CN220929112U - Bridge cut-off plastic-aluminum is crowded energy-conserving section bar altogether - Google Patents

Abstract

The utility model relates to the technical field of door and window profiles, in particular to a broken bridge aluminum-plastic co-extrusion energy-saving profile which comprises a metal plate, an aluminum alloy plate, a connecting plate, a first clamping strip, a second clamping strip, a first lug, a second lug, an aluminum alloy lining and a heat insulation component.

Description

Bridge cut-off plastic-aluminum is crowded energy-conserving section bar altogether

Technical Field

The utility model relates to the technical field of door and window profiles, in particular to a broken bridge aluminum-plastic co-extrusion energy-saving profile.

Background

At present, the aluminum plastic co-extruded door and window profile can not meet the energy-saving requirements of ultra-low energy consumption and passive doors and windows along with the improvement of domestic energy-saving standards because the lining framework of the aluminum plastic co-extruded door and window profile has a single bridge-cut-off structure or a double bridge-cut-off structure.

At present, door and window installation needs to be fixed, and fixed materials are not energy-saving profiles, so that time and material are wasted in the installation process, and the installation cost is easily increased.

Disclosure of utility model

The utility model aims to provide a broken bridge aluminum-plastic co-extrusion energy-saving profile, which aims to solve the problems that a fixed material is not an energy-saving profile, so that the time and the material are wasted in the installation process, and the installation cost is easy to increase.

In order to achieve the above purpose, the utility model provides a broken bridge aluminum-plastic co-extrusion energy-saving profile, which comprises a metal plate, an aluminum alloy plate, a connecting plate, a first clamping strip, a second clamping strip, a first lug, a second lug, an aluminum alloy lining and a heat insulation component, wherein the first clamping strip is fixedly connected with the metal plate and is positioned on one side of the metal plate, the second clamping strip is fixedly connected with the aluminum alloy plate and is positioned on one side of the aluminum alloy plate, the connecting plate is provided with a first clamping groove and a second clamping groove, the first clamping groove is in sliding fit with the first clamping strip, the second clamping groove is in sliding fit with the second clamping strip, the metal plate is provided with two butt joint grooves, the metal plate is provided with a square hole, the square hole is matched with the aluminum alloy lining, the aluminum alloy lining is fixedly connected with the metal plate and is positioned on the inner side wall of the square hole, the first lug is fixedly connected with the metal plate and is positioned on one side of the metal plate, the second lug is fixedly connected with the aluminum alloy plate and is positioned on one side of the aluminum alloy lining, and the heat insulation component is positioned on one side of the aluminum alloy lining.

The heat insulation assembly comprises two heat insulation plates and a sound insulation plate, wherein the two heat insulation plates are fixedly connected with the aluminum alloy lining and positioned on the inner side wall of the aluminum alloy lining, and the sound insulation plate is fixedly connected with the two heat insulation plates and positioned between the two heat insulation plates.

The bridge-cutoff aluminum-plastic co-extrusion energy-saving profile further comprises a connecting assembly, and the connecting assembly is arranged between the metal plate and the aluminum alloy plate.

The connecting assembly comprises a fixed bin, a vertical plate and a sliding plate, wherein the fixed bin is fixedly connected with the aluminum alloy plate and is positioned on one side of the fixed bin, the fixed bin is provided with a strip-shaped hole, the strip-shaped hole is in sliding fit with the vertical plate, the sliding plate is in sliding connection with the fixed bin and is positioned on the inner side wall of the fixed bin, one end of the vertical plate is fixedly connected with the metal plate and is positioned on one side of the metal plate, and the other end of the vertical plate is fixedly connected with the sliding plate and is positioned on one side of the sliding plate.

The connecting assembly further comprises a sanding plate, a supporting plate and reinforcing ribs, wherein the sanding plate is fixedly connected with the fixed bin and is positioned on the inner side wall of the fixed bin, the sanding plate is in contact with the sliding plate, the metal plate is provided with a sliding groove, the sliding groove is in sliding fit with the supporting plate, the supporting plate is fixedly connected with the aluminum alloy plate and is positioned on one side of the aluminum alloy plate, one end of each reinforcing rib is fixedly connected with the aluminum alloy plate and is positioned on one side of the aluminum alloy plate, and the other end of each reinforcing rib is fixedly connected with the supporting plate and is positioned above the supporting plate.

According to the broken bridge aluminum plastic co-extrusion energy-saving profile, the aluminum alloy plate and the metal plate are vertically placed on the ground, then the first clamping groove is aligned with the first clamping strip, and meanwhile the second clamping groove is aligned with the second clamping strip, so that the aluminum alloy plate and the metal plate are connected by the connecting plate, and the two butt joint grooves are convenient for installation personnel to use.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below.

Fig. 1 is a schematic structural view of the broken bridge aluminum-plastic co-extrusion energy-saving profile of the utility model.

