CN221176667U - Intelligent device for electrified connection of parallel groove clamp - Google Patents

Abstract

The utility model relates to the technical field of wire clamps and discloses an intelligent device for electrified connection of parallel groove wire clamps, which comprises a wire clamp base, wherein a parallel groove wire clamp is connected above the wire clamp base, a short sleeve assembly and a long sleeve assembly are connected above a screw rod motor installation assembly, the sleeve assembly is positioned on one side of the parallel groove wire clamp, and a screw rod assembly is connected at the middle position of the bottom of the screw rod motor installation assembly; according to the utility model, through the mutual matching of the wire clamp base, the parallel groove wire clamp, the short sleeve assembly, the long sleeve assembly, the screw rod motor installation assembly, the sensor and the camera assembly, the rotation of the short sleeve assembly and the long sleeve assembly is utilized to drive the bolt and the nut on the parallel groove wire clamp to rotate and advance, and simultaneously the screw rod assembly rotates, so that the wire clamp base is pulled in, and the bus and the drainage wire are stably clamped by the main clamp body and the short clamp body; by means of the arrangement of the insulating rod, people can conveniently carry out handheld insulating operation on the whole device, parallel groove clamp live working is achieved, and the parallel groove clamp is safe, rapid, simple, convenient and efficient to install.

Description

Intelligent device for electrified connection of parallel groove clamp

Technical Field

The utility model relates to the technical field of wire clamps, in particular to an intelligent device for electrified connection of parallel groove clamps.

Background

With the development of economy and society, the requirements of power users on power supply reliability are higher and higher, and particularly, the overhaul and the transformation of 10kV overhead distribution lines are more and more common in live working. The power department all need go on under the environment of uninterrupted power supply when doing the doubling work of aerial cable, and the manual work is close to aerial cable and is carried out manual installation very dangerous, this just needs the staff to hold more advanced, safer convenient mounting tool.

With the development and production of many former people, many types of wire clamps are developed, the development of the electrified ignition device is also mature, and the puncture wire clamp and the parallel groove wire clamp are mainly two types, wherein the puncture wire clamp faces an aerial cable with an insulating sheath, and the parallel groove wire clamp faces a bare wire aerial cable. The two advantages and disadvantages are that the puncture wire clamp is directly and conveniently installed, but is suitable for small current and easily causes poor contact, and the parallel groove wire clamp is directly contacted with a bare wire, so that the puncture wire clamp can be used for large current and has good contact. Because the parallel groove clamp is high in installation requirement, the electrified fire-connection intelligent device directly corresponding to the parallel groove clamp is not quite a lot.

Therefore, the safe and convenient design of the parallel groove clamp electrified ignition device is necessary. The design adopts a full shielding magnetic field, has strong insulation interference, and is simple, convenient and quick to operate.

Disclosure of utility model

Aiming at the defects of the prior art, the utility model provides the intelligent device for live-line connection of the parallel groove wire clamp, which realizes the live-line operation of the parallel groove wire clamp, and is safe, quick, simple, convenient, efficient and safe.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides an electrified intelligent device that takes over fire of parallel groove clamp, includes the fastener base, and the fastener base top is connected with the parallel groove clamp, and one side of parallel groove clamp is connected with the short sleeve subassembly that two symmetries set up, and one side of two short sleeve subassemblies is connected with long sleeve subassembly, is connected with lead screw motor installation component between two short sleeve subassemblies and the parallel groove clamp, and the top of lead screw motor installation component is connected with the camera subassembly.

Further, the fastener base includes the bed plate, and the bed plate both ends top surface is connected with the guide block that two sets of symmetries set up, and bed plate one side is connected with the line clamp ear that two symmetries set up, and the medial surface of two fastener clamp ears all is connected with the fastener and detects infrared receiving tube, and the one side of keeping away from the fastener clamp ear on the bed plate is connected with the fastener that two symmetries set up and detects infrared transmitting tube, and the fastener detects infrared transmitting tube and fastener and detects infrared receiving tube position correspondence, and bed plate is close to line clamp ear one side and is connected with five sets of generating lines of two symmetrical connection and detects infrared transmitting tube.

