CN210389712U - Modular track and platform cutting machine - Google Patents

Abstract

The utility model relates to a stone material processing technology field, concretely relates to modular track and platform cutting machine. The modular track comprises a guide rail and an inter-rail connecting mechanism; the two guide rails are arranged in parallel; the inter-rail connecting mechanism is connected with the two guide rails so as to keep the distance between the two guide rails; the inter-rail connecting mechanism is provided with a rigid first connecting piece and a second connecting piece which is matched and connected with the first connecting piece. The platform cutting machine comprises a track and a cutting mechanism, wherein the track is formed by a plurality of connected modular tracks; the cutting mechanism is movably arranged on the track set and used for cutting the piece to be cut. The utility model discloses a modular track has can wholly carry, advantage that handling efficiency is high.

Description

Modular track and platform cutting machine

Technical Field

The utility model relates to a stone material processing technology field, concretely relates to modular track and platform cutting machine.

Background

As a building material, stone is widely applied to indoor and outdoor decoration design, curtain wall decoration and public facility construction. The stone processing generally uses a cutting machine, for example, when processing large stones, a ground rail type cutting machine is used. The cutting machine of the ground rail type comprises a rail and a cutting mechanism moving on the rail, the rail in the prior art, such as a fixed rail, generally comprises sleepers and rails fixedly placed on the sleepers, the rails are used for driving, the sleepers are used for separating the weight of the distributed rails and keeping the fixed of the rails, the sleepers are generally arranged in a mode of being perpendicular to the rails, and the sleepers are parallel to each other and are spaced at equal intervals. In order to maintain the stability and firmness of the track and the gauge between the rails, the weight of the track and ties is generally heavy and inconvenient to move. There is also a track in the prior art, which is formed by two substantially parallel guide rails and a sleeper connected between the two guide rails. For a fixed track, the stability and firmness of the track can be maintained as long as there is sufficient connection strength between the rail and the sleeper has sufficient weight. Ground rail type cutting machines for cutting stone materials are often moved according to the cutting needs of the stone materials, and thus the rails thereof are required to be moved frequently. In this case, the conventional connection structure of the guide rail to the crosstie is not always suitable. The important factor is that the crossties need a certain amount of weight and connection strength with the guide rails to ensure the stability of the cutting mechanism walking on the crossties, so that the rail formed by the guide rails with the crossties is usually heavy, and the whole rail is difficult to move.

At present, the prior art, such as chinese patent document CN207091840U, discloses a self-adjusting transportation guide rail suitable for complex terrains, which comprises a rail and a base arranged below the rail, wherein the rail and the base are connected through a hydraulic support, and the height of the hydraulic support can be adjusted to adjust the height of the rail; the pulley is arranged in the base and can move in the base, so that the guide rail is convenient to carry and move; the rails are hinged with each other, so that the rails can be folded with each other, and the integral carrying of the rails is facilitated; rails for transport vehicles are erected on the rails for moving the transport vehicles such as mine cars.

In the prior art disclosed in the above patent document, when the entire guide rail is transported, the rails and the hydraulic brackets need to be detached from the rails, and the rails need to be folded; when the guide rail is laid, the rail is spread, and the rail and the hydraulic support are installed on the rail. In this prior art, the track is actually the function of a conventional sleeper, but it is only made in one piece with a part of a single sleeper. However, according to the general knowledge in the art, such a unitary structure still requires a certain component in order to maintain the stability and firmness of the rail. For convenience of transportation, the rails are folded, and the rails are still detached from the rails during transportation and then installed on the rails, i.e. sleepers, after being adjusted. It is obvious that this prior art, although providing a certain convenience for rail handling, requires the removal and installation of the rails and hydraulic supports one by one for the overall handling of the rails, due to the heavy weight required for the rails as sleepers. Has the defects of complex carrying operation and low working efficiency.

SUMMERY OF THE UTILITY MODEL

Therefore, the utility model discloses the track transport operation that exists to prior art is complicated, and the shortcoming that work efficiency is low improves, provides the whole transport of being convenient for, and the modular track that handling efficiency is high, and is provided with the orbital easy operation of this modular, platform cutting machine that work efficiency is high.

In order to solve the problems, the utility model discloses a modular track, which comprises a guide rail and an inter-rail connecting mechanism; the two guide rails are arranged in parallel; the inter-rail connecting mechanism is connected with the two guide rails so as to keep the distance between the two guide rails; the inter-rail connecting mechanism is provided with a rigid first connecting piece and a second connecting piece which is matched and connected with the first connecting piece.

