 5 is connected by starting stave 6 with second step plate 42, surrounds abdominal cavity 7 between Internal baffle 1, first bending plate 4, transverse slat 5, starting stave 6; Starting stave 6 is provided with the first sealing draw-in groove 61, first sealing draw-in groove 61 notch place away from Internal baffle 1 side and is provided with the first sealing fastener 62.
Outer baffle 2 is provided with step-like second bending plate 9 near upper end, Internal baffle 1 side, the height of the second bending plate 9 is lower than the height of the first bending plate 4, second bending plate 9 comprises the 3rd stepped plate 91, the 4th stepped plate 92 and connects the second junction plate 93 of the 3rd stepped plate 91 and the 4th stepped plate 92,4th stepped plate 92 be connected with outer baffle 2 and the height of the 4th stepped plate 92 lower than the height of the 3rd stepped plate 91,3rd stepped plate 91 is provided with on the second track 10, second track 10 near Internal baffle 1 one end and is distributed with the second non-slip groove 101.3rd stepped plate 91 of the second bending plate 9 is provided with the 3rd screw installation position 911 away from the second track 10 side.3rd stepped plate 91 away from lower end, Internal baffle 1 one end be provided with to downward-extension the second riser 11, second riser 11 away from outer baffle 2 side be provided with second sealing draw-in groove 111, second seal draw-in groove 111 notch place be provided with the second sealing fastener 112.Formed between second riser 11 and Internal baffle 1 between first chute 12, second riser 11 and outer baffle 2 and form the second chute 13.
In the present embodiment, heat insulating strip 3 one end is embedded in the first sealing draw-in groove 61, and the other end is embedded in the second sealing draw-in groove 111.
A kind of bridge-cut-off insulated aluminium alloy that the utility model proposes glides, and adopt the design of staged height rail, outer low and inner high, draining is smooth and easy, larger violent storm does not have ponding and Seepage yet, causes aluminium extruded sections to corrode in order to avoid aluminium extruded sections makes moist; Improve the supporting capacity of aluminium extruded sections, extend the application life of aluminium extruded sections; Be connected by heat insulating strip 3 between starting stave 6 with the second riser 11, improve heat insulation, the sound insulation value of aluminium extruded sections.The utility model structure is simple, easy for installation, heat insulation, sound insulation value is good, and supporting capacity is strong, not yielding, long service life.
The above; be only the utility model preferably detailed description of the invention; but protection domain of the present utility model is not limited thereto; anyly be familiar with those skilled in the art in the technical scope that the utility model discloses; be equal to according to the technical solution of the utility model and utility model design thereof and replace or change, all should be encompassed within protection domain of the present utility model.
Claims (8)
1. a bridge-cut-off insulated aluminium alloy glides, it is characterized in that, comprise gliding structural section body, gliding structural section body comprises the Internal baffle (1), outer baffle (2) and the heat insulating strip (3) that are oppositely arranged, Internal baffle (1), outer baffle (2) are all vertically arranged, the length of Internal baffle (1) is greater than the length of outer baffle (2), wherein:
Internal baffle (1) is provided with step-like first bending plate (4) near outer baffle (2) middle side part, first bending plate (4) comprises first step plate (41), second step plate (42) and connects first junction plate (43) of first step plate (41) and second step plate (42), first step plate (41) be connected with Internal baffle (1) and the height of first step plate (41) higher than the height of second step plate (42), first step plate (41) is provided with the first track (8) away from Internal baffle (1) one end; Internal baffle (1) is provided with transverse slat (5) near outer baffle (2) lower end, side, transverse slat (5) is connected by starting stave (6) with second step plate (42), surrounds abdominal cavity (7) between Internal baffle (1), the first bending plate (4), transverse slat (5), starting stave (6);
Outer baffle (2) is provided with step-like second bending plate (9) near Internal baffle (1) upper end, side, the height of the second bending plate (9) is lower than the height of the first bending plate (4), second bending plate (9) comprises the 3rd stepped plate (91), second junction plate (93) of the 4th stepped plate (92) and connection the 3rd stepped plate (91) and the 4th stepped plate (92), 4th stepped plate (92) be connected with outer baffle (2) and the height of the 4th stepped plate (92) lower than the height of the 3rd stepped plate (91), 3rd stepped plate (91) is provided with the second track (10) near Internal baffle (1) one end, 3rd stepped plate (91) is provided with the second riser (11) to downward-extension away from Internal baffle (1) lower end, one end, form the first chute (12) between second riser (11) and Internal baffle (1), between the second riser (11) and outer baffle (2), form the second chute (13),
Heat insulating strip (3) one end and starting stave (6) are connected, and the other end and the second riser (11) are connected.
