CN219158792U - High-efficient heat retaining composite door and window - Google Patents

Abstract

The utility model discloses a high-efficiency heat-preservation composite door and window, and belongs to the technical field of composite doors and windows; including door and window frame main part, the inside vertical diaphragm that is provided with of door and window frame main part, the inside both sides of door and window frame main part all are provided with two sets of heat preservation window main parts, the sliding tray has been seted up to the inner wall of door and window frame main part, all be located the inside of sliding tray around the heat preservation window main part, heat preservation window main part and door and window frame main part sliding connection, and the bottom one side of heat preservation window main part is provided with the impeller, the tip of impeller is the slope setting. According to the utility model, the heat preservation window main body can drive the pushing block to move in the sliding process, so that the pushing block drives impurities in the sliding groove to move, and then the impurities are separated through the inclined surface, so that the impurities are collected and cleaned, and the impurities are cleaned conveniently.

Description

High-efficient heat retaining composite door and window

Technical Field

The utility model relates to the technical field of composite doors and windows, in particular to a high-efficiency heat-insulation composite door and window.

Background

The door and window is an important component part in a building, people can enter and exit and collect light, light in the building is better, the composite door and window is one of the doors and windows, the structure is stable, and the heat preservation effect is high-efficiency, so that the composite door and window is widely used at present.

Most of the existing composite windows are arranged in a sliding groove mode, the glass frame is installed in the sliding groove, the window is driven to be opened and closed through the sliding glass frame, the sliding groove has a certain depth, when external impurities and stones fall into the sliding groove, people are required to manually pick up the impurities, the impurities are inconvenient to clean and inconvenient to use, and therefore, the efficient heat-insulation composite door and window is provided to solve the problems.

Disclosure of Invention

The utility model aims to solve the defects of the prior art in the background technology, and provides a high-efficiency heat-insulation composite door and window.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

the utility model provides a high-efficient heat retaining composite door and window, includes door and window frame main part, the inside vertical diaphragm that is provided with of door and window frame main part, the inside both sides of door and window frame main part all are provided with two sets of heat preservation window main parts, the sliding tray has been seted up to the inner wall of door and window frame main part, all be located the inside of sliding tray around the heat preservation window main part, heat preservation window main part and door and window frame main part sliding connection, and the bottom one side of heat preservation window main part is provided with the impeller block, the tip of impeller block is the slope setting;

can make the heat preservation window main part drive the impeller block at gliding in-process to make the impeller block remove the impurity of sliding tray inside, the impurity can take place to remove along the inclined plane of impeller block afterwards, thereby can break away from the inside of sliding tray after making impurity pile up, accomplish the clearance to the impurity, make the clearance effect of impurity better.

Preferably, the periphery of the heat insulation window main body is provided with second rubber pads, and the second rubber pads extend into the sliding grooves;

the sealing performance between the heat-insulating window main body and the door and window frame main body is better, so that the heat-insulating effect between the heat-insulating window main body and the door and window frame main body is better.

Preferably, the two sides of the diaphragm plate are provided with first rubber pads, and the end parts of the first rubber pads are obliquely arranged;

the joint between the heat preservation window main body and the diaphragm plate can be sealed, so that the sealing performance between the heat preservation window main body and the door and window frame main body is better.

Preferably, a slot is formed in the end portion of the heat insulation window main body, an insert is arranged at the end portion of the pushing block, and the insert extends into the slot;

can make the impeller block slide at grooved inside through the slug, and then can drive impurity removal to the external world after making the impeller block slide, and then accomplish the clearance to the impurity.

Preferably, a shaft lever is arranged in the slot, the insert is sleeved outside the shaft lever, a pressure spring is sleeved outside the shaft lever, and the pressure spring is positioned above the insert;

can make the gliding stability of impeller block better, this compression spring can support the abaculus simultaneously to make the inner wall of impeller block and sliding tray laminate, further make the impeller block better clear up the inner wall of sliding tray, make the clearance of impurity more convenient.

