CN214369444U - Solar mobile lighting monitoring device - Google Patents

Abstract

The application relates to the field of mobile lighting, in particular to a solar mobile lighting monitoring device which comprises a mobile frame, a case, a lifting mast, a lamp, a monitoring mechanism, a first solar panel and a storage battery, wherein the first solar panel is rotatably connected to the case through a horizontal rotating shaft, and an electric cylinder for rotating the first solar panel is hinged between the first solar panel and the case; the both sides of first solar panel all articulate there is second solar panel, is equipped with locking mechanical system between second solar panel and the first solar panel, and locking mechanical system lets second solar panel and first solar panel keep the parallel and level for the position that locks second solar panel. This scheme is guaranteeing to take in under the prerequisite of solar energy collection volume, has made things convenient for the workman to accomodate solar energy mobile lighting monitoring device greatly, lets solar energy mobile lighting monitoring device's transportation become more smooth.

Description

Solar mobile lighting monitoring device

Technical Field

The application relates to the field of mobile lighting, in particular to a solar mobile lighting monitoring device.

Background

The solar mobile lighting device is a necessary tool in the fields of construction sites, disaster relief, emergency rescue, outdoor emergency and the like, and the working principle of the solar mobile lighting device is that solar energy is converted into electric energy by a solar panel, and then the electric energy is stored in a storage battery to be used for lighting of a lighting lamp.

In order to convert more solar energy into electric energy and store the electric energy in a storage battery, a large solar panel is often installed on the solar mobile lighting device, and although the solar mobile lighting device effectively improves the collection amount of the solar energy, the solar mobile lighting device is not beneficial to storage, and a lot of trouble is brought to transportation of the solar mobile lighting device.

SUMMERY OF THE UTILITY MODEL

For the convenience workman accomodates the device, let the transportation of device more smooth, this application provides a solar energy removes illumination monitoring device.

The application provides a solar energy mobile lighting monitoring device adopts following technical scheme:

a solar mobile lighting monitoring device comprises a mobile frame, a case and a lifting mast which are arranged on the mobile frame, a lamp and a monitoring mechanism which are arranged on the lifting mast, a first solar panel arranged on the case, and a storage battery which is arranged in the case and is electrically connected with the first solar panel, the lamp and the monitoring mechanism, wherein the first solar panel is rotatably connected to the case through a horizontal rotating shaft, and an electric cylinder for rotating the first solar panel is hinged between the first solar panel and the case; the both sides of first solar panel all articulate there is second solar panel, is equipped with locking mechanical system between second solar panel and the first solar panel, and locking mechanical system lets second solar panel and first solar panel keep the parallel and level for the position that locks second solar panel.

Through adopting above-mentioned technical scheme, when needs charge to the battery, the workman rotates second solar panel and makes it keep the parallel and level with first solar panel, locks the position of second solar panel through locking mechanical system immediately. When two second solar panel all keep the parallel and level back with first solar panel, the workman can control the electric jar and rotate first solar panel and second solar panel, and first solar panel and second solar panel can begin work. When needs accomodate them, the workman at first controls the electric jar and comes to set level first solar panel and second solar panel, cancels locking mechanical system and locks the position of second solar panel immediately, and second solar panel receives the effect of gravity will be down revolve and support on the lateral wall of quick-witted case, and first solar panel and second solar panel have just realized accomodating, have significantly reduced the shared space of device, have made things convenient for the transportation in device later stage. This scheme is guaranteeing to take in under the prerequisite of solar energy collection volume, has made things convenient for the workman to accomodate solar energy mobile lighting monitoring device greatly, lets solar energy mobile lighting monitoring device's transportation become more smooth.

Preferably, locking mechanical system is including seting up the spout on second solar panel, seting up on first solar panel and just to the draw-in groove of spout when second solar panel and first solar panel parallel and level to and the slip inlays the first bolt that is used for inserting the draw-in groove of establishing in the spout.

Through adopting above-mentioned technical scheme, when second solar panel keeps the parallel and level with first solar panel, the spout will just to the draw-in groove, and the workman can slide first bolt and make it insert the draw-in groove, and second solar panel just can keep the parallel and level with first solar panel always. The locking mechanism is simple and effective in structure, and brings great convenience to workers to lock the position of the second solar panel. When needs put down second solar panel, the workman slide first bolt again make it break away from the draw-in groove can, the operation of accomodating is the same very convenient.

