CN111827852B - Integral type outward-pushing window with electromagnetic suppression capability and assembling method thereof - Google Patents

Abstract

The invention discloses an integral type outward-pushing window with electromagnetic suppression capability and an assembling method thereof, and relates to the technical field of shelter shielding windows. The shielding outer frame and the shielding inner frame provided by the invention are of integral structures, the production is convenient, the first electromagnetic shielding glass, the second electromagnetic shielding glass and the shielding silk screen component can be rapidly installed and fixed by matching with the punch-formed second vertical groove, the punch-formed third vertical groove and the punch-formed fourth vertical groove, the three-layer electromagnetic protection effect is realized, the electromagnetic shielding performance of the push window is effectively improved, and the shielding silk screen part covered on the first electromagnetic shielding glass and the second electromagnetic shielding glass can be filled between the inner top side of the shielding outer frame and the top side of the shielding inner frame.

Description

Integral type outward-pushing window with electromagnetic suppression capability and assembling method thereof

Technical Field

The invention relates to the technical field of shelter shielding windows, in particular to an integral push-out window with electromagnetic suppression capability and an assembling method thereof.

Background

The shielding shelter is a closed carrier, and in order to ensure the external ventilation and lighting requirements of the shielding shelter, a plurality of external windows are required to be arranged on the shelter before installation; fixed window of conventional shielding, window and window frame use the hinge to link, and the hinge is different with the window body material, produces the potential difference, can influence the shielding effect of shielding window, and present fixed window overall structure is comparatively complicated moreover, assembles more troublesome.

Disclosure of Invention

The invention mainly aims to provide an integral type outward-pushing window with electromagnetic suppression capability and an assembling method thereof, so that the outward-pushing window is reasonable in structural design, convenient to assemble, high in flatness and high in shielding performance.

The purpose of the invention can be achieved by adopting the following technical scheme:

an integral type outward-pushing window with electromagnetic suppression capability comprises a shielding outer frame and a shielding inner frame matched with the shielding outer frame, wherein a first fixed groove plate is embedded in the side face of the inner wall of the shielding outer frame, a first vertical groove is formed in the inner side face of the first fixed groove plate, a channel penetrates through the top side face of the shielding inner frame, a second vertical groove, a fourth vertical groove and a third vertical groove are sequentially formed in the inner side wall of the shielding inner frame, and a first transverse groove and a second transverse groove opposite to the first transverse groove are further formed in the top side face of the shielding inner frame;

the first electromagnetic shielding glass is used for penetrating into the inner side of the second vertical groove;

the second electromagnetic shielding glass is used for penetrating into the inner side of the third vertical groove;

a shielding wire mesh component, which is used for penetrating into the inner side of the fourth vertical groove and comprises a first electromagnetic shielding wire mesh and a second electromagnetic shielding wire mesh, wherein the first electromagnetic shielding wire mesh and the second electromagnetic shielding wire mesh are equally divided into an upper part and a lower part, the lower parts of the first electromagnetic shielding wire mesh and the second electromagnetic shielding wire mesh are mutually attached and fixed, the upper part of the first electromagnetic shielding wire mesh is used for covering the top side of the first electromagnetic shielding glass and extending to the inner side of the first horizontal groove, and the upper part of the second electromagnetic shielding wire mesh is used for covering the top side of the second electromagnetic shielding glass and extending to the inner side of the second horizontal groove;

the fixed vertical rod is arranged on one outer side face of the shielding inner frame and is used for being inserted into the inner side of the first vertical groove, so that the shielding inner frame is immersed into the inner side of the shielding outer frame;

the second fixing slotted plate is fixed on the bottom side of the inner wall of the shielding outer frame, and a clamping groove penetrates through the top side surface of the second fixing slotted plate;

the shielding inner frame connecting rod, the one end setting of shielding inner frame connecting rod is in a side of shielding frame, just the other end of shielding inner frame connecting rod articulates there is shielding inner frame extension rod, the inner chamber of shielding inner frame extension rod is provided with a plurality of first springs, the top of first spring be fixed with alternate in the first fixture block of shielding inner frame extension rod top side, first fixture block alternate in the inboard of draw-in groove is used for making the shielding inner frame is fixed the outside of shielding frame.

