CN107288514B - Inner layer push-pull vacuum-pumping window heat preservation device - Google Patents

Abstract

The invention provides an inner layer push-pull type vacuumizing window heat preservation device, which comprises: the frame sliding rail is arranged on the wall surface of the window hole, and the length direction of the frame sliding rail is perpendicular to the vertical plane where the window hole is positioned; the heat preservation window body is arranged in the window hole in a sliding mode on the frame sliding rail, the circumferential side surface of the heat preservation window body is attached to the wall surface of the window hole, and a vacuumizing hole is formed in the heat preservation window body; the telescopic heat-insulating curtain is arranged on one side, far from the room, of the frame sliding rail in a telescopic manner along the horizontal direction; when the retractable heat-insulating curtain is unfolded to an open state, the heat-insulating window is covered, so that the retractable heat-insulating curtain, the frame sliding rail and the combined body of the heat-insulating window pulled out to one side, close to the room, of the frame sliding rail form a ring, the combined body and the wall surface of the window hole form a closed space, and the vacuumizing hole is communicated with the closed space. According to the technical scheme, the indoor environment is insulated.

Description

Inner layer push-pull vacuum-pumping window heat preservation device

Technical Field

The invention belongs to the technical field of building materials of buildings, and further belongs to the technical field of indoor heat preservation of buildings, in particular to an inner-layer push-pull type vacuumizing window heat preservation device.

Background

In the current society, along with population increase and economic development, the energy consumption required in daily life is more and more, and the consumption of high energy causes the energy to be tense, and environmental pollution is increasingly serious simultaneously, in order to alleviate the energy consumption, reduce environmental pollution simultaneously, guarantee living environment requirement, need design a new heat preservation device and keep warm indoor the building.

Disclosure of Invention

In order to solve the above problems, the present invention provides an inner layer push-pull type vacuum-pumping window heat preservation device, which comprises: the frame sliding rail is arranged on the wall surface of the window hole, and the length direction of the frame sliding rail is perpendicular to the vertical plane where the window hole is located; the heat preservation window body is installed in the window hole in a sliding mode on the frame sliding rail, the circumferential side face of the heat preservation window body is attached to the wall face of the window hole, and a vacuumizing hole is formed in the heat preservation window body; the telescopic heat-insulating curtain is arranged on one side, far from the room, of the frame sliding rail in a telescopic manner along the horizontal direction; when the telescopic heat-insulating curtain is unfolded to an open state, the heat-insulating window body is covered, so that the telescopic heat-insulating curtain, the frame sliding rail and the combined body of the heat-insulating window body which is arranged on one side, close to an indoor space, of the frame sliding rail form a ring shape, the combined body and the wall surface of the window hole are combined to form a closed space, and the vacuumizing hole is communicated with the closed space.

In the inner-layer push-pull vacuum-pumping window heat preservation device as described above, preferably, a frame sliding groove is arranged on the frame sliding rail, and a protrusion in sliding fit with the frame sliding groove is arranged on the circumferential side surface of the heat preservation window.

In the inner-layer push-pull vacuum-pumping window heat preservation device, preferably, the section of the window hole is rectangular, the number of the frame sliding rails is four, and the four frame sliding rails are correspondingly arranged at four included angles of the window hole.

In the inner-layer push-pull vacuum-pumping window heat preservation device, preferably, the direction of the frame sliding groove is perpendicular to the vertical central axis of the window hole.

In the inner-layer push-pull type vacuum-pumping window heat preservation device as described above, preferably, the heat preservation window comprises: the frame is annular, and the circumferential side surface of the frame is attached to the wall surface of the window hole; and a sliding window which is arranged in the frame in a horizontal direction in a movable manner.

In the inner-layer push-pull type vacuum-pumping window insulation device as described above, preferably, the vacuum-pumping hole is provided on the frame.

In the inner push-pull type vacuum-pumping window insulation device as described above, preferably, the frame includes: two horizontal rims and two vertical rims; the two horizontal frames are arranged between the two vertical frames in a mutually parallel mode, and the vertical side faces of the vertical frames are arranged on the frame sliding rails in a sliding mode.

In the inner-layer push-pull vacuum-pumping window heat preservation device as described above, preferably, the inner-layer push-pull vacuum-pumping window heat preservation device further includes: a window sealing strip; and a window body sealing groove is arranged on the circumferential side surface of the heat preservation window body attached to the wall surface of the window hole, and the sealing strip is arranged in the window body sealing groove.