Preferably, the handle that supplies the hand to grab is linked firmly on the first bolt, offers the logical groove that supplies the handle to slide along with first bolt on the second solar panel.

Through adopting above-mentioned technical scheme, the handle provides a fine application of force position for the first bolt of workman's slip, and this process that can let the first bolt of workman's slip is lighter and smooth.

Preferably, the movable frame is fixedly connected with a vertical fixed rod, the fixed rod is hinged with a rotating rod for mounting the lifting mast, and the rotating axis of the rotating rod is parallel to the central axis of the rotating shaft; the fixed rod is also provided with a rotating mechanism for rotating the rotating rod.

Through adopting above-mentioned technical scheme, the workman rotates the dwang through slewing mechanism to this falls lift mast and lamps and lanterns, the lift mast and the lamps and lanterns that fall down will press on first solar panel, this has not only played the effect that reduces the device height, further accomodate the device, make things convenient for the transportation of follow-up device, the weight of lift mast and lamps and lanterns simultaneously can let first solar panel and second solar panel more steady on the quick-witted case, first solar panel and second solar panel have been protected.

Preferably, the rotating mechanism comprises a movable pulley arranged at the lower end of the rotating rod, a fixed pulley arranged on the fixed rod and a steel wire rope, one end of the steel wire rope is fixedly connected to the fixed rod, and the other end of the steel wire rope sequentially winds around the movable pulley and the fixed pulley; the rotating mechanism further comprises a winch which is arranged on the frame and used for winding and unwinding the steel wire rope.

Through adopting above-mentioned technical scheme, when the lift mast needs to be laid down, the workman rotates the capstan winch and releases wire rope, because the focus of lift mast is higher, the lift mast can have the trend towards first solar panel slope, constantly released along with wire rope, the distance between movable pulley and the fixed pulley grow gradually, the dwang can become the tilt state from vertical state gradually, lift mast and lamps and lanterns just can be laid down a bit, until they are put on first solar panel completely. When the lifting mast and the lamp need to be lifted, a worker rotates the winch again to wind the steel wire rope, the steel wire rope between the movable pulley and the fixed pulley is shortened, the rotating rod can be gradually changed from the inclined state to the vertical state, and the lifting mast and the lamp can be lifted up a little by a little. In addition, the movable pulley, the fixed pulley and the steel wire rope form a movable pulley block, so that the process of rotating the winch by workers is more labor-saving, and the ingenuity of the structural design is greatly highlighted.

Preferably, the fixed rod is provided with a metal elastic sheet which pushes the rotating rod open to enable the lifting mast to incline towards the first solar panel.

Through adopting above-mentioned technical scheme, when the workman rotated the capstan winch and released wire rope, metal shrapnel will outwards open the dwang to let the lift mast topple over towards first solar panel more easily, made things convenient for follow-up the falling lift mast of workman and lamps and lanterns.

Preferably, a support table for supporting the first solar panel after the first solar panel is laid flat is arranged on the case.

Through adopting above-mentioned technical scheme, the brace table not only can play the supporting role to first solar panel, still can let simultaneously leave the clearance between first solar panel and the quick-witted case and accomodate with power cylinder and cable, has embodied structural design's rationality.

Preferably, the supporting table is provided with a rubber cushion block for the first solar panel to abut against.

Through adopting above-mentioned technical scheme, the produced vibration of buffer in transit can be absorbed to the rubber cushion, has promoted the security of device in transit.

Preferably, the back of the second solar panel is provided with a barb, and the case is provided with a clamp for tightening the barb after the second solar panel is put down.

Through adopting above-mentioned technical scheme, support behind the lateral wall at quick-witted case as second solar panel, the workman can use the becket of clamp to catch on the barb, recycles clamp immediately and tightens up the barb, and first solar panel and second solar panel just succeed in being locked on quick-witted case, have ensured taking in of first solar panel and second solar panel, have reduced first solar panel and second solar panel and have taken place the degree of rocking in transit, have protected first solar panel and second solar panel.

Preferably, the periphery of the movable frame is provided with hanging rings.