Preferably, the outer side surface of each fixed vertical rod is wrapped with a shielding sealing strip, and the shielding sealing strips are used for filling gaps between the fixed vertical rods and the first vertical grooves.

Preferably, a weight rod storage tank is arranged at the bottom end of the inner side of the fourth vertical groove, a weight rod is fixed at the bottom end of the shielding wire mesh component, and the weight rod is stuffed in the inner side of the weight rod storage tank to fix the position of the bottom end of the fourth vertical groove.

Preferably, a second spring is fixed in the inner cavity of the connecting rod of the shielding inner frame, a second clamping block inserted into the top side surface of the connecting rod of the shielding inner frame is fixed at the top of the second spring, and the second clamping block is inserted into the inner side of the clamping groove to fix the shielding outer frame on the inner side of the shielding outer frame.

Preferably, the height of the first vertical groove is equal to the distance between the top and bottom sides of the inner wall of the shielding outer frame, and the number of the second vertical grooves is two, and the two second vertical grooves are respectively arranged on the two side walls of the inner side of the shielding inner frame.

Preferably, the weight lever is a rubber lever, and the width of the weight lever is greater than the gap width of the fourth vertical slot.

Preferably, the shielding frame with the shielding inside casing is integrated into one piece's aluminium frame, first fixed frid is aluminium system L shape pole, first perpendicular groove, second are erect the groove, fourth are erect the groove and the third is erect the groove and is stamping forming.

Preferably, when the shielding inner frame is submerged into the inner side of the shielding outer frame, the second electromagnetic shielding mesh part covering the top side of the second electromagnetic shielding glass and the first electromagnetic shielding mesh part covering the top side of the first electromagnetic shielding glass are both attached to the top wall of the inner side of the shielding outer frame.

A method for assembling an integral push-out window with electromagnetic suppression capability comprises the following steps,

s1., vertically inserting the first electromagnetic shielding glass and the second electromagnetic shielding glass into the corresponding second vertical groove and the corresponding third vertical groove respectively, respectively attaching and fixing the first electromagnetic shielding glass to the inner side of the second vertical groove and the second electromagnetic shielding glass to the inner side of the third vertical groove by using glass cement, and attaching and fixing the bottom side surfaces of the first electromagnetic shielding glass and the second electromagnetic shielding glass to the inner bottom side surface of the shielding inner frame by using glass cement;

s2, inserting the balance weight rod into the inner side of the fourth vertical groove from top to bottom until the balance weight rod is clamped into the inner side of the balance weight rod storage groove, respectively covering the upper part of the first electromagnetic shielding wire mesh on the top side surface of the first electromagnetic shielding glass and inserting the top end part of the first electromagnetic shielding wire mesh into the inner side of the first transverse groove, covering the upper part of the second electromagnetic shielding wire mesh on the top side surface of the second electromagnetic shielding glass and inserting the top end part of the second electromagnetic shielding wire mesh into the inner side of the second transverse groove;

s3., respectively attaching and fixing the upper part of the first electromagnetic shielding wire mesh to the top side surface of the second vertical groove and the top side surface of the first electromagnetic shielding glass by using glass cement, and respectively attaching and fixing the upper part of the second electromagnetic shielding wire mesh to the top side surface of the third vertical groove and the top side surface of the second electromagnetic shielding glass by using glass cement;

s4., the rest part of the first electromagnetic shielding wire mesh is fixed on the inner side of the first transverse groove by glass cement, and the rest part of the second electromagnetic shielding wire mesh is fixed on the inner side of the second transverse groove by glass cement;

s5. the shielding sealing strip is fixed on the outer side of the fixed vertical rod by glass cement;

s6. straightening the extension rod of the shielding inner frame and the connecting rod of the shielding inner frame, penetrating the extension rod of the shielding inner frame into the inner side of the second fixed slot plate until the second clamping block on the connecting rod of the shielding inner frame penetrates into the inner side of the clamping slot, wherein the shielding inner frame is positioned at the inner side of the shielding outer frame at the moment, and the fixed vertical rod is inserted into the inner side of the first vertical slot.

