CN111726066B - Adjustable solar power supply board protector for discharging platform safety monitoring system - Google Patents

Abstract

The invention relates to a protector, in particular to an adjustable solar power supply board protector for a discharging platform safety monitoring system. The adjustable solar power supply plate protector for the discharging platform safety monitoring system can protect a solar panel and adjust the position of the solar panel, so that the discharging platform safety monitoring system can be powered by sunlight. The utility model provides a platform safety monitoring system of unloading is with adjustable solar energy power supply board protector, including: the platform of unloading, the solid coupling that the even interval of one side circumference was unloaded the platform has L type pole. According to the invention, the first winding wheel is pulled to move inwards to separate the first clamping rod from the clamping groove, then the first winding wheel is twisted to rotate forwards, the swinging block is separated from the friction block, the swinging block drives the sliding block to move, and the sliding block drives the solar panel to move to a position capable of being irradiated by sunlight through the fixing plate.

Description

Adjustable solar power supply board protector for discharging platform safety monitoring system

Technical Field

The invention relates to a protector, in particular to an adjustable solar power supply board protector for a discharging platform safety monitoring system.

Background

The unloading platform is a construction site, various temporary operation platforms and operation frames are often erected, various operations such as masonry decoration and painting can be carried out, generally speaking, the unloading platform can be used for bearing materials within a certain construction period, a framework type platform for carrying out various operations is called as an operation platform, and in the using process of the unloading platform, in order to avoid overweight of goods loaded and taken by the unloading platform, a safety monitoring system is installed to monitor the unloading platform.

At present, after the platform of unloading is installed, install safety monitoring system on the platform of unloading and monitor it again, safety monitoring system then supplies power through solar panel, because solar panel directly exposes outside, is pounded by external debris easily and leads to can not supplying power, and because solar panel's position is fixed, leads to the sunlight can not shine on solar panel at a certain time, just also makes it can not supply power.

Therefore, research and development of an adjustable solar power supply plate protector for an unloading platform safety monitoring system, which can protect a solar panel and adjust the position of the solar panel so that the solar panel can be directly irradiated by sunlight for power supply, are needed.

Disclosure of Invention

In order to overcome the direct exposure of solar panel in the outside, easily by external debris pound damage lead to can not supplying power, and can not be shone by the sunlight in certain time, lead to the shortcoming of unable power supply, technical problem: the adjustable solar power supply plate protector for the discharging platform safety monitoring system can protect a solar panel and adjust the position of the solar panel, so that the discharging platform safety monitoring system can be powered by sunlight.

The technical scheme is as follows: the utility model provides a platform safety monitoring system of unloading is with adjustable solar energy power supply board protector, including: the discharging platform is fixedly connected with L-shaped rods at uniform intervals in the circumferential direction on one side outside the discharging platform; the u-shaped plate is fixedly connected among the tail ends of all the L-shaped rods, and a u-shaped sliding groove is formed in one side of the u-shaped plate, which faces the discharging platform; the sliding block is placed in the u-shaped sliding groove in a sliding manner; the fixed plate is fixedly connected to one side of the sliding block far away from the u-shaped plate; the solar panel is rotatably connected to the edge position of one side of the fixed plate; a first torsion spring connected between a side of the solar panel facing the slider and a side of the fixing plate facing away from the u-shaped plate; and the clamping mechanism is arranged between the discharging platform and the sliding block and between the discharging platform and the u-shaped sliding groove, is in contact fit with the u-shaped sliding groove and is used for fixing the sliding block.