Preferably, a stop block is arranged in the sliding groove, one end of the stop block, which is close to the pushing block, is obliquely arranged, and a collecting groove is formed in the top end of the stop block;

can make the impeller block drive debris and the inclined plane of dog and take place to contact to make impurity remove to the top of dog through the inclined plane, enter into the inside of collecting vat afterwards and collect, take out the collecting vat afterwards and all can accomplish the clearance to impurity, make the clearance of impurity more convenient.

Preferably, sliding blocks are arranged on two sides of the stop block, limit grooves are formed on two sides of the inner wall of the sliding groove, the sliding blocks are mutually matched with the limit grooves, and the limit grooves are L-shaped;

can make the sliding block imbed the inside of spacing groove to make the stability of dog better, can be better promote impurity to the inside of collecting vat and collect.

Compared with the prior art, the utility model has the beneficial effects that:

1. according to the utility model, the heat preservation window main body can drive the pushing block to move in the sliding process, so that the pushing block drives impurities in the sliding groove to move, and then the impurities are separated through the inclined surface, so that the impurities are collected and cleaned, and the impurities are cleaned conveniently.

2. According to the utility model, impurities can enter the collecting tank to be collected, and meanwhile, the stop block can be limited in the limiting tank through the sliding block, so that the pushing block can be lifted after being contacted with the inclined surface of the stop block, and therefore, the impurities are driven to enter the collecting tank to complete the process of collecting and cleaning the impurities, and the impurities are cleaned more conveniently.

Drawings

Fig. 1 is a schematic perspective view of a composite door and window with high efficiency and heat preservation;

FIG. 2 is a schematic top view of the cross-sectional structure of FIG. 1;

FIG. 3 is a schematic view of a part of the thermal insulation window body in FIG. 2;

fig. 4 is a schematic view of a partial sectional structure of the sliding groove in fig. 2.

In the figure: 1. a door and window frame main body; 2. a thermal insulation window body; 3. a diaphragm; 4. a first rubber pad; 5. a sliding groove; 6. a second rubber pad; 7. slotting; 8. a pushing block; 9. an insert; 10. a shaft lever; 11. a pressure spring; 12. a stop block; 13. a collection tank; 14. a sliding block; 15. and a limit groove.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments.

Referring to fig. 1 to 4, a composite door and window with high efficiency and heat preservation is vertically provided with a diaphragm 3 in the interior of a door and window frame main body 1, two groups of heat preservation window main bodies 2 are arranged on two sides of the interior of the door and window frame main body 1, and meanwhile, sliding grooves 5 are formed in the inner wall of the door and window frame main body 1, the periphery of the heat preservation window main body 2 is located in the sliding grooves 5, then, the door and window frame main body 1 is in sliding connection with the heat preservation window main body 2, a pushing block 8 is arranged on one side of the bottom end of the heat preservation window main body 2, the end part of the pushing block 8 is obliquely arranged, a stop block 12 is arranged in the sliding groove 5, one end, close to the pushing block 8, of the stop block 12 is obliquely arranged, and then a collecting groove 13 is formed in the top end of the stop block 12.

To describe the heat insulation window main body 2 in this embodiment specifically, please refer to fig. 2, the periphery of the heat insulation window main body 2 is provided with the second rubber pads 6, so that the second rubber pads 6 extend into the sliding groove 5, then the two sides of the diaphragm plate 3 are provided with the first rubber pads 4, and meanwhile, the end portions of the first rubber pads 4 are inclined.

To describe the pushing block 8 in this embodiment specifically, please refer to fig. 3 and 4, the end portion of the thermal insulation window main body 2 is provided with a slot 7, then an insert 9 is disposed at the end portion of the pushing block 8, meanwhile, the insert 9 extends to the inside of the slot 7, so that a shaft rod 10 is disposed in the slot 7, then the insert 9 is sleeved outside the shaft rod 10, a pressure spring 11 is sleeved outside the shaft rod 10, so that the pressure spring 11 is located above the insert 9, then sliding blocks 14 are disposed on both sides of the stop block 12, meanwhile, both sides of the inner wall of the sliding groove 5 are provided with limiting grooves 15, the sliding blocks 14 and the limiting grooves 15 are mutually adapted, and the limiting grooves 15 are L-shaped.