In the inner-layer push-pull vacuum-pumping window heat preservation device as described above, preferably, the inner-layer push-pull vacuum-pumping window heat preservation device further includes: a sliding rail sealing strip; and a frame sealing groove is arranged on the side surface of the frame sliding rail attached to the wall surface of the window hole, and the sliding rail sealing strip is arranged in the frame sealing groove.

In the inner-layer push-pull vacuum-pumping window heat preservation device as described above, preferably, the retractable heat preservation curtain is formed by sequentially connecting a plurality of heat preservation curtain blocks, and the heat preservation curtain blocks are flexible heat preservation curtains.

Analysis shows that compared with the prior art, the invention has the following advantages:

through setting up the heat preservation window body on the frame slide rail with sliding to be provided with the evacuation hole on the heat preservation window body, and be provided with along the telescopic heat preservation curtain of horizontal direction in the outside of frame slide rail, make to form the vacuum area between scalable heat preservation curtain and heat preservation window body, keep warm indoor environment.

Drawings

FIG. 1 is an assembly schematic diagram of an inner layer push-pull vacuum window insulation device according to an embodiment of the present invention;

FIG. 2 is a front (rear) view of a vertical frame provided by an embodiment of the present invention;

FIG. 3 is a left side view of a vertical frame provided by an embodiment of the present invention;

FIG. 4 is a top view of a vertical frame provided by an embodiment of the present invention;

FIG. 5 is a top view of a horizontal frame provided by an embodiment of the present invention;

FIG. 6 is a schematic longitudinal section of FIG. 5;

fig. 7 is a top view of a frame sliding rail according to an embodiment of the present invention;

FIG. 8 is a schematic longitudinal section of FIG. 7;

fig. 9 is a top view of a retractable thermal insulation curtain according to an embodiment of the present invention.

Wherein, the symbols in the drawings are as follows:

the vertical central axis of the vertical frame, 11 bulges, 12 window body sealing grooves, 13 sliding window sealing grooves, 2 horizontal frames, 21 window body sealing grooves, 22 sliding grooves, 3 sliding windows, 4 frame sliding rails, 41 frame sealing grooves, 42 frame sliding grooves, 5 vacuumizing holes, 6 telescopic heat preservation curtain, 61 heat preservation curtain blocks and N window holes.

Detailed Description

The invention is described in further detail below with reference to the drawings and the detailed description.

As shown in fig. 1 to 9, the inner push-pull type vacuum-pumping window heat preservation device according to the preferred embodiment of the present invention mainly includes: frame slide rail 4, heat preservation window form and scalable heat preservation curtain 6.