The invention has the beneficial technical effects that:

1. the shielding outer frame and the shielding inner frame provided by the invention are of an integral structure, the production is convenient, the first electromagnetic shielding glass, the second electromagnetic shielding glass and the shielding screen assembly can be rapidly installed and fixed by matching with the punch-formed second vertical groove, the third vertical groove and the fourth vertical groove, the three-layer electromagnetic protection effect is realized, the electromagnetic shielding performance of the push window is effectively improved, the shielding screen parts covered on the first electromagnetic shielding glass and the second electromagnetic shielding glass can be filled between the top side of the shielding outer frame and the top side of the shielding inner frame, the electromagnetism in the side cabin can be shielded in multiple directions by matching with the shielding sealing strip, the structural design of the push window which is opened or closed in a push-pull mode is reasonable, and the push window has certain smoothness.

The assembling method provided by the invention is simple to operate, has fewer processes, does not need more connecting pieces, and improves the assembling efficiency of the push window.

Drawings

Fig. 1 is a schematic perspective view of a shielding outer frame according to an embodiment of the present invention;

FIG. 2 is a perspective view of a first fixed slot plate according to an embodiment of the present invention;

fig. 3 is a perspective view of a shielding inner frame according to an embodiment of the present invention;

fig. 4 is a schematic top view of a shield inner frame section configuration in accordance with an embodiment of the present invention;

FIG. 5 is a schematic sectional elevation view of a fourth vertical slot in accordance with an embodiment of the present invention;

fig. 6 is a cross-sectional view illustrating a connecting rod and an extension rod of a shield inner frame according to an embodiment of the present invention.

In the figure: 1-shielding outer frame, 2-first fixed slot plate, 3-first vertical slot, 4-shielding inner frame, 5-second vertical slot, 6-third vertical slot, 7-fourth vertical slot, 8-first electromagnetic shielding glass, 9-second electromagnetic shielding glass, 10-shielding wire mesh component, 1001-first electromagnetic shielding wire mesh, 1002-second electromagnetic shielding wire mesh, 11-counterweight rod, 12-counterweight rod storage tank, 1301-first transverse slot, 1302-second transverse slot, 14-fixed vertical rod, 15-channel, 16-second fixed slot plate, 17-clamping slot, 18-shielding inner frame connecting rod, 19-shielding inner frame extension rod, 20-first spring, 21-first clamping block, 22-shielding sealing strip, 23-second spring, 24-second fixture block.

Detailed Description

In order to make the technical solutions of the present invention more clear and definite for those skilled in the art, the present invention is further described in detail below with reference to the examples and the accompanying drawings, but the embodiments of the present invention are not limited thereto.

As shown in fig. 1-6, the integral push-out window with electromagnetic suppression capability provided in this embodiment includes a shielding outer frame 1 for fixing on a shelter body and a shielding inner frame 4 used in cooperation with the shielding outer frame 1, a first fixed slot plate 2 is inlaid on a side surface of an inner wall of the shielding outer frame 1, a shape of the first fixed slot plate 2 can be directly punched on the shielding outer frame 1, a first vertical slot 3 is formed on an inner side surface of the first fixed slot plate 2, the first vertical slot 3 is directly punched, a channel 15 penetrates through a top side surface of the shielding inner frame 4, a second vertical slot 5, a fourth vertical slot 7 and a third vertical slot 6 are sequentially formed on an inner side wall of the shielding inner frame 4, top ends of the second vertical slot 5, the fourth vertical slot 7 and the third vertical slot 6 all extend to a top side surface of the channel 15, bottom ends of the second vertical slot 5, the fourth vertical slot 7 and the third vertical slot 6 all extend to a side surface of the shielding inner frame 4, the first electromagnetic shielding glass 8, the second electromagnetic shielding glass 9 and the shielding wire mesh component 10 are conveniently and vertically inserted, and the top side surface of the shielding inner frame 4 is further provided with a first transverse groove 1301 and a second transverse groove 1302 opposite to the first transverse groove 1301;