Optionally, the clamping mechanism comprises: the first wire guiding wheel is rotatably connected to two sides in the u-shaped sliding groove far away from the sliding block; the swinging block is rotatably connected between the two inner sides of the sliding block close to the fixed plate; the second torsion spring is connected to the hinged position of the swinging block and the sliding block; the rolling shafts are fixedly connected to two sides of the swinging block; the arc-shaped grooves are formed in two sides of the inner portion of the sliding block close to the rolling shaft, and the rolling shaft is located in the arc-shaped grooves; the friction block is slidably connected to one side of the sliding block away from the fixed plate in a penetrating manner and is in contact fit with the end part of the swinging block; the second spring is symmetrically connected to one side in the friction block facing the fixed plate, and the tail end of the second spring is fixedly connected with one side, far away from the fixed plate, of the outer side of the slide block; the rotating shafts are fixedly connected to two sides in the unloading platform far away from the u-shaped plate; the first winding wheel is sleeved on the rotating shaft in a sliding mode, a first pull wire is wound on the first winding wheel, and the tail end of the first winding wheel is fixedly connected with one side of the swinging block close to the friction block by winding the first pull wire around the first wire guide wheel; the first spring is connected between the end part of the rotating shaft and the inside of the first winding wheel; the first clamping rod is fixedly connected to an eccentric position on one side, close to the discharging platform, outside the first winding wheel; the clamping groove is spaced at one side in the unloading platform close to the first winding wheel, and the first clamping rod is positioned in the clamping groove and matched with the clamping groove.

Optionally, also include adjustment mechanism, adjustment mechanism includes: the fixed rod is rotatably connected to the circle center of one side of the first winding wheel far away from the rotating shaft; the second winding wheel is sleeved on the fixed rod in a sliding manner; the third spring is connected between the end part of the fixed rod far away from the rotating shaft and the inside of the second winding wheel; the second clamping rod is fixedly connected to an eccentric position on one side of the second winding wheel, which faces the first winding wheel; the clamping holes are uniformly arranged in the circumferential direction of one side of the first winding wheel close to the second winding wheel at intervals, and the second clamping rod is positioned in the clamping holes and matched with the clamping holes; the wire guide pipe is fixedly connected to two sides of the sliding block close to the fixed plate and the u-shaped sliding chute; the second wire guide wheel is symmetrically arranged on one side of the fixing plate far away from the first torsion spring; the third wire guide wheels are symmetrically arranged on one side of the fixing plate facing the u-shaped plate; and the second stay wire is wound on the second winding wheel, the tail end of the second stay wire bypasses the first wire guide wheel and then passes through the wire guide pipe, and the tail end of the second stay wire continuously bypasses the third wire guide wheel and the second wire guide wheel and is fixedly connected with one side of the solar panel facing the fixed plate.

Optionally, the method further includes: and the protection frame is fixedly connected to one side, facing the u-shaped plate, outside the unloading platform and used for protecting the solar panel.

Optionally, the method further includes: the L-shaped plates are fixedly connected to two sides of the sliding block close to the fixed plate; the guide groove is formed in the circumferential direction of one side in the u-shaped plate and the circumferential direction of the outer side of the u-shaped plate; the gyro wheel, the installation of gyro wheel rotary type is kept away from the fixed plate one side outside the L template, it is located in the guide way.

The invention has the beneficial effects that:

1. make first kelly and draw-in groove break away from through pulling first rolling wheel inward movement, twist first rolling wheel corotation again, the swing piece then breaks away from with the clutch blocks, and the swing piece also drives the slider removal, and the slider drives solar panel through the fixed plate and moves to the position that can be shone by the sunlight, so, can make solar panel supplied power by the sunlight irradiation all the time, and solar panel is difficult to pounded badly.

2. Through adjustment mechanism's effect, can adjust solar panel's angle, so, make its area that can be shone by the sunlight maximize, convert into more electricity.

3. Through the effect of protection frame, can be further protect solar panel, avoid being pounded by external debris and damage.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

FIG. 2 is a schematic view of a first partial body structure according to the present invention.

FIG. 3 is a schematic view of a second partial body structure according to the present invention.

Fig. 4 is a perspective view of a third embodiment of the present invention.

Fig. 5 is a perspective view of a fourth embodiment of the present invention.

Fig. 6 is an enlarged schematic view of part a of the present invention.

Description of reference numerals: 1: platform of unloading, 2: l-shaped rod, 3: u-shaped plate, 4: u-shaped chute, 5: solar panel, 6: first torsion spring, 7: a slide block, 8: fixing plate, 9: chucking mechanism, 91: first wire guide wheel, 92: first stay, 93: first winding wheel, 94: first catch lever, 95: card slot, 96: rotating shaft, 97: first spring, 98: swing block, 99: roller, 910: arc-shaped groove, 911: friction block, 912: second torsion spring, 913: second spring, 10: adjustment mechanism, 101: second winding wheel, 102: second stay, 103: fixing rod, 104: third spring, 105: conduit, 106: second wire guide wheel, 107: third wire guide wheel, 108: chucking hole, 109: second jamming rod, 11: protection frame, 12: guide groove, 13: l-shaped plate, 14: and a roller.