The guide rails, the first connecting pieces and the second connecting pieces form a plurality of triangular structures, and each guide rail forms one side of at least one triangular structure.

The inter-rail connecting mechanism is connected to opposite side surfaces of the two guide rails.

The first connecting piece is provided with at least two connecting pieces, and the connecting pieces are vertically arranged between the two guide rails relative to the guide rails.

The first connecting piece is provided with two connecting beams which are arranged in parallel, and connecting plates which connect the connecting beams into a whole at two ends, and the connecting plates at the two ends are fixedly connected with the opposite side surfaces of the two guide rails.

The connecting beam is a channel steel.

Fixing holes are formed in the connecting plate and the guide rail corresponding to the connecting portion respectively, and rivets or screws penetrate through the fixing holes to fix the connecting plate to the guide rail.

The connecting plate also acts as a connecting piece for the connection of adjacent modular rails.

The second connector is a flexible member.

The second connector has a wire rope, and a tensioner tensioning the wire rope.

The second connecting pieces are arranged between the two guide rails in a group of at least two mutually crossed ways.

The first connecting piece and the group of second connecting pieces are arranged at intervals.

One end of the second connecting piece is connected to the end part, close to one guide rail, of one first connecting piece, and the other end of the second connecting piece is connected to the end part, close to the other guide rail, of the adjacent first connecting piece.

The modular track also comprises a travelling mechanism and a leveling mechanism, wherein the travelling mechanism is fixedly or detachably arranged at the lower side of the guide rail or the inter-rail connecting mechanism and is provided with at least one, and the travelling mechanism moves to drive the guide rail to move; and/or the leveling mechanism is fixedly or detachably arranged at the lower side of the guide rail or the inter-rail connecting mechanism and is provided with at least one adjusting mechanism for adjusting the height of the guide rail so that the guide rail has a set angle with the horizontal plane.

The walking mechanism and the leveling mechanism are arranged at intervals along the guide rail.

The running mechanism is a moving wheel, and the rotating axis of the moving wheel is parallel to the extending direction of the guide rail.

A hub motor is arranged in the moving wheel, and the moving wheel is controlled by a control mechanism to move forwards and backwards.

The leveling mechanism is a hydraulic leveling mechanism or a spiral leveling mechanism.

The utility model discloses a platform cutting machine, which comprises a track and a cutting mechanism, wherein the track is composed of a plurality of connected modular tracks; the cutting mechanism is movably arranged on a track group formed by connecting a plurality of tracks and is used for cutting a piece to be cut.

The cutting mechanism comprises a frame, a retractable frame, a cutter head assembly and a driving mechanism: the frame is arranged on the track through a bottom rail wheel and can move back and forth along the track; the retractable frame is movably arranged on the frame and is controlled by the retractable adjusting device to move; the cutter head assembly is arranged on the retraction rack and positioned on the outer side of the frame in the length direction of the track body, and the retraction rack moves to drive the cutter head assembly to move towards or away from a to-be-cut piece; the driving mechanism is installed on the retractable frame, moves along with the retractable frame and is used for driving the cutter head assembly.

The cutting mechanism further comprises an adjusting frame arranged between the frame and the folding and unfolding frame, and the adjusting frame is controlled by the adjusting mechanism to horizontally reciprocate relative to the frame in the direction perpendicular to the extending direction of the track.

One end of the retractable frame is relative to the hinged end of the frame in rotatable connection, the other end of the retractable frame is provided with the cutter head assembly, the retractable frame winds the hinged end rotates to drive the cutter head assembly to face or be far away from the workpiece to be cut to move.

The driving mechanism is positioned at one end, close to the retractable frame, of the retractable frame, and is rotatably connected with the adjusting frame, and power is transmitted to the cutter head assembly through the transmission mechanism.

The folding and unfolding frame is provided with four groups, the four groups are respectively positioned in four quadrants of the frame and are arranged opposite to the frame in a mirror image mode.

The cutter head assembly comprises a cutter shaft and at least one cutter head arranged on the cutter shaft, and the cutter shaft is in transmission connection with the driving mechanism.

The cutter heads are arranged at two ends of the cutter shaft respectively, and the middle of the cutter shaft is connected with the driving piece.