the first electromagnetic shielding glass 8 is used for penetrating into the inner side of the second vertical groove 5, and the second electromagnetic shielding glass 9 and the first electromagnetic shielding glass 8 both have electromagnetic interference suppression capacity and have the functions of wind shielding and rain shielding;

a second electromagnetic shielding glass 9, the second electromagnetic shielding glass 9 being used for penetrating into the inner side of the third vertical groove 6;

a shielding wire mesh component 10, the shielding wire mesh component 10 is configured to penetrate into the inner side of the fourth vertical groove 7, the shielding wire mesh component 10 includes a first electromagnetic shielding wire mesh 1001 and a second electromagnetic shielding wire mesh 1002, the first electromagnetic shielding wire mesh 1001 and the second electromagnetic shielding wire mesh 1002 are equally divided into an upper portion and a lower portion, the upper portion and the lower portion each account for half, the lower portion of the shielding wire mesh component 10 can extend to the inner bottom side of the shielding inner frame 4, the lower portions of the first electromagnetic shielding wire mesh 1001 and the second electromagnetic shielding wire mesh 1002 are attached and fixed to each other, the upper portion of the first electromagnetic shielding wire mesh 1001 is configured to cover the top side of the first electromagnetic shielding glass 8 and extend to the inner side of the first horizontal groove 1301, that is, in case of being capable of covering the top side of the first electromagnetic shielding glass 8, the remaining portion can be plugged into the inner side of the first horizontal groove 1301, the upper portion of the second electromagnetic shielding wire mesh 1002 is configured to cover the top side of the second electromagnetic shielding glass 9 and extend to the inner side of the second horizontal groove 1302, the same principle as above is adopted;

the fixed vertical rod 14 is arranged on one outer side surface of the shielding inner frame 4, the fixed vertical rod 14 is used for being inserted into the inner side of the first vertical groove 3, so that the shielding inner frame 4 is immersed into the inner side of the shielding outer frame 1, when the outer side surface of the fixed vertical rod 14 is attached to the inner side of the first vertical groove 3, the shielding inner frame 4 is completely positioned on the inner side of the shielding outer frame 1, and the shielding silk screen assembly 10 positioned on the top side surface of the shielding inner frame 4 is extruded by the inner top side surface of the shielding outer frame 1;

the second fixing groove plate 16 is fixed on the bottom side of the inner wall of the shielding outer frame 1, the second fixing groove plate 16 is a semi-I-shaped plate with a downward opening and is made of aluminum, and a clamping groove 17 penetrates through the top side surface of the second fixing groove plate 16;

shielding inside casing connecting rod 18, the one end setting of shielding inside casing connecting rod 18 is in the side of shielding frame 1, and the other end of shielding inside casing connecting rod 18 articulates there is shielding inside casing extension rod 19, shielding inside casing extension rod 19 can upwards rotate in shielding inside casing connecting rod 18 relatively, the inner chamber of shielding inside casing extension rod 19 is provided with a plurality of first springs 20, first spring 20 is equipped with two, first spring 20's top is fixed with can alternate in the first fixture block 21 of shielding inside casing extension rod 19 top side, first fixture block 21 alternates in the inboard of draw-in groove 17 and is used for making shielding inside casing 4 fix in the outside of shielding frame 1, shielding inside casing 4 this moment breaks away from shielding frame 1, make the shelter body ventilate.

