CN116604138A - Flame cutting mechanism of heat conducting material - Google Patents

Abstract

The application discloses a flame cutting mechanism of a heat conducting material, which relates to the technical field of flame cutting machines, and comprises a main seat of the flame cutting machine, wherein the bottom surface of the main seat is fixedly connected with a base, the bottom surface of the base is fixedly connected with two fixing seats, each fixing seat is rotationally connected with two concave pulleys, the main seat is fixedly connected with a pull frame, the flame cutting mechanism of the heat conducting material also comprises a guide mechanism, the guide mechanism comprises two rails I, two pairs of rails II and two pairs of rails III, the fixing seats, the pulleys, the base and the main seat form a main body of the flame cutting machine, after the flame cutting machine is unfolded, the rails formed by contact plates of the rails IV and the bottom surface of the rails IV are fixedly connected with identical connecting columns and connecting holes, according to the length of the heat conducting material to be cut, the four rails IV can be used for alternately paving the rails, the flame cutting machine continuously moves on the rails IV until the cutting of the material is completed, and the cutting range is not limited by the length of the rails.

Description

Flame cutting mechanism of heat conducting material

Technical Field

The application relates to the technical field of flame cutting machines, in particular to a flame cutting mechanism of a heat conducting material.

Background

The principle of flame cutting is that a high-temperature flame generated by fuel gas and cutting oxygen in cutting flame is utilized to heat and oxidize a metal material, and then an oxide layer is blown away by high-speed injection, so that a cutting effect is realized;

the efficiency and quality of flame cutting can be affected by the characteristics of materials, and some metal materials with better heat conductivity can be cut more easily, so that a flame cutting machine is commonly used for cutting heat-conducting materials, but in the use process, the flame cutting machine is composed of a cutting machine main body and a guide rail, the cutting machine main body is used for cutting, the guide rail is used for guiding the cutting direction and distance of the cutting machine, and the length of the guide rail is limited due to different sizes of the cutting materials, so that when the length of the guide rail is insufficient, the cutting machine needs to be moved and then the guide rail is moved, and the guide rail is troublesome and is long and difficult to carry and transport;

in order to solve the technical problems found in the use process of the flame cutting machine, a flame cutting mechanism of a heat conducting material is provided.

Disclosure of Invention

(one) solving the technical problems

Aiming at the defects of the prior art, the application provides a flame cutting mechanism for heat-conducting materials, which solves the technical problems that a flame cutting machine consists of a cutting machine main body and a guide rail, the cutting machine main body is used for cutting, the guide rail is used for guiding the cutting direction and distance of the cutting machine, and the length of the guide rail is limited due to different sizes of the cutting materials, so that when the length of the guide rail is insufficient, the guide rail needs to be moved up after the cutting machine is moved, the guide rail is troublesome, and meanwhile, the guide rail is long and is not easy to carry and transport.

(II) technical scheme

In order to achieve the above purpose, the application is realized by the following technical scheme:

the flame cutting mechanism of the heat conduction material comprises a main seat of the flame cutting machine, wherein the bottom surface of the main seat is fixedly connected with a base, the bottom surface of the base is fixedly connected with two fixing seats, each fixing seat is rotationally connected with two concave pulleys, the main seat is fixedly connected with a pulling frame, the flame cutting mechanism of the heat conduction material further comprises a guide mechanism, and the guide mechanism comprises two rails I, two pairs of rails II and two pairs of rails III;

the base is fixedly connected with two connecting blocks, a long rod is sleeved between the two connecting blocks through threads, and a bottom plate and a baffle are fixedly connected between the two fixing seats;

four tracks are movably arranged on the bottom plate, and the four tracks are movably arranged in a rectangular placing groove formed by the bottom plate, the baffle plate and the two fixing seats.

Preferably: the fixed seat at the front end is rotationally connected with a rotating frame, the fixed seat at the rear end is fixedly connected with a supporting plate, and the fixed seat at the rear end is rotationally connected with a rotating plate for limiting the rotating frame;

wherein, the upper surface of the supporting plate is flush with the bottom surface of the rotating frame, and the rotating direction of the rotating frame is transverse rotation.

