CN113958232B - Window board wall surface structure and construction method thereof - Google Patents

Abstract

The invention provides a window board wall surface structure and a construction method thereof. The windowsill comprises a windowsill plate body, a vertical windowsill surface and a horizontal windowsill surface, wherein a windowsill clamping groove is arranged on the vertical windowsill surface and is positioned at one side close to the horizontal windowsill surface; the side edge of the windowsill body provided with the windowsill cutting groove is provided with a windowsill hanging lug, the windowsill clamping edge is arranged behind the windowsill clamping groove, and the windowsill hanging lug covers the groove opening of the windowsill clamping groove in a shielding manner. The window board wall surface structure with the structure can reduce the damage degree to the vertical window board to the maximum extent when being disassembled, and the construction difficulty is small.

Description

Window board wall surface structure and construction method thereof

Technical Field

The invention relates to the technical field of building structures, in particular to a window board wall surface structure and a construction method thereof.

Background

Traditional window board wall structure is equipped with the window as shown in figure 1 on the wall, also is formed with the windowsill face on the wall that is provided with the window, and this windowsill face has vertical windowsill face 1 and horizontal windowsill face 2, also can install the windowsill board usually on this horizontal windowsill face 2, and the common material of this windowsill board is marble, granite, rostone etc..

For the joint strength between improvement windowsill and the windowsill face, the fitment personnel usually can set up windowsill draw-in groove 4 on two vertical windowsill faces that set up relatively, and windowsill draw-in groove 4 is close to 2 one sides of horizontal windowsill face, fills in windowsill draw-in groove 4 respectively with the windowsill both ends that have cut appointed length in, and this windowsill also can laminate with 2 mutually of horizontal windowsill faces, and the windowsill installation is accomplished.

Because in the daily use, this type of window board takes place the damage because of receiving the foreign object striking easily, just need to change this window board, during the change, need carry out rigid striking to the window board, after the window board is broken, take off one by one again, nevertheless because the window board left and right sides is embedded into window board draw-in groove 4 respectively, at broken and in-process of demolising, produce the directness to two vertical window mesa 1 that set up relatively very easily and destroy, still must resume vertical window mesa that has destroyed again during subsequent installation, the construction degree of difficulty is big.

Disclosure of Invention

In view of the above, the first objective of the present invention is to provide a window board wall structure, which can minimize the damage to the vertical window board when the window board is detached, and has low construction difficulty.

In order to solve the technical problems, the technical scheme of the invention is as follows: a window board wall surface structure comprises a window board body, a vertical window board surface and a horizontal window board surface, wherein a window board clamping groove is formed in the vertical window board surface and is positioned on one side close to the horizontal window board surface;

two side edges of the windowsill plate body are respectively provided with a windowsill cutting groove, the side edge of the windowsill plate body provided with the windowsill cutting groove is a windowsill clamping edge, a windowsill clamping block is arranged in the windowsill clamping groove, and the windowsill clamping block is clamped between the windowsill clamping edge and the wall of the windowsill cutting groove;

the side edge of the windowsill body provided with the windowsill cutting groove is provided with a windowsill hanging lug, the windowsill clamping edge is arranged behind the windowsill clamping groove, and the windowsill hanging lug covers the groove opening of the windowsill clamping groove in a shielding manner.

Through the technical scheme, when the windowsill on the windowsill wall surface structure is required to be disassembled, the windowsill hanging lugs can be disassembled firstly, then the windowsill clamping block is taken out from the windowsill clamping edge and the windowsill cutting groove, once the windowsill clamping block is taken out, a large gap can be reserved between the windowsill clamping edge and the windowsill cutting groove, the windowsill plate body can be taken out from the windowsill cutting groove on the vertical windowsill surface relatively easily, the damage degree of the vertical windowsill surface is reduced to the maximum degree, and the construction difficulty is small.

Preferably, the cross section of the windowsill clamping block is C-shaped, and the windowsill clamping block is wrapped on three adjacent side edges of the windowsill clamping edge.

Through the technical scheme, on one hand, the installed windowsill clamping block can perform multidirectional extrusion fixing action on the windowsill clamping edge, and the installation stability of the whole windowsill plate is high; on the other hand, after the windowsill clamping block is taken out of the windowsill cutting groove, the gap between the windowsill clamping edge and the windowsill clamping groove is large, and the integral taking-out difficulty of the windowsill plate can be reduced.