In this embodiment, as shown in fig. 3, the outer side surface of the fixing vertical rod 14 is wrapped with a shielding sealing strip 22, the shielding sealing strip 22 is used for filling a gap between the fixing vertical rod 14 and the first vertical groove 3, and the shielding sealing strip 22 has certain elasticity, so that the sealing property between the fixing vertical rod 14 and the first vertical groove 3 can be improved.

In this embodiment, as shown in fig. 5, a weight rod storage tank 12 is opened at the bottom end of the inner side of the fourth vertical slot 7, a weight rod 11 is fixed at the bottom end of the shielding screen assembly 10, the weight rod 11 is plugged into the weight rod storage tank 12 for fixing the position of the bottom end of the fourth vertical slot 7, and the weight rod 11 is used for fixing the lower portion of the shielding screen assembly 10.

In this embodiment, as shown in fig. 6, a second spring 23 is fixed in an inner cavity of the shielding inner frame connecting rod 18, a second locking block 24 inserted into a top side surface of the shielding inner frame connecting rod 18 is fixed at a top of the second spring 23, the second locking block 24 is inserted into the inside of the locking slot 17 to fix the shielding outer frame 1 to the inside of the shielding outer frame 1, and at this time, the shielding inner frame 4 is completely located at the inside of the shielding outer frame 1.

In the present embodiment, as shown in fig. 1, the height of the first vertical groove 3 is the same as the distance between the top and bottom sides of the inner wall of the shielding outer frame 1, two second vertical grooves 5 are provided, and two third vertical grooves 6 and two fourth vertical grooves 7 are provided, respectively, and are provided on the two inner side walls of the shielding inner frame 4.

In this embodiment, as shown in fig. 5, the weight rod 11 is a rubber rod, and the width of the weight rod 11 is greater than the gap width of the fourth vertical slot 7, so that the weight rod 11 is pushed into the inner side of the fourth vertical slot 7 to be pressed, and the position of the lower portion of the shielding screen assembly 10 can be stabilized.

In the present embodiment, as shown in fig. 1 and 3, the shielding outer frame 1 and the shielding inner frame 4 are both integrally formed aluminum frames, the first fixed groove plate 2 is an aluminum L-shaped rod, and the first vertical groove 3, the second vertical groove 5, the fourth vertical groove 7, and the third vertical groove 6 are all formed by press molding, so that potential differences between the respective portions due to different materials are prevented.

In this embodiment, as shown in fig. 3 and 5, when the shielding inner frame 4 is submerged inside the shielding outer frame 1, the second electromagnetic shielding mesh 1002 portion covering the top side of the second electromagnetic shielding glass 9 and the first electromagnetic shielding mesh 1001 portion covering the top side of the first electromagnetic shielding glass 8 are both attached to the top wall of the inner side of the shielding outer frame 1, so that the shielding performance when the shielding outer frame 1 and the shielding inner frame 4 are combined is ensured.

A method for assembling an integral push-out window with electromagnetic suppression capability comprises the following steps,

s1., vertically inserting the first electromagnetic shielding glass 8 and the second electromagnetic shielding glass 9 into the corresponding second vertical groove 5 and the third vertical groove 6, respectively, attaching the first electromagnetic shielding glass 8 to the inner side of the second vertical groove 5 and attaching the second electromagnetic shielding glass 9 to the inner side of the third vertical groove 6 by using glass cement, respectively, attaching and fixing the bottom side surfaces of the first electromagnetic shielding glass 8 and the second electromagnetic shielding glass 9 to the inner bottom side surface of the shielding inner frame 4 by using glass cement, reinforcing the positions of the first electromagnetic shielding glass 8 and the second electromagnetic shielding glass 9, and enabling no gap to exist between the bottom side surfaces and the front and back side surfaces of the first electromagnetic shielding glass 8 and the second electromagnetic shielding glass 9 and the shielding inner frame 4;