Preferably: the track sizes of the track I, the track II, the track III and the track IV are the same except the length, and the bottom surfaces of the track I, the track II, the track III and the track IV are fixedly connected with the same contact plate;

the upper ends of the first track, the second track, the third track and the fourth track can be movably clamped with the pulleys, connecting bars are fixedly connected between two contact plates positioned on the first track, holding bars and identical connecting bars are fixedly connected between two contact plates positioned on the second track, and identical connecting bars are fixedly connected between two contact plates positioned on the third track.

Preferably: the two ends of each first track are fixedly connected with sliding rods, each sliding rod is rotationally connected with a pair of idler wheels, the two ends of a contact plate on the bottom surface of each first track are fixedly connected with positioning blocks, and each positioning block is in threaded sleeve joint with a positioning screw rod;

wherein, hidden grooves are arranged at both ends of the structure formed by the first track and the contact plate at the bottom surface of the first track.

Preferably: a hidden rod is fixedly connected to one end of a structure formed by the contact plates of the third track and the bottom surface of the third track towards the first track, and a supporting wheel is rotatably connected to the end part of each hidden rod;

wherein, the spout has all been seted up to three upper ends of every track, all has seted up the wheel groove of two L bars on the front and back cell wall of every spout, and the slot has all been seted up to the tank bottom of every spout, and the wheel groove all communicates with slot and spout.

Preferably: the bottom of each track III is penetrated with a transverse groove, two rectangular connecting pieces are fixedly connected to the contact plate on the bottom surface of each track III, a limit screw is sleeved between the two connecting pieces on the same track III in a threaded manner, and the limit screw is movably sleeved with the transverse groove at the corresponding position;

wherein, rectangular connecting holes are formed on the surface of each track, which faces away from the track I.

Preferably: one end of each second track facing the third track is fixedly connected with a rectangular connecting column, the connecting column is provided with the same transverse groove, and one end of each second track facing away from the third track is provided with the same connecting hole;

wherein, set up the limit groove of rectangle on the contact plate of track three bottom surfaces, all rotate in every limit groove and be connected with the commentaries on classics piece, run through on the commentaries on classics piece and have the round hole that is used for the screw thread to cup joint positioning screw.

Preferably: the sliding rod is movably clamped in the sliding groove at the corresponding position, the roller on the sliding rod is movably clamped in the roller groove, and the hidden rod is movably clamped in the hidden groove at the corresponding position.

Preferably: and through grooves are formed in the second track in a penetrating manner, and connecting holes are formed in the connecting columns in a penetrating manner.

Preferably: when the second rail rotates to a vertical state and the sliding rod is positioned in the slot, the long rod and the through slot can be movably sleeved.

(III) beneficial effects

1. The flame cutting machine main body is formed by the fixing seat, the pulley, the base and the main seat, after the flame cutting machine is unfolded, the same connecting column and the same connecting hole are fixedly connected on the track formed by the contact plates of the track IV and the bottom surface of the track IV, the four tracks can be utilized for alternately paving the track according to the length of the heat conducting material to be cut, the flame cutting machine continuously moves on the track IV until the cutting of the material is completed, the cutting range is not limited by the length of the track, and the applicability is high.

2. When the track is paved in four times in turn, the connecting column is movably sleeved with the connecting hole, so that the track is kept stable when the track is paved in four times, the bending deviation of the action track of the flame cutting machine is effectively avoided, and the cutting quality is improved.

3. After cutting is completed, the four tracks are retracted into the rectangular placing groove formed by the bottom plate, the baffle plate and the two fixing seats, then the positioning screw rod is rotated to enable the positioning screw rod to be separated from the rotating block, the track III enables the idler wheel to slide in the wheel groove until the distance between the track III and the track I reaches the maximum, the track III is rotated until the track II abuts against the base, the supporting wheel moves out of the hidden groove, at the moment, the positions of the track III and the track II are fixed through movable sleeve joint of the long rod and the through groove and threaded sleeve joint of the positioning screw rod and the rotating block after rotation, the track III and the track II play the role of protecting the flame cutting machine in the moving process, meanwhile, the four supporting wheels are flush, and the whole device can be moved by using the supporting wheel, so that the portable convenient moving effect is achieved.

4. Through rotating the rotor, the rotor can be controlled to rotate, so that whether the track four can move out of the rectangular placing groove formed by the bottom plate, the baffle and the two fixing seats is controlled, and potential safety hazards caused by sliding out of the track four in the transportation and working processes are avoided.