2. bridge-cut-off insulated aluminium alloy according to claim 1 glides, it is characterized in that, starting stave (6) is provided with the first sealing draw-in groove (61) away from Internal baffle (1) side, second riser (11) is provided with the second sealing draw-in groove (111) away from outer baffle (2) side, heat insulating strip (3) one end is embedded in the first sealing draw-in groove (61), and the other end is embedded in the second sealing draw-in groove (111).
3. bridge-cut-off insulated aluminium alloy according to claim 2 glides, it is characterized in that, first sealing draw-in groove (61) notch place is provided with the first sealing fastener (62), and the second sealing draw-in groove (111) notch place is provided with the second sealing fastener (112).
4. the bridge-cut-off insulated aluminium alloy according to any one of claim 1-3 glides, and it is characterized in that, Internal baffle (1) is provided with wool top installation position (14) near outer baffle (2) upper end, side.
5. the bridge-cut-off insulated aluminium alloy according to any one of claim 1-3 glides, it is characterized in that, the first step plate (41) of the first bending plate (4) is provided with the first screw installation position (411) near abdominal cavity (7) side.
6. the bridge-cut-off insulated aluminium alloy according to any one of claim 1-3 glides, and it is characterized in that, transverse slat (5) is provided with the second screw installation position (51) near abdominal cavity (7) side.
7. the bridge-cut-off insulated aluminium alloy according to any one of claim 1-3 glides, it is characterized in that, the 3rd stepped plate (91) of the second bending plate (9) is provided with the 3rd screw installation position (911) away from the second track (10) side.
8. the bridge-cut-off insulated aluminium alloy according to any one of claim 1-3 glides, it is characterized in that, first track (8) is distributed with the first non-slip groove (81), the second track (10) is distributed with the second non-slip groove (101).
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201520943091.2U CN205224980U (en) | 2015-11-23 | 2015-11-23 | Gliding of bridge cut -off heat -insulating aluminum alloy |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201520943091.2U CN205224980U (en) | 2015-11-23 | 2015-11-23 | Gliding of bridge cut -off heat -insulating aluminum alloy |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN205224980U true CN205224980U (en) | 2016-05-11 |
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| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201520943091.2U Expired - Fee Related CN205224980U (en) | 2015-11-23 | 2015-11-23 | Gliding of bridge cut -off heat -insulating aluminum alloy |
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| CN (1) | CN205224980U (en) |
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN105401843A (en) * | 2015-11-23 | 2016-03-16 | 安徽宏宇铝业有限公司 | Broken-bridge heat-insulation aluminum alloy lower slide |
-
2015
- 2015-11-23 CN CN201520943091.2U patent/CN205224980U/en not_active Expired - Fee Related
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN105401843A (en) * | 2015-11-23 | 2016-03-16 | 安徽宏宇铝业有限公司 | Broken-bridge heat-insulation aluminum alloy lower slide |
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Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| C14 | Grant of patent or utility model | ||
| GR01 | Patent grant | ||
| CF01 | Termination of patent right due to non-payment of annual fee | ||
| CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20160511 Termination date: 20171123 |