Specifically, a frame sliding rail 4 is disposed on a wall surface of the window hole, and a length direction of the frame sliding rail 4 is perpendicular to a vertical plane (a vertical plane refers to a plane in which a front view shown in fig. 1 is located) in which the window hole is located. In fig. 1, the length direction of the frame sliding rail 4 is perpendicular to the paper surface, and the window hole is a ventilation hole formed in the wall body and used for installing a window, and is usually rectangular, such as rectangle and square. The heat preservation window body is installed in the window hole in a mode of being arranged on the frame sliding rail 4 in a sliding mode and is used as a window. Because the thermal insulation window body is slidably arranged relative to the frame sliding rail 4, the thermal insulation window body has two states: the length of the part, which is overlapped with the frame sliding rail, of the heat-insulating window body in the pulled-out state is smaller than that of the part, which is overlapped with the frame sliding rail, of the heat-insulating window body in the initial state, namely the heat-insulating window body in the pulled-out state is close to a room relative to the heat-insulating window body in the initial state. The circumferential side surfaces (such as the upper horizontal side surface, the left vertical side surface, the lower horizontal side surface and the right vertical side surface of the heat-insulating window body in fig. 1) of the heat-insulating window body are attached to the wall surface of the window hole, and the circumferential side surfaces are formed by taking the direction of the window as an axis (the axis here refers to the direction perpendicular to the vertical plane in which the window hole is located or the direction perpendicular to the paper surface in fig. 1). The heat preservation window body is provided with a vacuumizing hole 5. The telescopic heat insulation curtain 6 is located outside the frame sliding rail 4 (i.e. far away from the indoor side), and covers the heat insulation window when being in an open state along the horizontal direction (i.e. left to right direction or right to left direction in fig. 1), so that the telescopic heat insulation curtain 6, the frame sliding rail 4 and the assembly of the heat insulation window pulled out from the inner side of the frame sliding rail 4 (i.e. near the indoor side) are annular (i.e. the telescopic heat insulation curtain 6 and the sliding window 3 are arranged in parallel), the assembly and the upper wall surface of the window hole located above the assembly and the lower wall surface of the window hole located below the assembly form a closed space, and the vacuum pumping hole 5 is communicated with the closed space to pump air to enable the closed space to reach a vacuum state, so that a vacuum belt is formed between the telescopic heat insulation curtain 6 and the heat insulation window, thereby being beneficial to heat insulation. When the retractable heat-insulating curtain 6 is in a contracted state, the retractable heat-insulating curtain 6 can be positioned at one side of the vertical central axis N of the heat-insulating window body, and the retractable heat-insulating curtain 6 is extended to an open state along the horizontal left or right direction so as to cover the whole heat-insulating window body; the heat insulation window may be further located at a vertical central axis N of the heat insulation window, where one end of the retractable heat insulation curtain 6 extends to an open state along a horizontal left direction to cover a half portion of the heat insulation window, and the other end of the retractable heat insulation curtain 6 extends to an open state along a horizontal right direction to cover the other half portion of the heat insulation window, so as to cover the whole heat insulation window. In order not to influence the original lighting conditions in the building, the telescopic heat-insulating curtain 6 and the heat-insulating window are made of light-transmitting materials. In practical application, the outer side of the inner layer push-pull type vacuumizing window body heat preservation device is an original window, namely the inner layer push-pull type vacuumizing window body heat preservation device is arranged on the inner side of the original window. The scalable heat preservation curtain 6 mainly comprises a plurality of heat preservation curtain pieces 61 which are connected in sequence, the heat preservation curtain pieces 61 are flexible heat preservation curtains, and the scalable heat preservation curtain 6 in an open state can be fixed through clamping grooves or pin holes.

According to the invention, the heat-insulating window body is arranged on the frame sliding rail 4 in a sliding manner, the vacuumizing hole 5 is arranged on the heat-insulating window body, and the telescopic heat-insulating curtain 6 which stretches out and draws back along the horizontal direction is arranged on the outer side of the frame sliding rail 4, so that a vacuum belt is formed between the telescopic heat-insulating curtain 6 and the heat-insulating window body, and the indoor environment is insulated.

In order to firmly support the heat-insulating window body, a frame sliding groove 42 is formed in the frame sliding rail 4, a protrusion 11 embedded in the sliding groove is formed in the circumferential side surface of the heat-insulating window body, and the protrusion 11 slides in the sliding groove to realize the sliding of the heat-insulating window body along the frame sliding rail 4.

Because the thermal insulation window body can be pushed and pulled relative to the window hole, in order to further firmly support the thermal insulation window body, the number of the frame sliding rails 4 is multiple, the frame sliding rails 4 are divided into two groups, namely a left side sliding rail group and a right side sliding rail group, and the frame sliding rails 4 in the two groups are symmetrically arranged on two sides of the vertical central axis N of the window hole in a one-to-one correspondence mode. Preferably, the number of the frame sliding rails 4 is four, and because the window hole is generally rectangular or square, the four frame sliding rails 4 are correspondingly arranged at four included angles of the window hole, so that two end faces of the frame sliding rails 4, which are attached to the wall surface of the window hole, are arranged, the supporting force of the frame sliding rails 4 on the heat-insulation window body can be increased, and the supporting force of the window hole can be increased. Taking the frame sliding rail 4 located at the upper left corner in fig. 1 as an example for explanation, the upper end surface of the frame sliding rail 4 is attached to the upper wall surface of the window hole, so that the wall surface of the window hole can be supported, and the left end surface is attached to the left wall surface of the window hole.

The orientation of frame spout 42 is perpendicular with the vertical central axis N in window opening, and frame spout 42 sets up on the side of frame slide rail 4 parallel with the vertical central axis N in window opening, as in fig. 1, is located the right flank of upper left corner's frame slide rail 4, is located the left flank of upper right corner's frame slide rail 4, so the push-and-pull of the thermal insulation window body of being convenient for.