5. After the third and second rails are unfolded at the working place, the third and second rails can directly serve as guide rails of the flame cutting machine, when the fourth rail is not required to be paved on the length of the heat conducting material to be cut, the third and second rails can be directly unfolded and then directly cut, the fourth rail is not required to be paved, or other rails are independently paved, and therefore working efficiency is improved.

Drawings

The foregoing description is only an overview of the present application, and is intended to provide a better understanding of the present application, as it is embodied in the following description, with reference to the preferred embodiments of the present application and the accompanying drawings.

FIG. 1 is an overall block diagram of the present application;

FIG. 2 is a block diagram of a first track in the present application;

FIG. 3 is a block diagram of a main seat according to the present application;

FIG. 4 is a block diagram of a second track in the present application;

FIG. 5 is a block diagram of a fourth track in the present application;

FIG. 6 is an enlarged block diagram of the present application at C in FIG. 3;

FIG. 7 is an enlarged block diagram of the present application at B in FIG. 4;

fig. 8 is an enlarged structural view of the present application at a in fig. 2.

Legend description: 1. track one; 2. a main seat; 3. a second track; 4. a contact plate; 5. a connecting strip; 6. a slide bar; 7. a roller; 8. hiding the groove; 9. a positioning block; 10. positioning a screw; 12. a grip; 13. a through groove; 14. a connection hole; 15. a third track; 16. hiding the rod; 17. a support wheel; 18. a rotating block; 19. a side groove; 20. a connecting piece; 21. a limit screw; 22. a transverse groove; 23. a chute; 24. wheel grooves; 26. a slot; 27. a pulley; 28. a fixing seat; 29. a baffle; 30. a bottom plate; 31. a fourth track; 32. a pull frame; 33. a base; 34. a rotating frame; 35. a long rod; 36. a supporting plate; 37. a rotating piece; 38. a connecting block; 39. a connection hole; 40. and (5) connecting the columns.

Detailed Description

The embodiment of the application effectively solves the technical problems that when the length of the guide rail is insufficient, the guide rail is required to be moved up and then moved, the guide rail is troublesome, and meanwhile, the guide rail is long and is not easy to carry and transport due to the fact that the length of the guide rail is limited because the size of the cut material is different, and the cutting direction and the distance of the cutting machine are guided by the guide rail.

Examples

The technical scheme in the embodiment of the application has the following overall thought:

aiming at the problems existing in the prior art, the application provides a flame cutting mechanism of a heat conducting material, which comprises a main seat 2 of the flame cutting machine, wherein the bottom surface of the main seat 2 is fixedly connected with a base 33, the bottom surface of the base 33 is fixedly connected with two fixing seats 28, each fixing seat 28 is rotatably connected with two concave pulleys 27, the main seat 2 is fixedly connected with a pull frame 32, the flame cutting mechanism of the heat conducting material also comprises a guiding mechanism, the guiding mechanism comprises two rails I1, two pairs of rails II 3 and two pairs of rails III 15, the base 33 is fixedly connected with two connecting blocks 38, a long rod 35 is sheathed between the two connecting blocks 38 in a threaded manner, a bottom plate 30 and a baffle 29 are fixedly connected between the two fixing seats 28, four rails IV 31 are movably arranged on the bottom plate 30 and movably arranged in a rectangular placing groove formed by the bottom plate 30, the baffle 29 and the two fixing seats 28, the fixed seat 28 at the front end is rotationally connected with the rotating frame 34, the fixed seat 28 at the rear end is fixedly connected with the supporting plate 36, the fixed seat 28, the pulley 27, the base 33 and the main seat 2 form a flame cutting machine main body, after the flame cutting machine is unfolded, the same connecting column 40 and the connecting hole 39 are fixedly connected on the track formed by the track IV 31 and the contact plate 4 at the bottom surface thereof, according to the length of the heat conducting material to be cut, the four tracks IV 31 can be used for alternately paving the track, the flame cutting machine continuously moves on the track IV 31 until the cutting of the material is completed, the cutting range is not limited by the length of the track, the applicability is high, the fixed seat 28 at the rear end is rotationally connected with the rotating plate 37 for limiting the rotating frame 34, the upper surface of the supporting plate 36 is flush with the bottom surface of the rotating frame 34, the rotating direction of the rotating frame 34 is transversely rotated, and when the track IV 31 is alternately paved, the connecting column 40 is movably sleeved with the connecting hole 39, so that the track is kept stable when the track IV 31 is paved, the bending deviation of the action track of the flame cutting machine is effectively avoided, and the cutting quality is improved;