By adopting the technical scheme, the lifting ring is used for hooking the lifting hook of the crane, so that the crane lifting device is convenient, and the device is more smoothly transported.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the arrangement of the first solar panel, the electric cylinder, the second solar panel and the locking mechanism greatly facilitates the storage of the solar mobile lighting monitoring device by workers, so that the transportation of the solar mobile lighting monitoring device becomes smoother;

2. the arrangement of the fixed rod, the rotating rod and the rotating mechanism can further accommodate the device, thereby facilitating the transportation of the device and simultaneously protecting the first solar panel and the second solar panel;

3. due to the arrangement of the metal elastic sheet, the lifting mast and the lamp can be conveniently laid down by workers;

4. the arrangement of the barbs and the clamp reduces the shaking degree of the first solar panel and the second solar panel in the transportation process, and protects the first solar panel and the second solar panel;

5. the arrangement of the hoisting rings facilitates the hoisting device of the crane, so that the device is more smoothly transported.

Drawings

FIG. 1 is a schematic diagram of the overall structure of an embodiment of the present application;

FIG. 2 is a schematic view of the overall structure of the telescopic rod in the embodiment of the present application;

fig. 3 is a schematic view of a connection structure at the first solar panel and the second solar panel in the embodiment of the present application.

Description of reference numerals: 1. moving the frame; 2. a chassis; 3. a lifting mast; 4. a light fixture; 5. a monitoring mechanism; 6. a first solar panel; 7. a storage battery; 8. a rotating shaft; 9. an electric cylinder; 10. a telescopic rod; 101. an outer rod; 102. an inner rod; 11. a first through hole; 12. a second through hole; 13. a second bolt; 14. a support table; 15. a rubber cushion block; 16. a second solar panel; 17. a chute; 18. a card slot; 19. a first latch; 20. a through groove; 21. a handle; 22. a barb; 23. clamping; 24. fixing the rod; 25. rotating the rod; 26. a movable pulley; 27. a top pulley; 28. a wire rope; 29. a winch; 30. a metal spring sheet; 31. a lifting ring.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

Referring to fig. 1, a solar mobile lighting monitoring device includes a mobile frame 1, a case 2 fixedly connected to the mobile frame 1, a lifting mast 3 erected on the mobile frame 1, a lamp 4 and a monitoring mechanism 5 installed on the top of the lifting mast 3, a first solar panel 6 installed on the case 2, and a storage battery 7 installed inside the case 2, wherein the storage battery 7 is connected with the first solar panel 6, the monitoring mechanism 5, and the lamp 4 through electric wires. During daytime, the first solar panel 6 can convert solar energy into electric energy, and then the electric energy is stored in the storage battery 7 for the lamps and lanterns 4 and the monitoring mechanism 5 to use. It should be noted that the lifting mast 3, the monitoring mechanism 5, and the lamp 4 in the present application correspond to the lifting mast, the monitoring intercom mechanism, and the illumination mechanism in the patent with application number CN202020320811.0, respectively, and the above-mentioned related patents are the patents previously applied by the present company, so that the details of them are not repeated in the present application.

A horizontal rotating shaft 8 is fixedly connected to the case 2, the length direction of the rotating shaft 8 is the same as the width direction of the case 2, and the first solar panel 6 is rotatably sleeved on the side wall of the rotating shaft 8. Articulated between quick-witted case 2 and the first solar panel 6 have two parallel electricity jar 9, and the axis of rotation at 9 both ends of electricity jar all keeps parallel with the axis of pivot 8, and electricity jar 9 passes through the electric wire and is connected with battery 7. The piston rod extension of workman control electricity jar 9 or shrink, first solar panel 6 will take place to rotate round pivot 8, and the workman not only can borrow this angle of inclination of adjusting first solar panel 6, promotes first solar panel 6's daylighting effect, still can let first solar panel 6 keep flat at the upper surface of quick-witted case 2 simultaneously, has realized accomodating first solar panel 6.