Preferably, the windowsill clamping block extends out of a convex block towards one side of the windowsill hanging lug.

Through above-mentioned technical scheme, after the windowsill hangers was demolishd, the dismantlement personnel can adopt centre gripping equipment to grasp the lug, and then take out the windowsill fixture block from the windowsill grooving, the simple operation.

Preferably, the windowsill hanging lug is provided with a groove, and the groove is used for accommodating the bump.

Through above-mentioned technical scheme, when the windowsill plate body was installed on horizontal window mesa, lug on the windowsill fixture block can block into in the recess of windowsill hangers, had promoted the whole degree of inlaying of windowsill plate body, and structural stability is higher.

Preferably, the two ends of the windowsill clamping block are respectively the upper end of the clamping block and the lower end of the clamping block, and the upper end of the clamping block extends to the upper plate surface of the windowsill plate body from the notch of the windowsill grooving;

the windowsill is characterized in that a water absorbing strip is arranged in the windowsill clamping block, two ends of the water absorbing strip respectively extend to the upper end of the clamping block and the lower end of the clamping block, a water receiving part is arranged below the windowsill plate body, and the water receiving part is in butt joint with the lower end of the clamping block and is used for receiving water absorbed by the water absorbing strip.

By the technical scheme, in rainy days, the window is not closed in time, rainwater can directly drop on the windowsill plate body, at the moment, the rainwater contacts the end part position of the water absorbing strip at the upper end of the fixture block, and the water absorbing strip can absorb the rainwater in time and gradually guide the rainwater to the end part position of the water absorbing strip at the lower end of the fixture block and then enter the water receiving piece;

in the adsorption water guide process, the probability that wall cloth or wallpaper on the vertical window table surface is contacted with rainwater is reduced, and the protection effect is achieved.

Preferably, the water receiving piece comprises a water receiving frame body, the water receiving frame body is installed on the windowsill plate body, a water receiving plate is connected to the water receiving frame body in a rotating mode, a water receiving groove is formed in the water receiving plate, the water receiving plate rotates to the position below the windowsill plate body along the rotating shaft, and then the water receiving groove is in butt joint with the position, close to the lower end of the clamping block, of the water receiving piece.

Through the technical scheme, on one hand, rainwater guided by the water absorption strip can be guided into the water receiving groove of the water receiving plate, when more water is in the water receiving groove, the water receiving plate is rotated, water in the water receiving groove can be smoothly poured out, and the operation is convenient and fast; on the other hand, the water receiving plate is rotatable to windowsill plate body lower position along the pivot, and when normal use at ordinary times, be difficult to contact the water receiving plate, it is also relatively higher to use the convenience.

Preferably, the end part of the water receiving plate, which deviates from the rotating shaft of the water receiving plate, is provided with a collision flange, the collision flange is made of elastic materials, and the collision flange is used for being extruded and abutted against the wall surface below the windowsill plate body.

Through above-mentioned technical scheme, the wall of conflict turn-ups and windowsill plate body below offsets, and the fixed stability of water receiving plate is high, also can produce the extrusion to wall cloth or the wall paper of windowsill plate body below wall equally, and the adhesion permanence of wall cloth or wall paper also can be higher.

Preferably, when the water receiving plate rotates to the position below the windowsill plate body, the abutting flange extends downwards and is attached to the wall surface below the windowsill plate body;

when the water receiving plate rotates to the upper side of the windowsill body, the water receiving plate wraps the outer edge of the windowsill body, and the abutting flange is attached to the upper plate surface of the windowsill body.

Through the technical scheme, when the water receiving plate rotates to the lower part of the windowsill plate body, the effective contact area between the contact flange and the wall surface below the windowsill plate body is large, and the contact stability is high;

when the water receiving plate rotates to the upper part of the windowsill plate body, the water receiving plate wraps the outer edge of the windowsill plate body, the abutting flange is attached to the upper plate surface of the windowsill plate body, and the outer edge of the whole water receiving plate is wrapped by the water receiving plate and the abutting flange, so that the protective effect on the outer edge of the whole water receiving plate is achieved;

when the water receiving plate rotates to the outer side of the windowsill plate body and is in a roughly horizontal state, rainwater on the windowsill plate body can flow into the water receiving groove of the water receiving plate through the outer edge of the windowsill plate body, and the water receiving effect can be achieved.