the track sizes of the track I1, the track II 3, the track III 15 and the track IV 31 are the same except the length, after cutting is completed, the track IV 31 is retracted into a rectangular placing groove formed by the bottom plate 30, the baffle 29 and the two fixing seats 28, then the positioning screw 10 is rotated to separate from the rotating block 18, the track III 15 enables the roller 7 to slide in the wheel groove 24 until the distance between the track III 15 and the track I1 reaches the maximum, the track III 15 is rotated until the track II 3 abuts against the base 33, the supporting wheel 17 moves out of the hiding groove 8, at the moment, the track III 15 and the track II 3 are fixed through movable sleeve joint of the long rod 35 and the through groove 13 and threaded sleeve joint of the positioning screw 10 and the rotating block 18, so that the track III 15 and the track II 3 play the role of protecting the flame cutting machine in the moving process, meanwhile, the four supporting wheels 17 are flush, the whole device can be moved by the supporting wheel 17, the portable movable trolley achieves the effect of portability, the bottom surfaces of the first track 1, the second track 3, the third track 15 and the fourth track 31 are fixedly connected with the same contact plates 4, the upper ends of the first track 1, the second track 3, the third track 15 and the fourth track 31 can be movably clamped with the pulleys 27, the connecting bars 5 are fixedly connected between the two contact plates 4 positioned on the first track 1, the holding bars 12 and the same connecting bars 5 are fixedly connected between the two contact plates 4 positioned on the second track 3, the same connecting bars 5 are fixedly connected between the two contact plates 4 positioned on the third track 15, the two ends of each first track 1 are fixedly connected with the sliding bars 6, each sliding bar 6 is rotationally connected with a pair of rollers 7, the two ends of the contact plates 4 positioned on the bottom surface of each first track 1 are fixedly connected with the positioning blocks 9, the positioning screws 10 are sleeved on each positioning block 9 in a threaded manner, both ends of a structure formed by the first track 1 and the contact plate 4 on the bottom surface of the first track are provided with hidden grooves 8;

the rotating plate 37 can control the rotating frame 34 to rotate, thereby controlling whether the track IV 31 can move out of the rectangular placing groove formed by the bottom plate 30, the baffle 29 and the two fixing seats 28, avoiding potential safety hazards caused by sliding out of the track IV 31 in the transportation and working processes, the structure formed by each track III 15 and the contact plate 4 on the bottom surface of the track IV is fixedly connected with the hidden rod 16 towards one end of the track I1, the end part of each hidden rod 16 is rotationally connected with the supporting wheel 17, the upper end of each track III 15 is provided with the sliding groove 23, the front and rear groove walls of each sliding groove 23 are provided with two L-shaped wheel grooves 24, the groove bottom of each sliding groove 23 is provided with the slot 26, the wheel grooves 24 are communicated with the slot 26 and the sliding groove 23, the bottom of each track III 15 is penetrated with the transverse groove 22, two rectangular connecting pieces 20 are fixedly connected to the contact plate 4 on the bottom surface of the track III 15, a limit screw 21 is sleeved between the two connecting pieces 20 on the same track III 15 in a threaded manner, the limit screw 21 is movably sleeved with a transverse groove 22 at a corresponding position, rectangular connecting holes 39 are formed in the surface, facing away from the track I1, of each track III 15, rectangular connecting columns 40 are fixedly connected to one end, facing towards the track III 15, of each track II 3, the same transverse groove 22 is formed in the connecting columns 40, the same connecting holes 39 are formed in one end, facing away from the track III 15, of each track II 3, the same side groove 19 is formed in the contact plate 4 on the bottom surface of the track III 15, a rotating block 18 is rotatably connected in each side groove 19, and round holes for the threaded sleeve positioning screw 10 are formed in the rotating block 18 in a penetrating manner;

after the third rail 15 and the second rail 3 are unfolded at a working place, the third rail 15 and the second rail 3 can be directly used as guide rails of the flame cutting machine, when the length of a heat conducting material to be cut is not required to be paved with the fourth rail 31, the third rail 15 and the second rail 3 can be directly unfolded for cutting, the fourth rail 31 is not required to be paved or other rails are independently paved, the working efficiency is improved, the sliding rod 6 is movably clamped in the sliding groove 23 at the corresponding position, the roller 7 on the sliding rod 6 is movably clamped in the wheel groove 24, the hidden rod 16 is movably clamped in the hidden groove 8 at the corresponding position, the through groove 13 is penetrated on each second rail 3, the connecting hole 14 is penetrated on each connecting post 40, the long rod 35 is movably sleeved with the through groove 13 when the second rail 3 is rotated to be in a vertical state and the sliding rod 6 is positioned in the slot 26.