Fig. 2 is a top view of the broken bridge aluminum plastic co-extrusion energy-saving profile of the utility model.

Fig. 3 is a right side view of the broken bridge aluminum plastic co-extrusion energy-saving section of the utility model.

Fig. 4 is a cross-sectional view taken along line A-A of fig. 3 in accordance with the present utility model.

101-Metal plate, 102-aluminum alloy plate, 103-connecting plate, 104-first clamping strip, 105-second clamping strip, 106-first bump, 107-second bump, 108-aluminum alloy lining, 109-heat insulation component, 110-connecting component, 111-heat insulation board, 112-sound insulation board, 113-fixed bin, 114-riser, 115-slide plate, 116-sanding board, 117-supporting board, 118-reinforcing rib, 119-first clamping groove, 120-second clamping groove, 121-butt joint groove, 122-square hole, 123-bar hole, 124-slide groove.

Detailed Description

Referring to fig. 1 to 4, fig. 1 is a schematic structural diagram of a bridge-cut aluminum-plastic co-extrusion energy-saving profile according to the present utility model, fig. 2 is a top view of the bridge-cut aluminum-plastic co-extrusion energy-saving profile according to the present utility model, fig. 3 is a right side view of the bridge-cut aluminum-plastic co-extrusion energy-saving profile according to the present utility model, and fig. 4 is a cross-sectional view along line A-A of fig. 3 according to the present utility model.

The utility model provides a broken-bridge aluminum-plastic co-extrusion energy-saving profile which comprises a metal plate 101, an aluminum alloy plate 102, a connecting plate 103, a first clamping strip 104, a second clamping strip 105, a first protruding block 106, a second protruding block 107, an aluminum alloy lining 108 and a heat insulation assembly 109, wherein the first clamping strip 104 is fixedly connected with the metal plate 101 and is positioned at one side of the metal plate 101, the second clamping strip 105 is fixedly connected with the aluminum alloy plate 102 and is positioned at one side of the aluminum alloy plate 102, the connecting plate 103 is provided with a first clamping groove 119 and a second clamping groove 120, the first clamping groove 119 is in sliding fit with the first clamping strip 104, the second clamping groove 120 is in sliding fit with the second clamping strip 105, the metal plate 101 is provided with two butt joint grooves 121, the metal plate 101 is provided with square holes 122, the square holes 122 are matched with the aluminum alloy lining 108, the aluminum alloy lining 108 is fixedly connected with the metal plate 101 and is positioned at the inner side wall of the square holes 122, the first protruding block 119 is fixedly connected with the metal plate 106 and is positioned at one side of the aluminum alloy lining 101 and is fixedly connected with the aluminum alloy lining 108, and is positioned at one side of the aluminum alloy plate 101 and is fixedly arranged at one side of the aluminum alloy lining 107 and is positioned at the heat insulation assembly 109.

In this embodiment, the aluminum alloy plate 102 and the metal plate 101 are vertically placed on the ground, then the first clamping groove 119 is aligned with the first clamping strip 104, and the second clamping groove 120 is aligned with the second clamping strip 105, so that the connecting plate 103 connects the aluminum alloy plate 102 and the metal plate 101, and the two butt-joint grooves 121 are convenient for the installer to use, and the first protruding block 106 can increase the connection area, so that the use is more convenient, the waste of materials is reduced, the expenditure of installation cost is reduced, and the fatigue strength of the worker is effectively reduced.

Further, the heat insulation assembly 109 includes two heat insulation plates 111 and a sound insulation plate 112, the two heat insulation plates 111 are fixedly connected with the aluminum alloy liner 108 and located on the inner side wall of the aluminum alloy liner 108, and the sound insulation plate 112 is fixedly connected with the two heat insulation plates 111 and located between the two heat insulation plates 111.

In this embodiment, the heat insulation board 111 slows down the heat transmission, avoids being scalded by the metal plate 101, and the sound insulation board 112 reduces the influence of external noise on the personnel in the house, and improves the comfort level of the personnel in the house.

Further, the broken bridge aluminum-plastic co-extrusion energy-saving profile further comprises a connecting assembly 110, and the connecting assembly 110 is arranged between the metal plate 101 and the aluminum alloy plate 102.

Further, the connecting assembly 110 includes a fixing bin 113, a vertical plate 114 and a sliding plate 115, the fixing bin 113 is fixedly connected with the aluminum alloy plate 102 and is located at one side of the fixing bin 113, the fixing bin 113 has a bar hole 123, the bar hole 123 is slidably matched with the vertical plate 114, the sliding plate 115 is slidably connected with the fixing bin 113 and is located at an inner side wall of the fixing bin 113, one end of the vertical plate 114 is fixedly connected with the metal plate 101 and is located at one side of the metal plate 101, and the other end of the vertical plate 114 is fixedly connected with the sliding plate 115 and is located at one side of the sliding plate 115.