The heat preservation window body comprises an annular frame and a sliding window 3 which is arranged in the frame and horizontally moves, and the circumferential side surface of the frame is attached to the wall surface of the window hole. Through carrying out horizontal push-and-pull operation to austral window, sliding sash 3, open the heat preservation window body, form ventilation wind channel, can realize indoor ventilation, so can not influence the indoor original ventilation condition of building. The vacuumizing hole 5 is arranged on the frame, so that the setting difficulty can be reduced.

The frame comprises two horizontal rims 2 and two vertical rims 1. The two horizontal frames are arranged between the two vertical frames in a mutually parallel mode, and the vertical side faces of the vertical frames are arranged on the frame sliding rails in a sliding mode. Specifically, two horizontal frames 2 divide into horizontal frame and lower horizontal frame, and two vertical frames 1 divide into left vertical frame and right vertical frame, and left vertical frame, lower horizontal frame, right vertical frame and last horizontal frame are the head and the tail in proper order and are connected and form annular frame, so the installation of the frame of being convenient for. In the preferred embodiment of the invention, the number of the sliding windows 3 is two, and when the sliding operation enables the two sliding windows 3 to have overlapped parts, the heat-insulating window body is in an open state, so that indoor ventilation is realized. Two ends of the horizontal frame 2 are respectively connected with a side surface of one end part of the vertical frame 1, the other side surface of one end part of the vertical frame 1 (opposite to one side surface of one end part of the vertical frame 1) is provided with a bulge 11, the left end part of the upper horizontal frame is connected with the right side surface of the upper end part of the left vertical frame in the illustration taking the left vertical frame, the right vertical frame and the upper horizontal frame as examples in fig. 1, the right end part of the upper horizontal frame is connected with the left side surface of the upper end part of the right vertical frame, the left side surface of the upper end part of the left vertical frame is provided with the bulge 11, and the right side surface of the upper end part of the right vertical frame is provided with the bulge 11.

In order to prevent the air leakage between the heat-insulating window and the wall surface of the window hole and facilitate the sliding of the heat-insulating window, the invention also comprises a window sealing strip, wherein a window sealing groove 21 is arranged on the circumferential side surface of the heat-insulating window, which is attached to the wall surface of the window hole, and is internally provided with the window sealing strip to seal the heat-insulating window and the wall surface of the window hole. The invention also comprises a sliding rail sealing strip, wherein a side face of the frame sliding rail 4, which is attached to the wall surface of the window hole, is provided with a frame sealing groove 41, and the sliding rail sealing strip is arranged in the side face to seal between the frame sliding rail 4 and the wall surface of the window hole.

The following describes the operation steps of the inner layer push-pull vacuum-pumping window heat preservation device of the invention:

step one, manufacturing a heat-insulating window body according to the size of a window, wherein the heat-insulating window body comprises an annular frame and a sliding window arranged in the frame, wherein the annular frame is formed by sequentially connecting a left vertical frame, a lower horizontal frame, a right vertical frame and an upper horizontal frame in an end-to-end mode. Four sides of the heat-insulating window body (such as an upper horizontal side face, a lower horizontal side face, a left vertical side face and a right vertical side face of the frame in fig. 1) are provided with window body sealing grooves (21 and 12) for installing window body sealing strips so that the heat-insulating window body is tightly attached to the wall surface (called a window sill) of a window hole, and a sealing effect is achieved. Four corners (or called the contained angle) of heat preservation window form design have frame slide rail 4, and four corners at the windowsill are fixed to frame slide rail 4, and the side design of the wall contact with the windowsill has frame seal groove 41 for install the four sides laminating of frame sealing strip and windowsill, play sealed effect.

Step two, the sliding window 3 moves along the push-pull sliding grooves 22 of the upper and lower horizontal frames, can be sealed and fixed in the sliding window sealing grooves 13 of the left and right vertical frames and is used for heat preservation (when the sliding window 3 is in a closed state) or ventilation (when the sliding window 3 is in an open state), the frame sliding rail 4 is designed with a frame sliding groove 42, the circumferential side surface of the frame is designed with a bulge 11 which is in sliding fit with the frame sliding groove 42, and the surface (or called frame sliding surface) of the bulge 11 is assembled and sealed with the groove wall (or called frame sliding groove 42 working surface) of the frame sliding groove 42.