Working principle: when the heat preservation window is used, when the heat preservation window main body 2 is slid, the heat preservation window main body 2 drives the pushing block 8 to move, so that the pushing block 8 drives impurities in the sliding groove 5 to move, then the pushing block 8 contacts with the stop block 12 to drive the stop block 12 to move, then the stop block 12 moves to one end of the inner wall of the sliding groove 5, when the stop block 12 stops moving, the pushing block 8 continues to move with the stop block 12, then the pushing block 8 contacts with the inclined surface of the stop block 12 to enable the pushing block 8 to move along the inclined surface of the stop block 12, then the pushing block 8 drives the embedded block 9 to move in the stop block 12, then the pushing block 8 drives the impurities to move to the upper side, and then the impurities enter the collecting groove 13 to collect, so that the collecting effect of the impurities is better, then the stop block 12 is separated through the limit groove 15, the impurities in the collecting groove 13 can be cleaned, and the cleaning effect of the impurities is better.

In the utility model, the installation mode, the connection mode or the setting mode of all the components are common mechanical modes, and the specific structure, the model and the coefficient index of all the components are self-contained technologies, so long as the beneficial effects can be achieved, the implementation can be carried out, and redundant description is omitted.

The above examples are preferred embodiments of the present utility model, but the embodiments of the present utility model are not limited to the above examples, and any other changes, modifications, substitutions, combinations, and simplifications that do not depart from the spirit and principle of the present utility model should be made in the equivalent manner, and the embodiments are included in the protection scope of the present utility model.

In the present utility model, unless otherwise indicated, the terms "about" and "front and back," inner and outer, and vertical levels, "etc., used herein are merely intended to refer to the orientation of the term in conventional use, or are colloquially known to those skilled in the art, and should not be construed as limiting the term, while the terms" first, "second," and "third," etc., do not denote a particular number or order, but are merely intended to be used in distinguishing between the terms, and the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements, but also include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Claims (7)

1. The utility model provides a high-efficient heat retaining composite door and window, includes door and window frame main part (1), its characterized in that, the inside of door and window frame main part (1) is vertical to be provided with diaphragm (3), the inside both sides of door and window frame main part (1) all are provided with two sets of heat preservation window main part (2), sliding tray (5) have been seted up to the inner wall of door and window frame main part (1), all be located the inside of sliding tray (5) around heat preservation window main part (2), heat preservation window main part (2) and door and window frame main part (1) sliding connection, and bottom one side of heat preservation window main part (2) is provided with pushing block (8), the tip of pushing block (8) is the slope setting.

2. The efficient heat-insulating composite door and window according to claim 1, wherein the periphery of the heat-insulating window main body (2) is provided with second rubber pads (6), and the second rubber pads (6) extend into the sliding grooves (5).

3. The efficient heat-preservation composite door and window according to claim 1, wherein first rubber pads (4) are arranged on two sides of the diaphragm plate (3), and the end parts of the first rubber pads (4) are obliquely arranged.

4. The efficient heat-insulating composite door and window according to claim 1, wherein a slot (7) is formed in the end portion of the heat-insulating window main body (2), an insert (9) is arranged at the end portion of the pushing block (8), and the insert (9) extends into the slot (7).

5. The efficient heat-preserving composite door and window according to claim 4, wherein a shaft rod (10) is arranged in the groove (7), the embedded block (9) is sleeved outside the shaft rod (10), a pressure spring (11) is sleeved outside the shaft rod (10), and the pressure spring (11) is located above the embedded block (9).

6. The efficient heat-preserving composite door and window according to claim 1, wherein a stop block (12) is placed in the sliding groove (5), one end, close to the pushing block (8), of the stop block (12) is obliquely arranged, and a collecting groove (13) is formed in the top end of the stop block (12).

7. The efficient heat-preserving composite door and window according to claim 6, wherein sliding blocks (14) are arranged on two sides of the stop block (12), limit grooves (15) are formed on two sides of the inner wall of the sliding groove (5), the sliding blocks (14) are mutually matched with the limit grooves (15), and the limit grooves (15) are L-shaped.

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