Referring to fig. 1 and 2, two telescopic rods 10 are further hinged between the case 2 and the first solar panel 6, each telescopic rod 10 includes an outer rod 101 hinged on the back of the first solar panel 6 and having a square annular cross section, and an inner rod 102 slidably embedded in the outer rod 101 and having one end hinged to the case 2. The outer pole 101 is kept away from and is seted up first through-hole 11 on the one end lateral wall of first solar panel 6, has seted up a plurality of second through-holes 12 on the lateral wall of interior pole 102, and a plurality of second through-holes 12 are arranged along the length direction of interior pole 102 at equal intervals, and when interior pole 102 slided for outer pole 101, a plurality of second through-holes 12 will be just to first through-hole 11 one by one. The outer rod 101 is further provided with a second bolt 13 passing through the first through hole 11 and the second through hole 12. The rotatory in-process of the first solar panel 6 of electric cylinder 9 control, the relative position of interior pole 102 and outer pole 101 can change, second through-hole 12 on interior pole 102 will be just to first through-hole 11 on outer pole 101 one by one, after first solar panel 6 rotated to suitable position, the workman rotates first solar panel 6 slightly again and lets first through-hole 11 just to nearest second through-hole 12, pass first through-hole 11 and second through-hole 12 with second bolt 13 immediately, the whole length of telescopic link 10 will be locked, telescopic link 10 alright play the supporting role to first solar panel 6, be favorable to improving first solar panel 6's stability.

Referring to fig. 1, the upper surface of machine case 2 is fixedly connected with a supporting table 14, supporting table 14 is used for the level of first solar panel 6 to put, and still two fixedly connected with rubber cushion blocks 15 that are used for conflicting the back of first solar panel 6 on supporting table 14, and rubber cushion block 15 can absorb and cushion the vibration that machine case 2 transmitted to play the guard action to first solar panel 6.

Referring to fig. 1 and 3, both sides of the first solar panel 6 are hinged with the second solar panel 16 through hinges, and the second solar panel 16 can rotate to be flush with the first solar panel 6. Second solar panel 16 has been close to and has been seted up spout 17 on the lateral wall of first solar panel 6, and the length direction of spout 17 is the same with second solar panel 16's width direction, has seted up draw-in groove 18 on first solar panel 6, and when second solar panel 16 and first solar panel 6 parallel and level, spout 17 will just be to draw-in groove 18. A first bolt 19 is embedded in the sliding groove 17, and the length of the first bolt 19 is greater than the depth of the clamping groove 18. A through groove 20 communicated with the sliding groove 17 is formed in the side wall of the second solar panel 16, the length direction of the through groove 20 is the same as that of the sliding groove 17, a handle 21 extending out of the through groove 20 is fixedly connected to the side wall of the first bolt 19, and the handle 21 is used for being held by hands of workers. The sliding groove 17, the clamping groove 18 and the first bolt 19 form a locking mechanism. When the battery 7 needs to be charged, the worker rotates the second solar panel 16 to enable the second solar panel to be parallel and level with the first solar panel 6, when the second solar panel 16 is parallel and level with the first solar panel 6, the sliding groove 17 can be opposite to the clamping groove 18, the worker can slide the first bolt 19 to enable the second solar panel to be inserted into the clamping groove 18, the position of the second solar panel 16 is limited by the first bolt 19, the second solar panel 16 can be always parallel and level with the first solar panel 6, the worker can immediately control the electric cylinder 9 to lift the first solar panel 6 and the second solar panel 16, and the collection amount of sunlight is greatly increased. After the storage battery 7 is charged, a worker firstly controls the electric pole to put down the first solar panel 6 and the second solar panel 16, then slides the first bolt 19 to separate the first solar panel from the clamping groove 18, the second solar panel 16 is not restrained by the position of the first bolt 19, and the worker can screw down the second solar panel 16 to enable the second solar panel to abut against the side wall of the case 2, so that the storage of the second solar panel 16 is realized.

Referring to fig. 1, in order to allow the first solar panel 6 and the second solar panel 16 to be locked on the cabinet 2 smoothly, barbs 22 are fixedly connected to the end of the second solar panel 16, and clamps 23 are fixedly connected to the side walls of the cabinet 2. After the second solar panel 16 supports against the side wall of the chassis 2, a worker hooks the barb 22 with the clamp 23 and tightens the barb 22, so that the shaking amplitude of the second solar panel 16 and the first solar panel 6 in the transportation process is greatly reduced, and the protection effect is achieved on the second solar panel and the first solar panel.