The utility model discloses technical scheme has following advantage:

1. the utility model discloses a modular track, which comprises two guide rails and an inter-rail connecting mechanism, wherein the two guide rails are arranged in parallel; the inter-rail connecting mechanism is connected with the two guide rails so as to keep the distance between the two guide rails; the inter-rail connecting mechanism is provided with a rigid first connecting piece and a second connecting piece which is matched and connected with the first connecting piece. Use coupling mechanism to connect two guide rails between the rail, for sleeper or sleeper connection two guide rails, when keeping the guide rail stable with firm, the orbital weight of modular is lighter for in handling, need not dismantle the transport with guide rail and coupling mechanism between the rail, can realize orbital whole transport of modular, the efficiency of transport is higher.

2. The utility model discloses a modular track, triangle-shaped's stability is best, the guide rail reaches first connecting piece the second connecting piece constitutes several triangle-shaped structure, can guarantee between two guide rails stability and firm.

3. The utility model discloses a modular track, the second connecting piece of a set of intercrossing setting is located the first connecting piece of these two second connecting piece both sides, and constitutes four triangle-shaped structures of mutual overlap between the guide rail, and triangle-shaped's structural stability is good, can guarantee that the guide rail is stable and firm, and the fretwork between the triangle-shaped is great, and the orbital weight of modular is lighter relatively, makes things convenient for whole transport, and the efficiency of transport is higher.

4. The utility model discloses a modular track, running gear removes and drives the guide rail and remove, and levelling mechanism is used for adjusting the height of guide rail for when carrying modular track, transport easy operation, whole handling efficiency is higher.

5. The utility model discloses a platform cutting machine has foretell modular track, consequently, also has that the orbital component of above-mentioned modular is lighter, is suitable for whole transport, and transport easy operation, advantage that handling efficiency is high.

6. The utility model discloses a platform cutting machine, cutter head assembly are located the outside on the track body length direction has two sets ofly at least for platform cutting machine once can cut two piece at least stones, and the efficiency of cutting is higher.

7. The utility model discloses a platform cutting machine, the perpendicular to can be followed to the blade disc subassembly in the setting of alignment jig the horizontal reciprocating motion of track extending direction makes the blade disc subassembly have different distances apart from the track, and the platform cutting machine can cut the stone material of different thickness.

8. The utility model discloses a platform cutting machine, drive mechanism is located the one end that receive and releases the frame and be close to receive and release the frame with the alignment jig rotatable coupling, firstly makes the relative position between cutterhead subassembly and the actuating mechanism confirm, prevents that the relative position between cutterhead subassembly and the actuating mechanism from changing in the relative frame moving process, leads to the poor cutting effect of actuating mechanism drive cutterhead subassembly; secondly, the self weight of the driving mechanism acts on the adjusting frame to increase the thrust of the cutter head assembly when cutting the belt cutting piece, so that the cutting speed is higher when the cutter head assembly cuts the piece to be cut.

9. The utility model discloses a platform cutting machine, the frame that receive and releases is provided with four groups, can cut out 4 cutting members simultaneously, platform cutting machine's cutting efficiency is higher.

10. The utility model discloses a platform cutting machine, one the blade disc subassembly includes two blade discs when the frame that receive and releases is provided with four groups, 8 cutting pieces can be cut simultaneously to the platform cutting machine, and the cutting efficiency of platform cutting machine is higher.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the technical solutions in the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

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

FIG. 2 is a schematic top view of a plurality of modular rails of the present invention after connection;

FIG. 3 is a schematic left side view of the platform cutting machine of the present invention having two sets of cutterheads;

FIG. 4 is a schematic diagram of a top view of the platform cutting machine with a set of cutterheads of the present invention

Description of reference numerals:

1-a guide rail; 2-a first connecting member; 21-a connecting beam; 22-a connecting plate; 3-a second connector; 31-a steel cord; 32-a tensioner; 4-a moving wheel; 5-leveling mechanism; 6-a frame; 7-a folding and unfolding frame; 8-a cutter head assembly; 81-a transmission mechanism; 82-a cutter head; 9-a drive mechanism; 10-adjusting frame.

Detailed Description

The technical solution of the present invention will be described clearly and completely with reference to the accompanying drawings, and obviously, the described embodiments are some, but not all embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The first embodiment is as follows:

the modular track of the present embodiment, as shown in fig. 1 and 2, includes a guide rail 1, an inter-rail connecting mechanism, a traveling mechanism, and a leveling mechanism 5.

The number of the guide rails 1 is two, and the guide rails are arranged in parallel.

The inter-rail connecting mechanism connects the two guide rails 1 to maintain the distance between the two guide rails 1. In this embodiment, the inter-rail connection means are connected to opposite sides of two of the guide rails 1. The inter-rail connection mechanism comprises a first connection member 2 and a second connection member 3.