Detailed Description

Embodiments of the present invention will be described below with reference to the drawings.

Example 1

The utility model provides a platform safety monitoring system unloads uses adjustable solar energy power supply board protector, as shown in fig. 1-6, including platform 1 of unloading, L type pole 2, u type board 3, solar panel 5, first torsion spring 6, slider 7, fixed plate 8 and chucking mechanism 9, the rigid coupling of the even interval of unloading platform 1 outer bottom circumference has L type pole 2, the rigid coupling has u type board 3 between 2 tail ends of whole L type pole, U type board 3 top is opened has u type spout 4, 4 internal sliding formula of u type spout are equipped with slider 7, 7 top rigid couplings of slider have fixed plate 8, the be connected with solar panel 5 of 8 top left sides rotary type of fixed plate 8, be connected with first torsion spring 6 between two and the 8 top left sides of fixed plate around 5 bottom left sides, be equipped with chucking mechanism 9 between slider 7 and u type spout 4 and the platform of unloading 1.

The clamping mechanism 9 comprises a first wire guiding wheel 91, a first pulling wire 92, a first winding wheel 93, a first clamping rod 94, a rotating shaft 96, a first spring 97, a swinging block 98, a rolling shaft 99, a friction block 911, a second torsion spring 912 and a second spring 913, wherein the swinging block 98 is rotatably connected between the upper parts of the left side surface and the right side surface in the sliding block 7, the second torsion spring 912 is connected at the hinged part of the swinging block 98 and the sliding block 7, the rolling shaft 99 is fixedly connected between the middle parts of the left side surface and the right side surface of the swinging block 98, the lower parts of the left side surface and the right side surface in the sliding block 7 are respectively provided with an arc-shaped groove 910, the rolling shaft 99 is positioned in the arc-shaped groove 910 and is in sliding fit with the arc-shaped groove, the friction block 911 is slidably connected in the middle part of the bottom of the sliding block 7, the top part of the friction block 911 is in contact fit with the bottom end, the U-shaped chute 4 is internally provided with a first wire guide wheel 91 in a rotary mode at the right parts of the front side and the rear side, a rotating shaft 96 is rotatably connected at the right sides of the upper parts of the front side and the rear side in the unloading platform 1, a first winding wheel 93 is sleeved on the rotating shaft 96 in a sliding mode, a first pull wire 92 is wound on the first winding wheel 93, the tail ends of the first pull wires 92 at the front side and the rear side respectively bypass the corresponding first wire guide wheel 91 and are fixedly connected with the lower parts of the front side and the rear side of a swinging block 98, a first spring 97 is connected between the inner end of the rotating shaft 96 and the inside of the first winding wheel 93, first clamping rods 94 are fixedly connected at eccentric positions of the outer side surfaces of the first winding wheels 93 at the front side and the rear side, clamping grooves 95 are uniformly spaced at the upper parts of the right sides of the front.

When a constructor uses the solar panel 5, sunlight irradiates on the solar panel 5, the solar panel 5 converts the light into electricity to supply power to the safety monitoring system of the discharging platform 1, and further when the solar panel 5 cannot be irradiated by the sunlight, the constructor can pull the clamping mechanism 9 to be separated from the u-shaped chute 4, so that the slide block 7 is not fixed, then pull the clamping mechanism 9 to drive the slide block 7 to move back and forth along the u-shaped chute 4, the slide block 7 moves back and forth to drive the fixing plate 8 to move back and forth, the fixing plate 8 moves back and forth to drive the solar panel 5 to move back and forth, when the solar panel 5 moves back and forth to a position where the sunlight can be irradiated, the clamping mechanism 9 is stopped to be pulled, the clamping mechanism 9 is released to reset, the clamping mechanism 9 is reset to be matched with the u-shaped chute 4 to fix the slide block 7, so that the, the safety monitoring system of the platform 1 of unloading has been avoided not having the electric messenger constructor to be unclear whether the goods weight of 1 dress of platform of unloading surpasss the safe value, and solar panel 5 installs in the platform 1 below of unloading, can avoid external debris to pound bad solar panel 5.