A vertical fixing rod 24 is fixedly connected to the movable frame 1, a rotating rod 25 is hinged to one side wall, away from the case 2, of the fixing rod 24, the upper end of the rotating rod 25 is hinged to the upper end of the fixing rod 24, the rotating axis of the rotating rod 25 is parallel to the central axis of the rotating shaft 8, and the lifting mast 3 is detachably connected to the rotating rod 25. The lower end of the rotating rod 25 is rotatably connected with a movable pulley 26, the lower end of the fixed rod 24 is rotatably connected with a fixed pulley 27, the lower end of the fixed rod 24 is further provided with a steel wire rope 28, one end of the steel wire rope 28 is fixedly connected to the side wall of the fixed rod 24, and the other end of the steel wire rope 28 sequentially bypasses the movable pulley 26 and the fixed pulley 27. A winch 29 for winding the wire rope 28 is also mounted on the moving carriage 1. The movable pulley 26, the fixed pulley 27, the wire rope 28 and the winch 29 form a rotating mechanism. When the lifting mast 3 and the lamp 4 need to be laid down to store the device, the worker rotates the winch 29 to release the wire rope 28, the rotating rod 25 will be slightly fallen down from the vertical state to the horizontal state as the wire rope 28 between the movable pulley 26 and the fixed pulley 27 is continuously lengthened, the lifting mast 3 and the lamp 4 will be laid down together with the rotating rod 25 until the lifting mast 3 and the lamp 4 are pressed on the first solar panel 6, and the lifting mast 3 and the lamp 4 are stored. When the lifting mast 3 and the lamp 4 need to be lifted, the worker rotates the winch 29 to wind the wire rope 28, the rotating rod 25 is lifted a little bit from the horizontal state to the vertical state as the wire rope 28 at the movable pulley 26 and the fixed pulley 27 is continuously shortened, and the lifting mast 3 and the lamp 4 are lifted a little bit until the lifting mast 3 and the lamp 4 are completely lifted.

The side wall of the fixing rod 24 is fixedly connected with a metal spring sheet 30, one end of the metal spring sheet 30, which is far away from the fixing rod 24, abuts against the side wall of the rotating rod 25, and the metal spring sheet 30 is used for bouncing the rotating rod 25 open to enable the lifting mast 3 and the lamp 4 to be more smoothly tilted on the first solar panel 6. When the cable 28 between the movable pulley 26 and the fixed pulley 27 is lengthened, the metal spring plate 30 will push the rotating rod 25 outwards, so that the lifting mast 3 and the lamp 4 can be smoothly tilted towards the first solar panel 6.

In order to facilitate the crane to hoist the solar mobile lighting monitoring device to a suitable place, the periphery of the mobile frame 1 is fixedly connected with hanging rings 31 for hanging hooks.

The implementation principle of the embodiment is as follows: when the battery 7 needs to be charged, the worker rotates the second solar panel 16 to enable the second solar panel to be parallel and level with the first solar panel 6, when the second solar panel 16 is parallel and level with the first solar panel 6, the sliding groove 17 can be opposite to the clamping groove 18, the worker can slide the first bolt 19 to enable the second solar panel to be inserted into the clamping groove 18, the position of the second solar panel 16 is limited by the first bolt 19, the second solar panel 16 can be always parallel and level with the first solar panel 6, the worker can immediately control the electric cylinder 9 to lift the first solar panel 6 and the second solar panel 16, and the collection amount of sunlight is greatly increased. After the storage battery 7 is charged, a worker firstly controls the electric pole to put down the first solar panel 6 and the second solar panel 16, then slides the first bolt 19 to separate the first solar panel from the clamping groove 18, the second solar panel 16 is not restrained by the position of the first bolt 19, and the worker can screw down the second solar panel 16 to enable the second solar panel to abut against the side wall of the case 2, so that the storage of the second solar panel 16 is realized. When the lifting mast 3 and the lamp 4 need to be laid down to store the device, the worker rotates the winch 29 to release the wire rope 28, the rotating rod 25 will be slightly fallen down from the vertical state to the horizontal state as the wire rope 28 between the movable pulley 26 and the fixed pulley 27 is continuously lengthened, the lifting mast 3 and the lamp 4 will be laid down together with the rotating rod 25 until the lifting mast 3 and the lamp 4 are pressed on the first solar panel 6, and the lifting mast 3 and the lamp 4 are stored. When the lifting mast 3 and the lamp 4 need to be lifted, the worker rotates the winch 29 to wind the wire rope 28, the rotating rod 25 is lifted a little bit from the horizontal state to the vertical state as the wire rope 28 at the movable pulley 26 and the fixed pulley 27 is continuously shortened, and the lifting mast 3 and the lamp 4 are lifted a little bit until the lifting mast 3 and the lamp 4 are completely lifted.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (10)