Further, the parallel groove clamp comprises a main clamp body, three short clamp bodies are connected to one side of the main clamp body, semicircular holes are formed in the upper ends and the lower ends of the main clamp bodies and the three short clamp bodies, rubber strips are connected to one side, close to the main clamp bodies, of the short clamp bodies, clamp gaskets are connected to one side, far away from the main clamp bodies, of the short clamp bodies, elastic gaskets are connected to one side, far away from the short clamp bodies, of the elastic gaskets, bolts are connected to one side, sliding connection of the elastic gaskets, one ends of the bolts sequentially penetrate through the elastic gaskets, the clamp gaskets, the short clamp bodies and the rubber strips, in threaded connection with the main clamp bodies, and symmetrically arranged drainage wire fixing blocks are connected to two sides of the main clamp bodies.

Further, one surface of the main clamp body, which is far away from the short clamp body, is connected with two manipulator clamp lugs, two ends of the main clamp body are connected with clamping lugs which are symmetrically arranged, and a positioning groove is formed in the middle position of the bottom of the main clamp body.

Further, grooves are formed in the inner wall of the semicircular hole of the main clamp body and the inner wall of the short clamp body.

Further, the short sleeve assembly comprises a sleeve motor and a flange sleeve, the sleeve motor is connected to the outer side of the flange sleeve, a sleeve shaft is connected to the inner portion of one side, far away from the sleeve motor, of the flange sleeve, and a magnet is connected to the inner portion of the sleeve shaft.

Further, lead screw motor installation component includes the motor mounting panel, motor mounting panel is close to the wire clamp base one side and is connected with the guide rail support that two symmetries set up, guide rail support top is connected with linear guide, the bed plate is located linear guide and rather than sliding connection, the back of motor mounting panel is connected with the base mobile motor, the output shaft tip of base mobile motor wears to establish the motor mounting panel and is connected with the lead screw subassembly, the lead screw subassembly is connected with the bed plate, the another side connection top of motor mounting panel is connected with the bus detection infrared receiving tube, the bottom rotation of motor mounting panel is connected with the insulator spindle mounting, insulator spindle mounting bottom is connected with the insulator spindle.

Further, one side of the motor mounting plate, which is far away from the linear guide rail, is connected with a fan assembly.

Further, the long sleeve assembly and the short sleeve assembly have the same structure, and the flange sleeve and the sleeve shaft in the long sleeve assembly are different in length from the flange sleeve and the sleeve shaft in the short sleeve assembly.

Compared with the prior art, the utility model has the following beneficial effects:

According to the utility model, through the mutual matching of the wire clamp base, the parallel groove wire clamp, the short sleeve assembly, the screw rod motor mounting assembly, the long sleeve assembly and the camera assembly, the rotation of the short sleeve assembly and the long sleeve assembly is utilized, and meanwhile, the screw rod assembly in the screw rod motor mounting assembly rotates to drive the bolt and the nut on the parallel groove wire clamp to rotate and advance, so that the wire clamp base is pulled in, and the bus and the drainage wire are stably clamped by the main clamp body and the short clamp body; the arrangement of the insulating rod is utilized, so that the whole device can be conveniently held by people; the utility model adopts a manual handheld operation mode, and utilizes components such as infrared photoelectric devices, cameras and the like and a PCB embedded software control program to realize the parallel groove clamp live working, and the parallel groove clamp live working is safely, quickly, simply, conveniently and efficiently installed.

Drawings

FIG. 1 is a schematic view of the overall three-dimensional structure of the present utility model;

FIG. 2 is a schematic perspective view of a wire clamp base of the present utility model;

FIG. 3 is a schematic perspective view of a parallel groove clamp according to the present utility model;

FIG. 4 is a schematic end side view of the parallel groove clamp of the present utility model;

FIG. 5 is a schematic perspective view of a sleeve motor and flange sleeve of the present utility model;

fig. 6 is a schematic perspective view of a screw motor mounting assembly according to the present utility model.