Preferably, the water receiving groove penetrates through the water receiving plate, and an elastic water receiving film is arranged in the water receiving groove.

Through above-mentioned technical scheme, no matter be that the water receiving plate rotates windowsill plate body below, the windowsill plate body outside and be roughly the horizontality, the strip end position that absorbs water from the fixture block lower extreme water also drips on the elastic water receiving film through the water receiving tank, and the water that flows out from the windowsill plate body outside also can drip on the elastic water receiving film through the water receiving tank, and the elastic water receiving film receives the ghost image sound, and the elastic water receiving film also can present the downwardly concave shape, has promoted holistic water storage capacity.

The second purpose of the invention is to provide a construction method, which can reduce the damage degree to the vertical window table board to the maximum extent when the window board is disassembled, and has small construction difficulty.

In order to solve the technical problems, the technical scheme of the invention is as follows:

a construction method for the concrete wall with high-strength concrete,

the first step is as follows: cutting off the hanging lug of the windowsill by using a cutting device, wherein the cutting surface of the windowsill hanging lug is flush with the surface of the vertical windowsill;

the second step is that: taking down the cut-off windowsill hanging lugs from the windowsill plate body;

the third step: clamping the convex block on one side of the windowsill clamping block by using the clamping device, and pulling out the windowsill clamping block from the windowsill clamping groove;

the fourth step: the middle part of the windowsill plate body is knocked and smashed by adopting a hard object, the middle part of the windowsill plate body is taken down from the horizontal windowsill surface, and the windowsill clamping edges on the left side and the right side of the windowsill plate body are pulled out from the windowsill clamping grooves.

Through the technical scheme, the middle of the windowsill plate body is smashed and taken down, the hanging lugs are cut off, the windowsill clamping blocks are taken out, and the windowsill clamping blocks on the two sides of the windowsill plate body can be smoothly taken out from the windowsill clamping grooves;

the window board and the window board clamping groove are fully utilized, the damage degree to the vertical window board can be reduced to the maximum degree, and the construction difficulty is small.

The technical effects of the invention are mainly reflected in the following aspects:

(1) The windowsill clamping groove, the windowsill clamping block and the windowsill clamping edge are matched with each other, so that the damage degree to the vertical windowsill surface is reduced to the maximum extent, and the construction difficulty is low;

(2) By adopting the water absorbing strip structure, water on the window board can enter the water receiving tank from the water absorbing strip on one side of the vertical window board;

(3) Whole water receiving plate adopts and rotates the setting, has three kinds of position states, has realized three kinds of effects, can store, catch the rainwater that flows on the windowsill plate body, wrap up windowsill plate body edge outside the body to the moisture that the water absorption strip absorbed.

Drawings

FIG. 1 is a schematic view of a prior art wall structure of a window sill plate;

FIG. 2 is a schematic partial cross-sectional view of a first embodiment;

FIG. 3 is a schematic view of a windowsill plate according to an embodiment;

FIG. 4 is a schematic partial cross-sectional front view illustrating a first embodiment of the present invention;

FIG. 5 is an enlarged view of portion A of FIG. 4;

FIG. 6 is a side view partially in section of the first embodiment;

FIG. 7 is an enlarged view of portion B of FIG. 6;

fig. 8 is a schematic view illustrating two usage states of a water receiving plate according to an embodiment.

Reference numerals: 1. a vertical window deck; 2. a horizontal window deck; 3. a windowsill plate body; 31. grooving the windowsill; 32. the windowsill is clamped; 4. a windowsill clamping groove; 5. a windowsill clamping block; 51. the upper end of the clamping block; 52. the lower end of the clamping block; 6. a windowsill suspension loop; 7. a bump; 8. a groove; 9. a water absorbent strip; 10. a water receiving member; 101. a water receiving frame body; 102. a water receiving plate; 103. a water receiving tank; 11. butting and flanging; 12. elastic water film connection; 13. a sliding block; 14. adjusting the screw rod.

Detailed Description

The following detailed description of the embodiments of the present invention is provided in order to make the technical solution of the present invention easier to understand and understand.