Working principle: the fixing seat 28, the pulley 27, the base 33 and the main seat 2 form a flame cutting machine main body, after the flame cutting machine is unfolded, the same connecting column 40 and the same connecting hole 39 are fixedly connected on a track formed by the track IV 31 and the contact plate 4 on the bottom surface of the track IV, according to the length of a heat conducting material to be cut, the four tracks IV 31 can be utilized for alternately paving the track, the flame cutting machine continuously moves on the track IV 31 until the cutting of the material is completed, the cutting range is not limited by the length of the track, and the applicability is high;

when the fourth track 31 is paved alternately, the connecting column 40 is movably sleeved with the connecting hole 39, so that the track keeps stable track when the fourth track 31 is paved, the bending deviation of the action track of the flame cutting machine is effectively avoided, the cutting quality is improved, after the cutting is finished, the fourth track 31 is retracted into a rectangular placing groove formed by the bottom plate 30, the baffle 29 and the two fixing seats 28, then the positioning screw 10 is rotated to separate from the rotating block 18, the third track 15 enables the roller 7 to slide in the wheel groove 24 until the distance between the third track 15 and the first track 1 reaches the maximum, the third track 15 is rotated until the second track 3 is propped against the base 33, the supporting wheel 17 is moved out of the hiding groove 8, the positions of the third track 15 and the second track 3 are fixed through the movable sleeve joint of the long rod 35 and the through groove 13 and the threaded sleeve joint of the positioning screw 10 and the rotating block 18, the track III 15 and the track II 3 play the role of protecting the flame cutting machine in the moving process, meanwhile, the four supporting wheels 17 are flush, the whole device can be moved by utilizing the supporting wheels 17 to achieve the portable and convenient moving effect, the rotating frame 34 can be controlled to rotate by rotating the rotating piece 37, so that whether the track IV 31 can move out of the rectangular placing groove formed by the bottom plate 30, the baffle 29 and the two fixing seats 28 is controlled, potential safety hazards caused by sliding out of the track IV 31 in the transportation and working processes are avoided, the track III 15 and the track II 3 can be directly used as guide tracks of the flame cutting machine after the track IV 15 and the track II 3 are unfolded at the working place, the track III 15 and the track II 3 can be directly unfolded when the length of the heat conducting material to be cut is not required to be paved with the track IV 31, the track IV 31 can be directly cut without paving the track IV 31 or independently paving other tracks, and the working efficiency is improved.

Finally, it should be noted that: it is apparent that the above examples are only illustrative of the present application and are not limiting of the embodiments. Other variations or modifications of the above teachings will be apparent to those of ordinary skill in the art. It is not necessary here nor is it exhaustive of all embodiments. And obvious variations or modifications thereof are contemplated as falling within the scope of the present application.

Claims (10)

1. The flame cutting mechanism of the heat conduction material comprises a main seat (2) of the flame cutting machine, wherein a base (33) is fixedly connected to the bottom surface of the main seat (2), two fixing seats (28) are fixedly connected to the bottom surface of the base (33), two concave pulleys (27) are rotationally connected to each fixing seat (28), and a pull frame (32) is fixedly connected to the main seat (2), and the flame cutting mechanism is characterized by further comprising a guide mechanism, wherein the guide mechanism comprises two first rails (1), two pairs of second rails (3) and two pairs of third rails (15);

wherein, two connecting blocks (38) are fixedly connected to the base (33), a long rod (35) is sleeved between the two connecting blocks (38) in a threaded manner, and a bottom plate (30) and a baffle (29) are fixedly connected between the two fixing seats (28);

four rails IV (31) are movably arranged on the bottom plate (30), and the four rails IV (31) are movably arranged in a rectangular placing groove formed by the bottom plate (30), the baffle plate (29) and the two fixing seats (28).