In the figure: 1. a wire clamp base; 11. a base plate; 12. a wire clamping ear; 13. detecting an infrared emission tube by a bus; 14. a guide block; 15. the wire clamp detects an infrared receiving tube; 16. the wire clamp detects the infrared emission tube;

2. Parallel groove clamps; 21. a bolt; 22. a spring pad; 23. a wire clamp gasket; 24. a rubber strip; 25. a short clip body; 26. a main clamp body; 27. a drainage wire fixing block; 28. a manipulator clamping lug; 29. clamping ears; 210. a bus; 211. a drainage line; 212. a positioning groove;

3. a short sleeve assembly; 31. a sleeve motor; 32. a flange sleeve; 33. a quill; 34. a magnet;

4. A screw motor mounting assembly; 41. a motor mounting plate; 42. a linear guide rail; 43. a screw assembly; 44. a base moving motor; 45. a bus detection infrared receiving tube; 46. a fan assembly; 47. a guide rail bracket; 48. an insulating rod fixing member; 49. an insulating rod;

5. A camera assembly;

6. A long sleeve assembly.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments.

As shown in fig. 1 to 6, an intelligent device for electrified connection of a parallel groove wire clamp comprises a wire clamp base 1, wherein a parallel groove wire clamp 2 is connected above the wire clamp base 1, one side of the parallel groove wire clamp 2 is connected with two symmetrically arranged short sleeve assemblies 3, one side of the two short sleeve assemblies 3 is connected with a long sleeve assembly 6, a screw motor installation assembly 4 is connected between the two short sleeve assemblies 3 and the parallel groove wire clamp 2, and the top of the screw motor installation assembly 4 is connected with a camera assembly 5.

As shown in fig. 1 and 2, the wire clamp base 1 includes a base plate 11, two sets of symmetrically arranged guide blocks 14 are connected to the top surfaces of two ends of the base plate 11, two symmetrically arranged wire clamp lugs 12 are connected to one side of the base plate 11, wire clamp detection infrared receiving tubes 15 are connected to the inner side surfaces of the two wire clamp lugs 12, two symmetrically arranged wire clamp detection infrared transmitting tubes 16 are connected to one side, far away from the wire clamp lugs 12, of the base plate 11, the wire clamp detection infrared transmitting tubes 16 correspond to the wire clamp detection infrared receiving tubes 15 in position, and two symmetrically connected five sets of bus detection infrared transmitting tubes 13 are connected to one side, close to the wire clamp lugs 12, of the base plate 11.

When the parallel groove wire clamp charged fire-connection intelligent device is used, the wire clamp detection infrared transmitting tube 16 and the wire clamp detection infrared receiving tube 15 are respectively arranged on two sides of the bottom of the base plate 11, so that the parallel groove wire clamp charged fire-connection intelligent device can be used for detecting and judging whether the wire clamp is in place or not, and simultaneously, the wire clamp is clamped through the wire clamp clamping lugs 12 on two sides; two guide blocks 14 are arranged on two end surfaces of the base plate 11, when a tool clamps the bus 210, the guide blocks 14 on two sides can guide the bus 210 to a clamp clamping position, then the guide blocks 14 can be hooked on the bus 210, five groups of bus detection infrared transmitting tubes 13 are respectively arranged on two sides of the top of the base plate 11, and the guide blocks can be matched with the lead screw motor mounting assembly 4 to detect whether the bus 210 is clamped in place or not.

As shown in fig. 3 and 4, the parallel groove clamp 2 comprises a main clamp body 26, one side of the main clamp body 26 is connected with three short clamp bodies 25, semicircular holes are formed in the upper ends and the lower ends of the main clamp body 26 and the three short clamp bodies 25, one side, close to the main clamp body 26, of the short clamp body 25 is connected with a rubber strip 24, one side, far away from the main clamp body 26, of the short clamp body 25 is connected with a clamp gasket 23, one side, far away from the short clamp body 25, of the clamp gasket 23 is connected with a spring pad 22, one side, far away from the short clamp body 25, of the spring pad 22 is connected with a bolt 21 in a sliding manner, one end of the bolt 21 sequentially penetrates through the spring pad 22, the clamp gasket 23, the short clamp body 25 and the rubber strip 24 to be in threaded connection with the main clamp body 26, and two sides of the main clamp body 26 are connected with symmetrically arranged drainage wire fixing blocks 27.