1. The utility model provides a solar energy removes illumination monitoring device, includes travelling car frame (1), set up quick-witted case (2) and lift mast (3) on travelling car frame (1), lamps and lanterns (4) and monitoring mechanism (5) of setting on lift mast (3), set up first solar panel (6) on quick-witted case (2) to and place in quick-witted case (2) and with first solar panel (6), battery (7) that lamp (4) and monitoring mechanism (5) all are connected electrically, its characterized in that: the first solar panel (6) is rotatably connected to the case (2) through a horizontal rotating shaft (8), and an electric cylinder (9) for rotating the first solar panel (6) is hinged between the first solar panel (6) and the case (2); the two sides of the first solar panel (6) are hinged with second solar panels (16), a locking mechanism is arranged between the second solar panels (16) and the first solar panels (6), and the locking mechanism is used for locking the positions of the second solar panels (16) to enable the second solar panels (16) and the first solar panels (6) to be kept parallel and level.

2. The solar mobile lighting monitoring device of claim 1, wherein: the locking mechanism comprises a sliding groove (17) formed in the second solar panel (16), a clamping groove (18) formed in the first solar panel (6) and aligned with the sliding groove (17) when the second solar panel (16) and the first solar panel (6) are parallel and level, and a first bolt (19) which is embedded in the sliding groove (17) and used for being inserted into the clamping groove (18) in a sliding mode.

3. A solar mobile lighting monitoring device according to claim 2, wherein: first bolt (19) are gone up and are linked firmly handle (21) that supply the hand to grab, offer on second solar panel (16) and supply handle (21) to slide logical groove (20) along with first bolt (19) together.

4. The solar mobile lighting monitoring device of claim 1, wherein: a vertical fixed rod (24) is fixedly connected to the movable frame (1), a rotating rod (25) for mounting the lifting mast (3) is hinged to the fixed rod (24), and the rotating axis of the rotating rod (25) is parallel to the central axis of the rotating shaft (8); the fixing rod (24) is also provided with a rotating mechanism for rotating the rotating rod (25).

5. The solar mobile lighting monitoring device of claim 4, wherein: the rotating mechanism comprises a movable pulley (26) arranged at the lower end of the rotating rod (25), a fixed pulley (27) arranged on the fixed rod (24) and a steel wire rope (28), one end of the steel wire rope (28) is fixedly connected to the fixed rod (24), and the other end of the steel wire rope (28) sequentially winds around the movable pulley (26) and the fixed pulley (27); the rotating mechanism also comprises a winch (29) which is arranged on the movable frame (1) and used for winding and unwinding the steel wire rope (28).

6. The solar mobile lighting monitoring device of claim 5, wherein: and the fixed rod (24) is provided with a metal elastic sheet (30) which pushes the rotating rod (25) open to enable the lifting mast (3) to incline towards the first solar panel (6).

7. The solar mobile lighting monitoring device of claim 1, wherein: and a supporting platform (14) which is used for supporting the first solar panel (6) after the first solar panel (6) is horizontally placed is arranged on the case (2).

8. The solar mobile lighting monitoring device of claim 7, wherein: and a rubber cushion block (15) for the first solar panel (6) to abut against is arranged on the supporting table (14).

9. The solar mobile lighting monitoring device of claim 1, wherein: the back of the second solar panel (16) is provided with a barb (22), and the case (2) is provided with a clamp (23) which tightens the barb (22) after the second solar panel (16) is put down.

10. The solar mobile lighting monitoring device of claim 1, wherein: and the periphery of the movable frame (1) is provided with a hanging ring (31).

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