The first embodiment is as follows:

a window board wall surface structure is shown in figures 2 and 4 and comprises a window board body 3, a vertical window board surface 1 and a horizontal window board surface 2. Two vertical window table surfaces 1 are arranged, and the vertical window table surfaces 1 are positioned at the left side and the right side of the horizontal window table surface 2.

Referring to fig. 2, windowsill clamping grooves 4 are formed in the two vertical windowsill surfaces 1, and the windowsill clamping grooves 4 are located on one side close to the horizontal windowsill surface 2.

Referring to fig. 3, two sides of the windowsill plate 3 are respectively provided with a windowsill cutting groove 31, and the side of the windowsill plate 3 provided with the windowsill cutting groove 31 is a windowsill clamping edge 32. As a result of the sill cut 31, sill hangers 6 are also formed on both sides of the sill plate 3.

Referring to fig. 2 and 3, after the windowsill plate 3 is mounted on the horizontal windowsill top 2, the windowsill clamping edge 32 enters the windowsill clamping groove 4. A windowsill clamping block 5 is arranged in the windowsill clamping groove 4, the windowsill clamping block 5 is preferably a C-shaped block, namely the cross section of the windowsill clamping block 5 is C-shaped, the windowsill clamping block 5 is wrapped on three adjacent side edges of the windowsill clamping edge 32, and the windowsill clamping block 5 is clamped between the windowsill clamping edge 32 and the wall of the windowsill cutting groove 31.

A convex block 7 extends from the windowsill block 5 to one side of the windowsill hanging lug 6.

The windowsill hanging lug 6 is provided with a groove 8, and the groove 8 is used for accommodating the lug 7.

After the windowsill clamping edge 32 is arranged on the windowsill clamping groove 4, the windowsill hanging lug 6 covers the groove opening of the windowsill clamping groove 4 in a shielding manner, and the convex block 7 is embedded into the groove 8.

Referring to fig. 4 and 5, at both ends of the sill latch 5 are a latch upper end 51 and a latch lower end 52, respectively, and the latch upper end 51 extends from the opening of the sill slot 31 to the upper plate surface of the sill plate 3.

The windowsill clamping block 5 is internally provided with a water absorbing strip 9, and two ends of the water absorbing strip 9 respectively extend to the upper end 51 of the clamping block and the lower end 52 of the clamping block.

A water receiving piece 10 is arranged below the windowsill plate 3, and the water receiving piece 10 is butted with the lower end 52 of the fixture block and is used for receiving water absorbed by the water absorbing strip 9.

Referring to fig. 6 and 7, the water receiving member 10 includes a water receiving frame 101, the water receiving frame 101 is mounted on the windowsill body 3, a water receiving plate 102 is rotatably connected to the water receiving frame 101, a water receiving slot 103 is formed in the water receiving plate 102, the water receiving plate 102 rotates along the rotation axis to a position below the windowsill body 3, and the water receiving slot 103 is in butt joint with a position of the water receiving member 10 close to the lower end 52 of the fixture block. The rotation axis of the water receiving plate 102 is parallel to the plane of the windowsill plate 3.

The end part of the water receiving plate 102 deviating from the rotating shaft is provided with a collision flanging 11, the collision flanging 11 is made of elastic materials, the collision flanging 11 protrudes towards one side of the water receiving plate 102, and the collision flanging 11 is used for being extruded and abutted against the wall surface below the windowsill plate body 3.

The water receiving tank 103 penetrates through the water receiving plate 102, and an elastic water receiving film 12 is arranged in the water receiving tank 103.

When the water receiving plate 102 rotates to the lower part of the windowsill plate 3, the abutting flange 11 extends downwards and is attached to the wall surface below the windowsill plate 3, and the elastic water receiving film 12 is sunken downwards, as shown in fig. 7;

when the water receiving plate 102 rotates to the upper side of the windowsill plate 3, the water receiving plate 102 is wrapped on the outer edge of the windowsill plate 3, and the abutting flange 11 is attached to the upper plate surface of the windowsill plate 3;

when the water receiving plate 102 rotates to the outer side of the windowsill body 3 and is parallel to the windowsill body 3, the abutting flange 11 extends upward, and the elastic water receiving film 12 is recessed downward, as shown in fig. 8.