2. A flame cutting mechanism for thermally conductive materials as set forth in claim 1 wherein: a rotating frame (34) is rotationally connected to the fixed seat (28) at the front end, a supporting plate (36) is fixedly connected to the fixed seat (28) at the rear end, and a rotating piece (37) for limiting the rotating frame (34) is rotationally connected to the fixed seat (28) at the rear end;

wherein, the upper surface of the supporting plate (36) is flush with the bottom surface of the rotating frame (34), and the rotating direction of the rotating frame (34) is transverse rotation.

3. A flame cutting mechanism for thermally conductive materials as set forth in claim 2 wherein: the track sizes of the track I (1), the track II (3), the track III (15) and the track IV (31) are the same except for the length, and the bottom surfaces of the track I (1), the track II (3), the track III (15) and the track IV (31) are fixedly connected with the same contact plate (4);

wherein, track one (1), track two (3), track three (15) and track four (31) the upper end all with pulley (27) activity block, be located fixedly connected with connecting strip (5) between two contact plates (4) on two track one (1), be located fixedly connected with holding rod (12) and same connecting strip (5) between two contact plates (4) on same pair of track two (3), be located fixedly connected with same connecting strip (5) between two contact plates (4) on same pair of track three (15).

4. A flame cutting mechanism for thermally conductive materials as set forth in claim 3 wherein: the two ends of each first rail (1) are fixedly connected with slide bars (6), each slide bar (6) is rotationally connected with a pair of idler wheels (7), the two ends of a contact plate (4) on the bottom surface of each first rail (1) are fixedly connected with positioning blocks (9), and each positioning block (9) is in threaded sleeve joint with a positioning screw rod (10);

wherein, hidden grooves (8) are arranged at two ends of the structure consisting of the first track (1) and the contact plate (4) at the bottom surface of the first track.

5. A flame cutting mechanism for thermally conductive materials as set forth in claim 4, wherein: a hidden rod (16) is fixedly connected to one end of a structure formed by a contact plate (4) on the bottom surface of each track III (15) facing to the track I (1), and a supporting wheel (17) is rotatably connected to the end part of each hidden rod (16);

wherein, spout (23) have all been seted up to every track three (15) upper end, have all been seted up on the front and back cell wall of every spout (23) two L bar wheel groove (24), slot (26) have all been seted up to the tank bottom of every spout (23), and wheel groove (24) all switch on with slot (26) and spout (23).

6. A flame cutting mechanism for thermally conductive materials as set forth in claim 5, wherein: the bottom of each track III (15) is penetrated with a transverse groove (22), two rectangular connecting pieces (20) are fixedly connected to the contact plate (4) on the bottom surface of the track III (15), a limit screw (21) is sleeved between the two connecting pieces (20) on the same track III (15) in a threaded manner, and the limit screw (21) is movably sleeved with the transverse groove (22) at the corresponding position;

wherein, rectangular connecting holes (39) are formed on the surface of each track III (15) facing away from the track I (1).

7. A flame cutting mechanism for thermally conductive materials as set forth in claim 6, wherein: one end of each second track (3) facing the third track (15) is fixedly connected with a rectangular connecting column (40), the connecting column (40) is provided with the same transverse groove (22), and one end of each second track (3) facing away from the third track (15) is provided with the same connecting hole (39);

rectangular side grooves (19) are formed in the contact plate (4) on the bottom surface of the track III (15), rotating blocks (18) are connected in each side groove (19) in a rotating mode, and round holes for sleeving positioning screws (10) through threads are formed in the rotating blocks (18).

8. A flame cutting mechanism for thermally conductive materials as set forth in claim 7, wherein: the sliding rod (6) is movably clamped in a sliding groove (23) at a corresponding position, the roller (7) on the sliding rod (6) is movably clamped in a roller groove (24), and the hidden rod (16) is movably clamped in a hidden groove (8) at a corresponding position.

9. A flame cutting mechanism for thermally conductive materials as set forth in claim 8 wherein: through grooves (13) are formed in each second track (3), and connecting holes (14) are formed in each connecting column (40).

10. A flame cutting mechanism for thermally conductive materials as set forth in claim 9 wherein: when the second rail (3) rotates to a vertical state and the slide bar (6) is positioned in the slot (26), the long bar (35) can be movably sleeved with the through slot (13).