Initially, the second spring 913 is in a stretching state, when the solar panel 5 cannot be irradiated by sunlight and the sunlight irradiates the front side of the discharging platform 1, a constructor can pull the first winding wheels 93 on the front and rear sides to move inward, the first spring 97 is stretched, the first winding wheels 93 move inward to drive the first clamping rods 94 to move inward, the first clamping rods 94 move inward to disengage from the clamping grooves 95, so that the front first winding wheels 93 can be twisted to rotate forward, the front first winding wheels 93 rotate forward to wind up the front first pull wires 92, the front first pull wires 92 wind up to drive the swinging blocks 98 to swing forward, the second torsion spring 912 is stretched, the swinging blocks 98 swing forward to disengage from the friction blocks, the friction blocks 911 move upward to disengage from the u-shaped chutes 4 due to the action of the second spring 911, the swinging blocks 98 swing forward to drive the rolling shafts 99 to swing forward, and the rolling shafts 99 swing forward to the foremost side of the arc-shaped grooves 910, the front first pull wire 92 moves forwards continuously to drive the swing block 98 to move forwards, the rear first pull wire 92 is pulled, the rear first pull wire 92 drives the rear first winding wheel 93 to rotate reversely, the swing block 98 moves forwards to drive the slide block 7 to move forwards, the slide block 7 moves forwards to drive the solar panel 5 to move forwards through the fixing plate 8, when the solar panel 5 moves forwards to a position capable of being irradiated by sunlight, the front first winding wheel 93 stops being twisted to rotate forwards, the swing block 98 swings and resets under the action of the second torsion spring 912, the swing block 98 resets to drive the friction block 911 to move downwards to be contacted with the u-shaped chute 4, the second spring 913 stretches, the friction block 911 is matched with the u-shaped chute 4 to fix the slide block 7, the solar panel 5 is fixed, the first winding wheel 93 is released, the first winding wheel 93 moves outwards under the action of the second spring 913, the first clamping rod 94 is driven to move outwards to be inserted into the clamping groove 95, first kelly 94 and draw-in groove 95 cooperation are fixed with first rolling wheel 93, and on the same way, when the sunlight shines at the platform 1 rear side of unloading, stimulate first rolling wheel 93 inwardly movable once more, according to above-mentioned operation, can make solar panel 5 move backward by the sunlight shines, so, can make solar panel 5 can be all the time by the sunlight irradiation, and then convert the sunlight into electricity.

Example 2

On the basis of embodiment 1, as shown in fig. 1 to 5, the device further includes an adjusting mechanism 10, the adjusting mechanism 10 includes a second winding wheel 101, a second wire 102, a fixing rod 103, a third spring 104, a wire guide 105, a second wire guide 106, a third wire guide 107 and a second clamping rod 109, the second wire guide 106 is symmetrically installed on the right side of the top of the fixing plate 8, the third wire guide 107 is symmetrically installed on the left side of the bottom of the fixing plate 8, the wire guide 105 is fixedly connected to the upper portions of the front and rear sides of the slider 7, the fixing rod 103 is rotatably connected to the center of the inner side of the first winding wheel 93 on the front and rear sides, the fixing rod 103 is slidably sleeved with the second winding wheel 101, the third spring 104 is connected between the inside of the second winding wheel 101 and the inner end of the fixing rod 103, the second winding wheel 101 is wound with the second wire 102, the second wire 102 on the front and rear sides respectively pass through the corresponding first wire guide 91 and then pass through the wire guide 105 to bypass, the tail end of the second pulling wire 102 continuously penetrates through the fixing plate 8 and bypasses the second wire guide wheel 106 to be fixedly connected with the right side of the bottom of the solar panel 5, second clamping rods 109 are fixedly connected to the outer side face of the second winding wheel 101 at even intervals in the circumferential direction, clamping holes 108 are formed in the inner side face of the first winding wheel 93 at even intervals in the circumferential direction, the clamping holes 108 are opposite to the second clamping rods 109, and the second clamping rods 109 are located in the clamping holes 108 and matched with the clamping holes.