In addition, referring to fig. 7 and 8, a sliding block 13 and an adjusting screw 14 are arranged on the water receiving frame body 101, the sliding block 13 is connected to the water receiving frame body 101 in a sliding manner, the adjusting screw 14 is rotatably connected to the water receiving frame body 101, the adjusting screw 14 penetrates through and is connected to the sliding block 13 in a threaded manner, and the sliding water receiving plate 102 is rotatably connected to the sliding block 13; by rotating the adjusting screw 14, the adjusting screw 14 can drive the sliding block 13 to slide;

when the water receiving plate 102 rotates to the lower part of the windowsill plate 3, the adjusting screw 14 drives the sliding block 13 and the abutting flange 11 to move towards the wall surface below the windowsill plate 3 until the abutting flange 11 is tightly abutted against the wall surface;

when the water receiving plate 102 rotates to the outer side of the windowsill plate 3 and is parallel to the windowsill plate 3, the adjusting screw 14 drives the sliding block 13 and the abutting flange 11 to move towards the wall surface below the windowsill plate 3, so that the position of the outer side edge of the windowsill plate 3 opposite to the water receiving groove 103 is adjusted, and water can be better received.

The specific using process is as follows:

during installation, the windowsill clamping block 5 is clamped on the windowsill clamping edge 32, the convex block 7 on the windowsill clamping block 5 is matched with the groove 8 on the windowsill hanging lug 6, and then the whole windowsill plate body 3 is installed on the horizontal windowsill surface 2 and the windowsill cutting groove 31.

When in use. The first state: water collector 102 is rotated downwardly to a position below sill panel 3 as shown in fig. 7. The adjusting screw 14 is rotated, the adjusting screw drives the water receiving plate 102 to move towards one side of the wall surface, the abutting flanging 11 abuts against the wall surface, rainwater enters the windowsill plate body 3 and flows to one side of the vertical windowsill surface 1, the water absorbing strip 9 absorbs the part of the rainwater and conducts the rainwater into the water receiving tank 103, as the rainwater in the water receiving tank 103 gradually increases, the elastic water receiving film 12 deforms downwards, and the whole water storage capacity is larger;

and a second state: the water receiving plate 102 is rotated to the outside of the windowsill body 3 and parallel to the windowsill body 3, as shown in fig. 8. The horizontal position of the whole water receiving plate 102 can be adjusted by adjusting the screw rod 14, and rainwater on the windowsill plate body 3 can enter the water inlet tank through the edge of the windowsill plate body 3;

and a third state: when the water receiving plate 102 is rotated to the upper side of the windowsill body 3, the water receiving plate 102 wraps the outer edge of the windowsill body 3, the abutting flange 11 is attached to the upper plate surface of the windowsill body 3, the horizontal position of the whole water receiving plate 102 can be adjusted through the adjusting screw 14, and the contact tightness between the whole water receiving plate 102 and the windowsill body 3 is improved.

Example two:

a construction method of a window sill plate wall structure according to the first embodiment, comprising the following construction steps:

the first step is as follows: the windowsill hanging lug 6 is cut off by adopting a cutting device, the cutting device can be a stone cutting machine, the cutting surface of the cutting device is flush with the vertical windowsill surface 1, and the windowsill hanging lug 6 is best to be completely removed;

the second step is that: taking off the cut-off windowsill hanging lug 6 from the windowsill plate body 3;

the third step: clamping a convex block 7 on one side of the windowsill clamping block 5 by using a clamping device, wherein the clamping device can be a vice or the like, and pulling out the windowsill clamping block 5 from the windowsill clamping groove 4;

the fourth step: adopt hard thing to strike and hit the breakage in the middle part of windowsill plate body 3, also can cut out the multichannel line of cut earlier on windowsill plate body 3 and hit the breakage again certainly, take off windowsill plate body 3 middle part from horizontal windowsill face 2, extract windowsill card limit 32 in the windowsill plate body 3 left and right sides from windowsill draw-in groove 4.

The above are only typical examples of the present invention, and besides, the present invention may have other embodiments, and all the technical solutions formed by equivalent substitutions or equivalent changes are within the scope of the present invention as claimed.