Specifically, the main clamp 26 and the short clamp 25 are integrally arranged to be of a semicircular structure, so that the bus bar 210 and the drainage wire 211 can be respectively clamped, the short clamp 25 is pushed to advance by screwing the bolt 21, so that the bus bar 210 and the drainage wire 211 are tightly pressed, a bolt fixing hole is formed in the middle of the short clamp 25, the bolt fixing hole is arranged in a long strip shape, the rubber strip 24 is positioned at one end, close to the main clamp 26, of the bolt fixing hole, and the rubber strip 24 is elastically arranged, therefore, after the bolt 21 passes through the bolt fixing hole, the short clamp 25 can swing in a certain angle, the short clamp 25 can simultaneously fix the bus bar 210 and the drainage wire 211, and can adapt to cables with various wire diameters in a certain range; meanwhile, the wire clamp gasket 23 is located at one end of the bolt fixing hole far away from the main clamp body 26, the short clamp body 25 can be limited through the rubber strip 24 and the wire clamp gasket 23, the distance between the main clamp body 26 and the short clamp body 25 is conveniently kept when the bolt 21 is not screwed down, the bus 210 is conveniently placed into a semicircular hole at the upper ends of the main clamp body 26 and the short clamp body 25, and in addition, the wire clamp gasket 23 can further increase the contact area of a screw cap of the bolt 21 and the short clamp body 25, so that the short clamp body 25 is prevented from being damaged.

As shown in fig. 3 and 4, one surface of the main clamp 26, which is far away from the short clamp 25, is connected with two manipulator clamping lugs 28, two ends of the main clamp 26 are connected with symmetrically arranged clamping lugs 29, and a positioning groove 212 is formed in the middle position of the bottom of the main clamp 26.

Specifically, the clamping lugs 29 facilitate the fixation of the machine automation clamping jaws; the arrangement of the manipulator clamping lugs 28 facilitates the automatic equipment to clamp the main clamping body 26 through the manipulator clamping lugs 28; through the arrangement of the positioning groove 212, the main clamp body 26 can be accurately and firmly clamped with the wire clamp base 1.

As shown in fig. 3 and 4, grooves are formed in the inner wall of the semicircular hole of the main clamp 26 and the inner wall of the short clamp 25.

Specifically, the grooves have better anti-slip effect, so that the bus bar 210 or the drainage wire 211 and the main clamp 26 or the short clamp 25 are prevented from being damaged due to sliding, and the bus bar 210, the drainage wire 211, the main clamp 26 or the short clamp 25 are prevented from being damaged.

As shown in fig. 5, the short sleeve assembly 3 comprises a sleeve motor 31 and a flange sleeve 32, the sleeve motor 31 is connected to the outer side of the flange sleeve 32, a sleeve shaft 33 is connected to the inner side of the flange sleeve 32 away from the sleeve motor 31, and a magnet 34 is connected to the sleeve shaft 33.

Specifically, the flange sleeve 32 is fixed on the sleeve motor 31, and the flange sleeve and the sleeve motor are hollow; the magnet 34 is fixed on the sleeve shaft 33, and the sleeve shaft 33 is arranged in the flange sleeve 32; the magnet 34 attracts and guides the nut of the bolt 21, and then the sleeve motor 31 rotates, and the nut is screwed into the flange sleeve 32; in the process of tightening the nut, the working current of the sleeve motor 31 increases along with the increase of the nut torque, and after the nut torque reaches the set value, the sleeve motor 31 stops rotating, so that the whole process of screwing the bolt is completed.

As shown in fig. 6, the lead screw motor installation component 4 includes a motor installation board 41, one side of the motor installation board 41, which is close to the wire clamp base 1, is connected with two symmetrically arranged guide rail brackets 47, the top of each guide rail bracket 47 is connected with a linear guide rail 42, the base board 11 is located on the linear guide rail 42 and is in sliding connection with the linear guide rail, the back of the motor installation board 41 is connected with a base moving motor 44, the end part of an output shaft of the base moving motor 44 penetrates through the motor installation board 41 and is connected with a lead screw component 43, the lead screw component 43 is connected with the base board 11, the other side of the motor installation board 41 is connected with a top and is connected with a bus detection infrared receiving tube 45, the bottom of the motor installation board 41 is rotationally connected with an insulating rod fixing piece 48, and the bottom of the insulating rod fixing piece 48 is connected with an insulating rod 49.