When the area of sunlight on the solar panel 5 is not large, a construction worker can pull the second winding wheel 101 to move inwards, the third spring 104 is stretched, the second winding wheel 101 moves inwards to drive the second clamping rod 109 to move inwards, the second clamping rod 109 moves inwards to be separated from the clamping hole 108, the second winding wheel 101 can be pulled to rotate forwards to wind the second stay wire 102, the second stay wire 102 is wound to drive the solar panel 5 to swing downwards through the second wire wheel 106 and the third wire wheel 107, the first torsion spring 6 is compressed, when the solar panel 5 swings downwards to the maximum area capable of enabling the sunlight to irradiate, the second winding wheel 101 is stopped being twisted, the second winding wheel 101 is loosened, and due to the effect of the third spring 104, the second winding wheel 101 moves outwards to drive the second clamping rod 109 to move outwards to be inserted into the clamping hole 108. When the solar panel 5 needs to swing upwards to a proper position, the second winding wheel 101 is pulled according to the operation to drive the second clamping rod 109 to move inwards to be separated from the clamping hole 108, the second winding wheel 101 is twisted to rotate reversely to enable the second pull wire 102 to be loosened, the solar panel 5 swings upwards under the action of the first torsion spring 6, and when the solar panel 5 swings upwards to the proper position, the second winding wheel 101 stops being twisted to rotate reversely to loosen the second winding wheel 101 to reset. In this way, the area of the solar panel 5 that is illuminated at a time can be maximized, and more electricity can be converted.

Example 3

On the basis of the embodiment 1 and the embodiment 2, as shown in fig. 1 and fig. 2, the discharging platform further comprises a protection frame 11, the protection frame 11 is fixedly connected to the outer bottom of the discharging platform 1 in the circumferential direction, and the protection frame 11 is located on the outer side of the u-shaped plate 3.

The U-shaped plate mechanism is characterized by further comprising an L-shaped plate 13 and rollers 14, wherein the upper portions of the left side surface and the right side surface of the sliding block 7 are fixedly connected with the L-shaped plate 13, the outer bottom of the L-shaped plate 13 is rotatably connected with the rollers 14, guide grooves 12 are formed in the circumferential direction of the inner side surface and the circumferential direction of the outer side surface of the U-shaped plate 3, and the rollers 14 are located in the.

When the discharging platform 1 is in use, the protective frame 11 can further protect the solar panel 5. Thus, the solar panel 5 can be prevented from being broken by foreign matters.

When the sliding block 7 drives the solar panel 5 to move through the fixing plate 8, the sliding block 7 also drives the L-shaped plate 13 to move, the L-shaped plate 13 moves to drive the roller 14 to move, and the roller 14 moves in the guide groove 12. In this way, the slider 7 can be moved more stably.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and all the changes or substitutions should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (4)

1. The utility model provides a platform safety monitoring system of unloading is with adjustable solar energy power supply board protector which characterized in that, including:

the device comprises a discharging platform (1), wherein L-shaped rods (2) are fixedly connected to one side of the outer side of the discharging platform (1) at uniform intervals in the circumferential direction;

the U-shaped plate (3) is fixedly connected among the tail ends of all the L-shaped rods (2), and a U-shaped sliding chute (4) is formed in one side of the U-shaped plate (3) facing the discharging platform (1);

the sliding block (7) is placed in the u-shaped sliding groove (4) in a sliding manner;

the fixed plate (8), the fixed plate (8) is fixedly connected to one side of the sliding block (7) far away from the u-shaped plate (3);

the solar panel (5) is rotatably connected to one side edge of the fixing plate (8);

a first torsion spring (6), the first torsion spring (6) is connected between the side of the solar panel (5) facing the slider (7) and the side of the fixing plate (8) far away from the u-shaped plate (3);

the clamping mechanism (9) is arranged between the unloading platform (1) and the sliding block (7) and the u-shaped sliding chute (4), is in contact fit with the u-shaped sliding chute (4), and is used for fixing the sliding block (7);

the chucking mechanism (9) includes:

the first wire guide wheel (91) is rotatably connected to two sides in the u-shaped sliding groove (4) far away from the sliding block (7);

a swinging block (98), wherein the swinging block (98) is rotatably connected between the two inner sides of the sliding block (7) close to the fixed plate (8);