s2, inserting the weight rod 11 into the inner side of the fourth vertical slot 7 from top to bottom until the weight rod 11 is inserted into the weight rod storage tank 12, respectively covering the upper part of the first electromagnetic shielding wire mesh 1001 on the top side of the first electromagnetic shielding glass 8 and inserting the top end part of the first electromagnetic shielding wire mesh 1001 into the inner side of the first horizontal slot 1301, covering the upper part of the second electromagnetic shielding wire mesh 1002 on the top side of the second electromagnetic shielding glass 9, and inserting the top end part of the second electromagnetic shielding wire mesh 1002 into the inner side of the second horizontal slot 1302;

s3., respectively attaching and fixing the upper part of the first electromagnetic shielding wire mesh 1001 to the top side surface of the second vertical groove 5 and the top side surface of the first electromagnetic shielding glass 8 by using glass cement, and respectively attaching and fixing the upper part of the second electromagnetic shielding wire mesh 1002 to the top side surface of the third vertical groove 6 and the top side surface of the second electromagnetic shielding glass 9 by using glass cement;

s4., the rest part of the upper part of the first electromagnetic shielding screen 1001 is fixed inside the first horizontal groove 1301 by glass cement, and the rest part of the upper part of the second electromagnetic shielding screen 1002 is fixed inside the second horizontal groove 1302 by glass cement;

s5. the shielding sealing strip 22 is fixed on the outer side of the fixed vertical rod 14 by glass cement;

s6. straighten the extension rod 19 of the shield inner frame and the connecting rod 18 of the shield inner frame, and the extension rod 19 of the shield inner frame is inserted into the inner side of the second fixed slot plate 16 until the second clamping block 24 on the connecting rod 18 of the shield inner frame is inserted into the inner side of the clamping slot 17, at this time, the shield inner frame 4 is positioned at the inner side of the shield outer frame 1, and the fixed vertical rod 14 is inserted into the inner side of the first vertical slot 3.

In this embodiment, when opening the shield window, the window can be opened by pressing the second engaging block 24, holding the extension rod 19 of the shield inner frame and pushing it outward.

In summary, in this embodiment, the shielding outer frame 1 and the shielding inner frame 4 provided in this embodiment are both of an integral structure, and are convenient to produce, and are matched with the punch-formed second vertical groove 5, the punch-formed third vertical groove 6, and the punch-formed fourth vertical groove 7, so that the first electromagnetic shielding glass 8, the second electromagnetic shielding glass 9, and the shielding screen assembly 10 can be quickly and fixedly installed, and have a three-layer electromagnetic protection effect, thereby effectively improving the electromagnetic shielding performance of the push window, the shielding screen parts covered on the first electromagnetic shielding glass 8 and the second electromagnetic shielding glass 9 can be filled between the top side of the shielding outer frame 1 and the top side of the shielding inner frame 4, and the electromagnetic inside the push window can be shielded in multiple directions by matching with the shielding sealing strip 22, and the structural design of the push window being opened or closed in a push-pull manner is reasonable, and has a certain flatness.

The assembling method provided by the embodiment is simple to operate, has fewer processes, does not need more connecting pieces, and improves the assembling efficiency of the push window.

The above description is only for the purpose of illustrating the present invention and is not intended to limit the scope of the present invention, and any person skilled in the art can substitute or change the technical solution of the present invention and its conception within the scope of the present invention.