In this embodiment, the riser 114 slides in the bar hole 123, and the slide plate 115 slides in the bar hole 123, so as to further connect the aluminum alloy plate 102 and the metal plate 101, thereby effectively improving the connection strength and reducing the maintenance work of the staff.

Further, the connecting assembly 110 further comprises a sanding plate 116, a supporting plate 117 and reinforcing ribs 118, the sanding plate 116 is fixedly connected with the fixed bin 113 and is located on the inner side wall of the fixed bin 113, the sanding plate 116 is in contact with the sliding plate 115, the metal plate 101 is provided with a sliding groove 124, the sliding groove 124 is in sliding fit with the supporting plate 117, the supporting plate 117 is fixedly connected with the aluminum alloy plate 102 and is located on one side of the aluminum alloy plate 102, one end of each reinforcing rib 118 is fixedly connected with the aluminum alloy plate 102 and is located on one side of the aluminum alloy plate 102, and the other end of each reinforcing rib 118 is fixedly connected with the supporting plate 117 and is located above the supporting plate 117.

In this embodiment, the supporting plate 117 slides in the sliding groove 124, and the reinforcing ribs 118 can improve the connection between the supporting plate 117 and the aluminum alloy plate 102, prolong the service life of the supporting plate 117, avoid the expenditure of maintenance cost, and the device has a simple structure and is convenient for learning and operation.

The above disclosure is only a preferred embodiment of the present application, and should not be construed as limiting the scope of the application, and those skilled in the art will understand that all or part of the procedures for implementing the above embodiment are equivalent changes according to the claims of the present application.

Claims (5)

1. A broken bridge aluminum plastic co-extrusion energy-saving profile is characterized in that,

Including metal sheet, aluminium alloy plate, connecting plate, first card strip, second card strip, first lug, second lug, aluminum alloy inside lining and thermal-insulated subassembly, first card strip with metal sheet fixed connection, and be located one side of metal sheet, the second card strip with aluminium alloy plate fixed connection, and be located one side of aluminium alloy plate, the connecting plate has first draw-in groove and second draw-in groove, first draw-in groove with first card strip sliding fit, the second draw-in groove with second card strip sliding fit, the metal sheet has two butt joint grooves, the metal sheet has square hole, square hole with aluminum alloy inside lining adaptation, aluminum alloy inside lining with metal sheet fixed connection, and be located square hole's inside wall, first lug with metal sheet fixed connection, and be located one side of metal sheet, the second lug with aluminium alloy plate fixed connection, and be located one side of aluminium alloy plate, thermal-insulated subassembly set up in aluminum alloy inside lining.

2. The bridge-cutoff aluminum-plastic co-extrusion energy-saving profile as claimed in claim 1, wherein,

The heat insulation assembly comprises two heat insulation plates and a sound insulation plate, wherein the two heat insulation plates are fixedly connected with the aluminum alloy lining and positioned on the inner side wall of the aluminum alloy lining, and the sound insulation plate is fixedly connected with the two heat insulation plates and positioned between the two heat insulation plates.

3. The bridge-cutoff aluminum-plastic co-extrusion energy-saving profile as claimed in claim 2, wherein,

The broken bridge aluminum-plastic co-extrusion energy-saving profile also comprises a connecting component, wherein the connecting component is arranged between the metal plate and the aluminum alloy plate.

4. The bridge-cutoff aluminum-plastic co-extrusion energy-saving profile as claimed in claim 3, wherein,

The connecting assembly comprises a fixed bin, a vertical plate and a sliding plate, wherein the fixed bin is fixedly connected with the aluminum alloy plate and is positioned on one side of the fixed bin, the fixed bin is provided with a strip-shaped hole, the strip-shaped hole is in sliding fit with the vertical plate, the sliding plate is in sliding connection with the fixed bin and is positioned on the inner side wall of the fixed bin, one end of the vertical plate is fixedly connected with the metal plate and is positioned on one side of the metal plate, and the other end of the vertical plate is fixedly connected with the sliding plate and is positioned on one side of the sliding plate.

5. The bridge-cutoff aluminum-plastic co-extrusion energy-saving profile as claimed in claim 4, wherein,

The connecting assembly further comprises a sanding plate, a supporting plate and reinforcing ribs, wherein the sanding plate is fixedly connected with the fixed bin and is positioned on the inner side wall of the fixed bin, the sanding plate is in contact with the sliding plate, the metal plate is provided with a sliding groove, the sliding groove is in sliding fit with the supporting plate, the supporting plate is fixedly connected with the aluminum alloy plate and is positioned on one side of the aluminum alloy plate, one end of each reinforcing rib is fixedly connected with the aluminum alloy plate and is positioned on one side of the aluminum alloy plate, and the other end of each reinforcing rib is fixedly connected with the supporting plate and is positioned above the supporting plate.