The first connecting piece 2 is a rigid structure, and the first connecting piece 2 is provided with at least two parts and is vertically arranged between the two guide rails 1 relative to the guide rails 1. The first connecting member 2 has two connecting beams 21 arranged in parallel, and connecting plates 22 connecting the connecting beams 21 into a whole at both ends. In order to ensure the mechanical characteristics of the connecting beam 21, the connecting beam 21 is made of channel steel. The two connecting plates 22 at the two ends of the first connecting piece 2 are fixedly connected with the opposite side surfaces of the two guide rails 1, in order to facilitate the connection of the connecting plates 22 and stabilize the connection structure, fixing holes are respectively formed in the connecting plates 22 and the guide rails 1 corresponding to the connection parts, and rivets or screws penetrate through the fixing holes to fix the connecting plates 22 to the guide rails 1.

In this embodiment, when the two ends of the connecting plate 22 are connected to the guide rail 1 of the adjacent modular rail, the adjacent modular rails can be connected by the connecting plate 22. Of course, other connecting members can be used to connect two adjacent modular rails, as long as the modular rails are connected firmly.

The second connecting piece 3 is a flexible component, the first connecting piece 2 and the second connecting piece 3 are arranged at intervals, and are matched with the first connecting piece 2 to be connected with the two guide rails 1. The two second connecting pieces 3 are arranged between the two guide rails 1 in a group of mutually crossed manner, one end of each second connecting piece 3 is connected to the end part, close to one guide rail, of one first connecting piece 2, and the other end of each second connecting piece 3 is connected to the end part, close to the other guide rail, of the adjacent first connecting piece 2. In this embodiment, the second connecting member 3 is a wire rope 31, and a tensioner 32 for tensioning the wire rope 31 is provided, and when the second connecting member 3 is installed between the two rails, the wire rope 31 is installed first, and then the tensioner 32 is used to tension the wire rope 31, so that the second connecting member has a certain tension.

The second connecting pieces 3 which are mutually crossed, the first connecting pieces 2 which are positioned at two sides of the two second connecting pieces 3 and the guide rails 1 form four mutually-overlapped triangular structures, the stability of the triangle is strong, and the stability and firmness between the two guide rails 1 can be ensured.

The running gear is fixed to be set up the downside of guide rail 1 has at least one, running gear removes and drives the removal of guide rail 1 to make things convenient for the orbital removal of module. The running mechanism is a moving wheel 4, and the rotating axis of the moving wheel 4 is parallel to the extending direction of the guide rail 1, so that the modular track can move perpendicular to the extending direction of the guide rail 1. In order to move the modular track conveniently and improve the moving efficiency, a hub motor is arranged in the moving wheel 4, and the moving wheel is controlled by a control mechanism to move forwards and backwards.

The leveling mechanism 5 is fixedly provided at a lower side of the guide rail 1, and has at least one for adjusting a height of the guide rail 1 such that the guide rail 1 has a set angle with a horizontal plane. The walking mechanism and the leveling mechanism 5 are arranged at intervals along the guide rail 1. In this embodiment, the leveling mechanism 5 is a hydraulic leveling mechanism, and of course, may be a screw leveling mechanism as long as the angle of the guide rail 1 can be adjusted.

In the modular track of the embodiment, the connecting beam 21 and the connecting plate 22 are connected, then the connecting plate 22 is connected with the guide rails 1, the first connecting piece 2 is connected on the two guide rails 1, then the steel wire rope 31 is installed on the first connecting piece 2, the steel wire rope 31 is tensioned by the tensioner 32, and a plurality of stable triangular structures are formed among the first connecting piece 2, the second connecting piece 3 and the guide rails 1, so that the track of the modular track is stable and firm. The triangular construction has a large cutout, so that the modular track has a low component while ensuring that the guide rail 1 is stable and firm. When the modular track needs to be transported, the control mechanism controls the moving wheels to move to drive the modular track to move to the designated transporting position, and the height of the modular track is adjusted through the hydraulic leveling mechanism, so that the guide rail 1 is smoothly arranged. That is, in the carrying process, the guide rail 1 and the inter-rail connecting mechanism do not need to be disassembled for carrying, the whole carrying of the modular track can be realized, the carrying efficiency is high, and the carrying is convenient.

As an alternative embodiment, the running mechanism and the leveling mechanism 5 are detachably mounted on the lower side of the guide rail 1 and are spaced from each other. Of course, the running gear and the levelling gear 5 can also be mounted on the underside of the first connecting part 2 of the inter-rail connecting gear, for example on the connecting plate 22. The walking mechanism and the leveling mechanism 5 can be arranged according to the use requirement, for example, when the surface of a piece to be cut is basically a plane, leveling is not needed when the modular track is moved, and the modular track can be only provided with the walking mechanism; the running gear may also be omitted when there is no need to move the modular track.