a second torsion spring (912), wherein the second torsion spring (912) is connected to the joint of the swinging block (98) and the sliding block (7);

the rolling shafts (99), the rolling shafts (99) are fixedly connected to two sides of the swinging block (98);

the arc-shaped grooves (910) are formed in the two sides of the inner portion, close to the rolling shaft (99), of the sliding block (7), and the rolling shaft (99) is located in the arc-shaped grooves (910);

the friction block (911) is slidably penetrated on one side of the sliding block (7) far away from the fixed plate (8) and is in contact fit with the end part of the swinging block (98);

the second spring (913) is symmetrically connected to the inner side of the friction block (911) facing the fixed plate (8), and the tail end of the second spring (913) is fixedly connected to the outer side of the sliding block (7) far away from the fixed plate (8);

the rotating shaft (96) is fixedly connected to two sides of the discharging platform (1) far away from the u-shaped plate (3);

the first winding wheel (93) is sleeved on the rotating shaft (96) in a sliding mode, a first pull wire (92) is wound on the first winding wheel (93), and the tail end of the first winding wheel is wound around the first wire guide wheel (91) and fixedly connected with one side of the swinging block (98) close to the friction block (911);

a first spring (97), wherein the first spring (97) is connected between the end of the rotating shaft (96) and the inside of the first winding wheel (93);

the first clamping rod (94), the first clamping rod (94) is fixedly connected to an eccentric position on one side of the outer side of the first winding wheel (93) close to the discharging platform (1);

the clamping groove (95) is spaced from one side in the discharging platform (1) close to the first winding wheel (93), and the first clamping rod (94) is located in the clamping groove (95) and matched with the clamping groove.

2. The adjustable solar power supply board protector for the unloading platform safety monitoring system according to claim 1, further comprising an adjusting mechanism (10), wherein the adjusting mechanism (10) comprises:

the fixing rod (103) is rotatably connected to the circle center position of one side of the first winding wheel (93) far away from the rotating shaft (96);

the second winding wheel (101) is sleeved on the fixed rod (103) in a sliding manner;

a third spring (104), wherein the third spring (104) is connected between the end part of the fixing rod (103) far away from the rotating shaft (96) and the inside of the second winding wheel (101);

the second clamping rod (109) is fixedly connected to the eccentric position of one side, facing the first winding wheel (93), of the second winding wheel (101);

the clamping holes (108) are uniformly arranged on one side of the first winding wheel (93) close to the second winding wheel (101) in the circumferential direction at intervals, and the second clamping rods (109) are positioned in the clamping holes (108) and matched with the clamping holes (108);

the wire guide pipe (105), the wire guide pipe (105) is fixedly connected to two sides of the sliding block (7) close to the fixed plate (8) and the u-shaped sliding chute (4);

a second wire guide wheel (106), wherein the second wire guide wheel (106) is symmetrically arranged on the side of the fixing plate (8) far away from the first torsion spring (6);

a third guide wheel (107), wherein the third guide wheel (107) is symmetrically arranged on one side of the fixing plate (8) facing the u-shaped plate (3);

the second pulling wire (102) is wound on the second winding wheel (101), the tail end of the second pulling wire (102) bypasses the first wire guide wheel (91) and then passes through the wire guide pipe (105), and the tail end of the second pulling wire (102) continuously bypasses the third wire guide wheel (107) and the second wire guide wheel (106) and is fixedly connected with one side of the solar panel (5) facing the fixing plate (8).

3. The adjustable solar power supply board protector for the discharging platform safety monitoring system according to claim 2, further comprising:

the protection frame (11), protection frame (11) rigid coupling in orientation u template (3) one side outside unloading platform (1) for protect solar panel (5).

4. The adjustable solar power supply board protector for the discharging platform safety monitoring system according to claim 3, further comprising:

the L-shaped plates (13), the L-shaped plates (13) are fixedly connected to two sides of the sliding block (7) close to the fixed plate (8);

the guide groove (12) is formed in the circumferential direction of the inner side and the circumferential direction of the outer side of the u-shaped plate (3);

the roller (14), the installation of roller (14) rotary type is kept away from fixed plate (8) one side outside L template (13), it is located in guide way (12).

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