Specifically, a guide rail bracket 47 is connected to one side of the motor mounting plate 41, a linear guide rail 42 is installed above the guide rail bracket 47, and the base plate 11 is slidably connected to the two linear guide rails 42; the middle of the bottom of the wire clamp base 1 is connected with a screw rod assembly 43, and the screw rod assembly 43 can be rotated and moved forward along with the rotation of an output shaft of a base moving motor 44, so that the base plate 11 can move forward and backward on the linear guide rail 42; the insulating rod fixing piece 48 at the bottom of the motor mounting plate 41 can be used for fixing the insulating rod 49, the insulating rod fixing piece 48 can swing to a certain extent and can be fixed at a certain angle by screwing a screw by hand; the bus detection infrared receiving tube 45 on the back of the motor mounting plate 41 can be used for corresponding to the bus detection infrared transmitting tube 13 on the base plate 11, so that the detection of the bus 210 is realized.

As shown in fig. 1 and 6, a fan assembly 46 is connected to a side of the motor mounting plate 41 remote from the linear guide rail 42.

Specifically, fan assembly 46 is equipped with to motor mounting panel 41 one side, can play the radiating function of fan, strengthens whole life.

As shown in fig. 1 and 5, the long sleeve assembly 6 is identical in structure to the short sleeve assembly 3, and the flange sleeve 32 and sleeve shaft 33 in the long sleeve assembly 6 are different in length from the flange sleeve 32 and sleeve shaft 33 in the short sleeve assembly 3.

Specifically, the long sleeve assembly 6 has the same structure as the short sleeve assembly 3, and functions are the same, so the detailed description of the structural composition of the long sleeve assembly 6 is omitted.

Working principle:

The parallel groove clamp 2 is manually assembled with the drainage wire 211 and then placed into the clamp base 1 to be positioned, the clamp clamping lugs 12 clamp the parallel groove clamp 2, the clamp detection infrared receiving tubes 15 and the clamp detection infrared transmitting tubes 16 on two sides of the clamp base 1 are detected in place, and the two short sleeve assemblies 3 and the long sleeve assembly 6 sleeve the bolts 21 on the parallel groove clamp 2; then, the insulating rod 49 is manually held, and the bus bar 210 is guided into a semicircle of the parallel groove clamp 2 for clamping the bus bar 210 through the guide block 14 in the clamp base 1 by the guide bar; after the bus detection infrared transmitting tube 13 and the bus detection infrared receiving tube 45 of 5 pairs on each side detect signals, the bus 210 is hooked by the wire clamp base 1, the parallel groove wire clamp 2 is continuously screwed by the sleeve motor 31 rotating bolts 21 of the three sleeve assemblies, the base moving motor 44 synchronously rotates, the wire clamp base 1 drives the parallel groove wire clamp 2 to move towards the direction close to the sleeve assemblies until the sleeve motor 31 in the sleeve assemblies detects enough screwing torque, and the wire clamp bolts 21 are firmly screwed; then the base moving motor 44 reversely pushes the wire clamp base 1 to move towards the direction of leaving the sleeve assembly, after the parallel groove wire clamp 2 leaves the wire clamp base 1, the base moving motor 44 continues to rotate, so that the wire clamp bolt 21 leaves the sleeve assembly, then the insulating rod 49 can be pulled down, and the whole set of electrified fire connection flow is finished by withdrawing the tool; in the whole process, the camera assembly 5 monitors the whole process, and accidents in the operation process are prevented.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (9)

1. The utility model provides an electrified intelligent device that takes over fire of parallel groove clamp, a serial communication port, including fastener base (1), fastener base (1) top is connected with parallel groove clamp (2), and one side of parallel groove clamp (2) is connected with short sleeve subassembly (3) that two symmetries set up, and one side of two short sleeve subassemblies (3) is connected with long sleeve subassembly (6), is connected with lead screw motor installation component (4) between two short sleeve subassemblies (3) and parallel groove clamp (2), and the top of lead screw motor installation component (4) is connected with camera subassembly (5).