Claims (9)

1. An integral type outward pushing window with electromagnetic suppression capability is characterized in that: the shielding device comprises a shielding outer frame (1) and a shielding inner frame (4) matched with the shielding outer frame (1) for use, wherein a first fixed groove plate (2) is embedded in the side surface of the inner wall of the shielding outer frame (1), a first vertical groove (3) is formed in the inner side surface of the first fixed groove plate (2), a channel (15) penetrates through the top side surface of the shielding inner frame (4), a second vertical groove (5), a fourth vertical groove (7) and a third vertical groove (6) are sequentially formed in the inner side wall of the shielding inner frame (4), and a first transverse groove (1301) and a second transverse groove (1302) opposite to the first transverse groove (1301) are further formed in the top side surface of the shielding inner frame (4);

the first electromagnetic shielding glass (8), the first electromagnetic shielding glass (8) is used for penetrating into the inner side of the second vertical slot (5);

the second electromagnetic shielding glass (9), the second electromagnetic shielding glass (9) is used for penetrating into the inner side of the third vertical slot (6);

a shielding wire mesh assembly (10), the shielding wire mesh assembly (10) being adapted to penetrate inside the fourth vertical slot (7), and the shielding wire mesh assembly (10) comprises a first electromagnetic shielding wire mesh (1001) and a second electromagnetic shielding wire mesh (1002), the first electromagnetic shielding silk screen (1001) and the second electromagnetic shielding silk screen (1002) are divided into an upper part and a lower part, the lower parts of the first electromagnetic shielding silk screen (1001) and the second electromagnetic shielding silk screen (1002) are mutually attached and fixed, the upper part of the first electromagnetic shielding wire mesh (1001) is used for covering the top side of the first electromagnetic shielding glass (8) and extending to the inner side of the first transverse groove (1301), the upper part of the second electromagnetic shielding wire mesh (1002) is used for covering the top side of the second electromagnetic shielding glass (9) and extending to the inner side of the second transverse groove (1302);

the fixing vertical rod (14), the fixing vertical rod (14) is arranged on one outer side face of the shielding inner frame (4), and the fixing vertical rod (14) is used for being inserted into the inner side of the first vertical groove (3) so that the shielding inner frame (4) is submerged into the inner side of the shielding outer frame (1);

the second fixing slotted plate (16) is fixed on the bottom side of the inner wall of the shielding outer frame (1), and a clamping groove (17) penetrates through the top side surface of the second fixing slotted plate (16);

shielding inside casing connecting rod (18), the one end setting of shielding inside casing connecting rod (18) is in a side of shielding frame (1), just the other end of shielding inside casing connecting rod (18) articulates there is shielding inside casing extension rod (19), the inner chamber of shielding inside casing extension rod (19) is provided with a plurality of first springs (20), the top of first spring (20) is fixed with alternate in first fixture block (21) of shielding inside casing extension rod (19) top side, first fixture block (21) alternate in the inboard of draw-in groove (17) is used for making shielding inside casing (4) are fixed the outside of shielding frame (1).

2. The integrated push-out window with electromagnetic suppression capability of claim 1, wherein: the outer side surface of each fixed vertical rod (14) is wrapped with a shielding sealing strip (22), and the shielding sealing strips (22) are used for filling the gaps between the fixed vertical rods (14) and the first vertical grooves (3).

3. The integrated push-out window with electromagnetic suppression capability of claim 1, wherein: a weight rod storage tank (12) is arranged at the bottom end of the inner side of the fourth vertical groove (7), a weight rod (11) is fixed at the bottom end of the shielding wire mesh component (10), and the weight rod (11) is stuffed into the inner side of the weight rod storage tank (12) and used for fixing the position of the fourth vertical groove (7) bottom end.

4. The integrated push-out window with electromagnetic suppression capability of claim 1, wherein: a second spring (23) is fixed in an inner cavity of the shielding inner frame connecting rod (18), a second clamping block (24) which is inserted into the top side surface of the shielding inner frame connecting rod (18) is fixed at the top of the second spring (23), and the second clamping block (24) is inserted into the inner side of the clamping groove (17) and used for fixing the shielding outer frame (1) on the inner side of the shielding outer frame (1).

5. The integrated push-out window with electromagnetic suppression capability of claim 1, wherein: the height of the first vertical grooves (3) is equal to the distance between the top and bottom sides of the inner wall of the shielding outer frame (1), the number of the second vertical grooves (5) is two, and the two vertical grooves are respectively arranged on the two side walls of the inner side of the shielding inner frame (4).