Claims (9)

1. The utility model provides a window board wall structure, includes windowsill plate body (3), vertical windowsill face (1), horizontal windowsill face (2), be equipped with windowsill draw-in groove (4) on vertical windowsill face (1), windowsill draw-in groove (4) are located and are close to horizontal windowsill face (2) one side, characterized by:

two side edges of the windowsill plate body (3) are respectively provided with a windowsill cutting groove (31), the side edge of the windowsill plate body (3) provided with the windowsill cutting groove (31) is a windowsill clamping edge (32), a windowsill clamping block (5) is arranged in the windowsill clamping groove (4), and the windowsill clamping block (5) is clamped between the windowsill clamping edge (32) and the groove wall of the windowsill cutting groove (31);

a windowsill hanging lug (6) is arranged on the side edge of the windowsill plate body (3) provided with a windowsill cutting groove (31), the windowsill clamping edge (32) is arranged behind the windowsill clamping groove (4), and the windowsill hanging lug (6) covers the notch of the windowsill clamping groove (4) in a shielding manner;

the two ends of the windowsill clamping block (5) are respectively a clamping block upper end (51) and a clamping block lower end (52), and the clamping block upper end (51) extends to the upper plate surface of the windowsill plate body (3) from the notch of the windowsill cutting groove (31);

be equipped with in windowsill fixture block (5) and absorb water strip (9), absorb water strip (9) both ends extend to fixture block upper end (51) and fixture block lower extreme (52) respectively, windowsill plate body (3) below is equipped with connects water spare (10), connect water spare (10) butt joint in fixture block lower extreme (52) and be used for catching the moisture that absorbs water strip (9) and absorb.

2. The window sill wall structure of claim 1, wherein: the cross section of the windowsill clamping block (5) is C-shaped, and the windowsill clamping block (5) is wrapped on three adjacent side edges of the windowsill clamping edge (32).

3. The window sill wall structure of claim 1, wherein: the windowsill clamping block (5) extends out of a convex block (7) towards one side of the windowsill hanging lug (6).

4. The window sill wall structure of claim 3, wherein: be equipped with recess (8) on windowsill hangers (6), recess (8) are used for holding lug (7).

5. The window sill wall structure of claim 1, wherein: the water receiving piece (10) comprises a water receiving frame body (101), the water receiving frame body (101) is installed on the windowsill plate body (3), a water receiving plate (102) is connected to the water receiving frame body (101) in a rotating mode, a water receiving groove (103) is formed in the water receiving plate (102), the water receiving plate (102) rotates to the position below the windowsill plate body (3) along a rotating shaft, and then the water receiving groove (103) is in butt joint with the position, close to the lower end (52) of the clamping block, of the water receiving piece (10).

6. The window sill wall structure of claim 5, wherein: the end part of the water receiving plate (102) deviating from the rotating shaft is provided with a collision flanging (11), the collision flanging (11) is made of elastic materials, and the collision flanging (11) is used for being extruded and abutted against the wall surface below the windowsill plate body (3).

7. The window sill wall structure of claim 6, wherein:

when the water receiving plate (102) rotates to the position below the windowsill plate body (3), the abutting flanging (11) extends downwards and is attached to the wall surface below the windowsill plate body (3);

when the water receiving plate (102) rotates to the upper side of the windowsill body (3), the water receiving plate (102) wraps the outer edge of the windowsill body (3), and the abutting flange (11) is attached to the upper plate surface of the windowsill body (3).

8. The window sill wall structure of claim 7, wherein: the water receiving tank (103) penetrates through the water receiving plate (102), and an elastic water receiving film (12) is arranged in the water receiving tank (103).

9. A method of constructing a window sill wall structure as claimed in claim 3 or 4, comprising the steps of:

the first step is as follows: cutting off the windowsill hanging lug (6) by using a cutting device, wherein the cutting surface of the windowsill hanging lug is flush with the vertical windowsill surface (1);

the second step is that: taking the cut-off windowsill hanging lug (6) down from the windowsill plate body (3);

the third step: clamping a convex block (7) at one side of the windowsill clamping block (5) by using a clamping device, and pulling out the windowsill clamping block (5) from the windowsill clamping groove (4);

the fourth step: the middle of the windowsill plate body (3) is knocked and broken by hard objects, the middle of the windowsill plate body (3) is taken down from the horizontal windowsill surface (2), and windowsill clamping edges (32) on the left side and the right side of the windowsill plate body (3) are pulled out from the windowsill clamping grooves (4).

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