2. The parallel groove wire clamp live-line fire-receiving intelligent device according to claim 1, characterized in that the wire clamp base (1) comprises a base plate (11), two groups of symmetrically arranged guide blocks (14) are connected to the top surfaces of two ends of the base plate (11), two symmetrically arranged wire clamp lugs (12) are connected to one side of the base plate (11), wire clamp detection infrared receiving tubes (15) are connected to the inner side surfaces of the two wire clamp lugs (12), two symmetrically arranged wire clamp detection infrared transmitting tubes (16) are connected to one surface, far away from the wire clamp lugs (12), of the base plate (11), the wire clamp detection infrared transmitting tubes (16) correspond to the positions of the wire clamp detection infrared receiving tubes (15), and five groups of bus detection infrared transmitting tubes (13) connected symmetrically are connected to one side, close to the wire clamp lugs (12), of the base plate (11).

3. The parallel groove wire clamp electrified fire connection intelligent device according to claim 1 or 2, wherein the parallel groove wire clamp (2) comprises a main clamp body (26), one side of the main clamp body (26) is connected with three short clamp bodies (25), semicircular holes are formed in the upper ends and the lower ends of the main clamp body (26) and the three short clamp bodies (25), a rubber strip (24) is connected to one side, close to the main clamp body (26), of the short clamp body (25), a wire clamp gasket (23) is connected to one side, far away from the main clamp body (26), of the wire clamp gasket (23), a spring pad (22) is connected to one side, far away from the short clamp body (25), of the spring pad (22), a bolt (21) is connected to one side, which sequentially penetrates through the spring pad (22), the wire clamp gasket (23), the short clamp body (25) and the rubber strip (24) to be connected with the main clamp body (26) in a threaded mode, and symmetrically arranged drainage wire fixing blocks (27) are connected to two sides of the main clamp body (26).

4. The parallel groove clamp electrified fire-catching intelligent device according to claim 3, characterized in that one surface of the main clamp body (26) far away from the short clamp body (25) is connected with two manipulator clamp lugs (28), two ends of the main clamp body (26) are connected with symmetrically arranged clamp lugs (29), and a positioning groove (212) is formed in the middle position of the bottom of the main clamp body (26).

5. The intelligent parallel groove clamp live-wire ignition device according to claim 3, wherein grooves are formed in the inner wall of the semicircular hole of the main clamp body (26) and the inner wall of the short clamp body (25).

6. The parallel groove clamp live-line fire-receiving intelligent device according to claim 1 or 2, wherein the short sleeve assembly (3) comprises a sleeve motor (31) and a flange sleeve (32), the sleeve motor (31) is connected to the outer side of the flange sleeve (32), a sleeve shaft (33) is connected to the inner side of the flange sleeve (32) far away from the sleeve motor (31), and a magnet (34) is connected to the inner side of the sleeve shaft (33).

7. The intelligent parallel groove wire clamp charged-fire-receiving device according to claim 1 or 2, characterized in that the screw motor mounting assembly (4) comprises a motor mounting plate (41), one surface of the motor mounting plate (41) close to a wire clamp base (1) is connected with two symmetrically-arranged guide rail brackets (47), the tops of the guide rail brackets (47) are connected with linear guide rails (42), the base plate (11) is located on the linear guide rails (42) and is in sliding connection with the linear guide rails, the back of the motor mounting plate (41) is connected with a base moving motor (44), the end part of an output shaft of the base moving motor (44) is penetrated with the motor mounting plate (41) and is connected with a screw assembly (43), the screw assembly (43) is connected with the base plate (11), the top of the other surface of the motor mounting plate (41) is connected with a bus detection infrared receiving tube (45), the bottom of the motor mounting plate (41) is rotationally connected with an insulating rod fixing piece (48), and the bottom of the insulating rod fixing piece (48) is connected with an insulating rod (49).

8. The intelligent parallel groove clamp live-wire ignition device according to claim 7, wherein a fan assembly (46) is connected to one surface of the motor mounting plate (41) away from the linear guide rail (42).

9. The intelligent parallel groove clamp live-wire ignition device according to claim 6, wherein the long sleeve assembly (6) and the short sleeve assembly (3) are identical in structure, and the flange sleeve (32) and the sleeve shaft (33) in the long sleeve assembly (6) are different in length from the flange sleeve (32) and the sleeve shaft (33) in the short sleeve assembly (3).