6. The integrated push-out window with electromagnetic suppression capability of claim 3, wherein: the counterweight rod (11) is a rubber rod, and the width of the counterweight rod (11) is greater than the gap width of the fourth vertical slot (7).

7. The integrated push-out window with electromagnetic suppression capability of claim 1, wherein: the shielding frame (1) with shielding inside casing (4) are integrated into one piece's aluminium frame, first fixed frid (2) are aluminium system L shape pole, first perpendicular groove (3), second are erected groove (5), fourth and are erected groove (7) and third and are erected groove (6) and are stamping forming.

8. The integrated push-out window with electromagnetic suppression capability of claim 1, wherein: when the shielding inner frame (4) is immersed into the inner side of the shielding outer frame (1), a second electromagnetic shielding screen mesh (1002) part covering the top side of the second electromagnetic shielding glass (9) and a first electromagnetic shielding screen mesh (1001) part covering the top side of the first electromagnetic shielding glass (8) are attached to the inner top wall of the shielding outer frame (1).

9. The method for assembling an integral type outward-pushing window with electromagnetic suppressing capability according to any one of claims 1 to 8, characterized in that: comprises the following steps of (a) carrying out,

s1., vertically inserting first electromagnetic shielding glass (8) and second electromagnetic shielding glass (9) into a corresponding second vertical groove (5) and a corresponding third vertical groove (6), respectively, attaching the first electromagnetic shielding glass (8) to the inner side of the second vertical groove (5) by using glass cement, attaching the second electromagnetic shielding glass (9) to the inner side of the third vertical groove (6), and attaching and fixing the bottom side surfaces of the first electromagnetic shielding glass (8) and the second electromagnetic shielding glass (9) to the inner bottom side surface of the shielding inner frame (4) by using glass cement;

s2, inserting a balance weight rod (11) into the inner side of the fourth vertical slot (7) from top to bottom until the balance weight rod (11) is clamped into the inner side of a balance weight rod storage tank (12), respectively covering the upper part of a first electromagnetic shielding wire mesh (1001) on the top side of first electromagnetic shielding glass (8) and inserting the top end part of the first electromagnetic shielding wire mesh (1001) into the inner side of a first transverse slot (1301), covering the upper part of a second electromagnetic shielding wire mesh (1002) on the top side of second electromagnetic shielding glass (9), and inserting the top end part of the second electromagnetic shielding wire mesh (1002) into the inner side of a second transverse slot (1302);

s3., respectively attaching and fixing the upper part of the first electromagnetic shielding wire mesh (1001) with the top side surface of the second vertical groove (5) and the top side surface of the first electromagnetic shielding glass (8) by using glass cement, and respectively attaching and fixing the upper part of the second electromagnetic shielding wire mesh (1002) with the top side surface of the third vertical groove (6) and the top side surface of the second electromagnetic shielding glass (9) by using glass cement;

s4., the rest part of the upper part of the first electromagnetic shielding silk screen (1001) is adhered and fixed on the inner side of the first transverse groove (1301) by glass cement, and the rest part of the upper part of the second electromagnetic shielding silk screen (1002) is adhered and fixed on the inner side of the second transverse groove (1302) by glass cement;

s5. the shielding sealing strip (22) is fixed on the outer side of the fixed vertical rod (14) by glass cement;

s6. straightening the extension rod (19) of the shielding inner frame and the connecting rod (18) of the shielding inner frame, penetrating the extension rod (19) of the shielding inner frame into the inner side of the second fixed slot plate (16) until the second clamping block (24) on the connecting rod (18) of the shielding inner frame penetrates into the inner side of the clamping slot (17), wherein the shielding inner frame (4) is positioned on the inner side of the shielding outer frame (1), and the fixed vertical rod (14) is inserted into the inner side of the first vertical slot (3).

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