Step three, during operation is pulled open scalable heat preservation curtain 6 to cover the heat preservation window form along the horizontal direction, makes austral window, sliding sash 3 be in the closed state, draws out the heat preservation window form along the frame spout of frame slide rail 4, and then scalable heat preservation curtain 6 constitutes a confined space with the wall of heat preservation window form and window opening, utilizes evacuating equipment to take out this confined space into vacuum from the evacuation hole 5 department that sets up on the frame, isolated air convection, plays the heat preservation effect.

Analysis shows that compared with the prior art, the invention has the following advantages:

through setting up the heat preservation window body on frame slide rail 4 with sliding to be provided with evacuation hole 5 on the heat preservation window body, and be provided with along the telescopic scalable heat preservation curtain 6 of horizontal direction in the outside of frame slide rail 4, make to form the vacuum space between scalable heat preservation curtain 6 and heat preservation window body, keep warm indoor environment. Therefore, the invention has the advantages of simple design, convenient processing and installation, good sealing and heat preservation effects and wide application range.

It will be appreciated by those skilled in the art that the present invention can be carried out in other embodiments without departing from the spirit or essential characteristics thereof. Accordingly, the above disclosed embodiments are illustrative in all respects, and not exclusive. All changes that come within the scope of the invention or equivalents thereto are intended to be embraced therein.

Claims (8)

1. An inner-layer push-pull type vacuumizing window heat preservation device is characterized in that the inner-layer push-pull type vacuumizing window heat preservation device comprises:

the frame sliding rail is arranged on the wall surface of the window hole, and the length direction of the frame sliding rail is perpendicular to the vertical plane where the window hole is located;

the heat preservation window body is installed in the window hole in a sliding mode on the frame sliding rail, the circumferential side face of the heat preservation window body is attached to the wall face of the window hole, and a vacuumizing hole is formed in the heat preservation window body;

the telescopic heat-insulating curtain is arranged on one side, far from the room, of the frame sliding rail in a telescopic manner along the horizontal direction;

a window sealing strip is arranged on the circumferential side surface of the heat-insulating window, which is attached to the wall surface of the window hole, and is internally provided with the sealing strip;

the side face of the frame sliding rail, which is attached to the wall surface of the window hole, is provided with a frame sealing groove, and the sliding rail sealing strip is arranged in the frame sealing groove;

wherein when the retractable heat-insulating curtain is unfolded to an open state, the heat-insulating window is covered, so that the combination of the retractable heat-insulating curtain, the frame sliding rail and the heat-insulating window pulled out from one side of the frame sliding rail, which is close to the room, is annular, the combination and the wall surface of the window hole are combined to form a closed space, the vacuumizing hole is communicated with the closed space,

the telescopic heat preservation curtain in the open state is fixed through the clamping groove or the pin hole.

2. The inner-layer push-pull vacuum-pumping window heat preservation device according to claim 1, wherein a frame sliding groove is arranged on the frame sliding rail, and a protrusion which is in sliding fit with the frame sliding groove is arranged on the circumferential side surface of the heat preservation window.

3. The inner-layer push-pull vacuum window insulation device according to any one of claims 1-2, wherein the cross section of the window hole is rectangular, the number of the frame sliding rails is four, and the four frame sliding rails are correspondingly arranged at four included angles of the window hole.

4. The internal push-pull vacuum insulation window of claim 3, wherein the frame chute is disposed on a side of the frame slide rail that is parallel to a vertical central axis of the window opening.

5. The inner push-pull vacuum flask thermal insulation device according to claim 1, wherein the thermal insulation flask comprises:

the frame is annular, and the circumferential side surface of the frame is attached to the wall surface of the window hole; and

the sliding window is arranged in the frame in a horizontal direction in a movable manner.

6. The internal push-pull vacuum insulation window of claim 5 wherein said vacuum holes are provided in said frame.

7. The internal push-pull vacuum flask thermal insulation device according to claim 5, wherein said frame comprises: two horizontal rims and two vertical rims;

the two horizontal frames are arranged between the two vertical frames in a mutually parallel mode, and the vertical side faces of the vertical frames are arranged on the frame sliding rails in a sliding mode.

8. The inner push-pull vacuum window insulation device according to claim 1, wherein the telescopic insulation curtain is formed by sequentially connecting a plurality of insulation curtain blocks, and the insulation curtain blocks are flexible insulation curtains.

Images