In an alternative embodiment, the second connecting elements 3 are arranged in groups of four crossing each other between the two guide rails 1, and the first connecting elements 2 and the second connecting elements 3 are arranged at intervals. Two of the four second connecting pieces 3 are connected at one end to the end part of one first connecting piece 2 close to one guide rail and at the other end to the end part of the adjacent first connecting piece 2 close to the other guide rail; the other two of them are that one end is connected on one guide rail 1 between the two first connecting pieces 2, and the other end is connected on the other guide rail 1 between the two first connecting pieces 2. The guide rail 1, the first connecting piece 2 and the second connecting piece 3 form a plurality of triangular structures.

Example two:

the platform cutting machine of the present embodiment, as shown in fig. 3 and 4, includes a rail formed by a plurality of connected modular rails as described in the first embodiment, and a cutting mechanism movably disposed on a rail group formed by connecting a plurality of the rails for cutting a work piece to be cut. The cutting mechanism comprises a frame 6, a storage rack 7, an adjusting rack 10, a cutter assembly 8 and a cutter assembly 8.

The carriage 6 is arranged on the rail through bottom rail wheels and can move back and forth along the rail.

One end of the retractable frame 7 is a hinged end, the hinged end can be opposite to the frame 6 which is hinged on the frame 6 in a rotating way, and the other end of the retractable frame 7 is provided with the cutter head component 8 which is controlled by a retractable adjusting device to rotate. The retractable frame 7 rotates around the hinged end to drive the cutter head assembly 8 to move towards or away from the to-be-cut piece. In this embodiment, the retractable frame 7 is provided with four groups, which are respectively located in four quadrants of the frame 6 and arranged in a mirror image manner relative to the frame 6. The number of the retractable frames 7 can be set according to the cutting use requirement, and as shown in fig. 3, two retractable frames 7 and two groups of cutter heads 82 are arranged; as shown in fig. 4, a storage rack 7 and a set of cutter heads 82 are provided.

The cutter head assembly 8 is installed on the storage frame 7 and is positioned on the outer side of the frame 6 in the length direction of the track body. The cutter head assembly 8 comprises a cutter shaft and two cutter heads 82 arranged on the cutter shaft, the two cutter heads 82 are respectively positioned at two ends of the cutter shaft, the middle part of the cutter shaft is connected with the driving piece, and the cutter shaft is in transmission connection with the driving mechanism 9.

As shown in fig. 4, when the cutter head assembly 8 cuts a workpiece, the cutter head assembly 8 is located at two sides of the guide rail 1 of the platform cutting machine, and the cutter head assembly 8 is far away from the center of gravity of the platform cutting machine, so that the cutter head assembly 8 can safely cut the workpiece with a cutting function located at the end of the guide rail 1.

The driving mechanism 9 is installed on the retractable frame 7, is positioned at one end, close to the retractable frame 7, of the retractable frame 7, and is rotatably connected with the adjusting frame 10, moves along with the retractable frame 7, and transmits power to the cutter head assembly 8 through the transmission mechanism 81. As shown in fig. 4, the driving mechanism 9 is a widely used motor, and the transmission mechanism 81 is a gear set structure with stable transmission, but the transmission mechanism 81 may also be a belt transmission.

The adjusting frame 10 is arranged between the frame 6 and the retractable frame 7, and the adjusting frame 10 is controlled by the adjusting mechanism to horizontally reciprocate relative to the frame 6 along the direction perpendicular to the extending direction of the rail so as to adjust the distance between the retractable frame 7 and the rail and meet the requirement of cutting thickness.

As a changeable implementation mode, 4 cutter discs 82 are arranged on the cutter shaft, the 4 cutter discs 82 are respectively positioned at two ends of the cutter shaft, and the middle part of the cutter shaft is connected with the driving piece. Of course, the number of cutter heads 82 may be set according to the use requirement.

The quantity that the platform cutting machine cuts simultaneously and waits to cut the piece can set up according to the user demand, for example, be provided with four groups and receive and release frame 7 and four groups of cutterhead subassemblies 8, when being provided with two blade disc 82 on every group cutterhead subassembly 8, can cut eight simultaneously and wait to cut the piece to adjust the position of alignment jig 10 through adjustment mechanism, make four groups receive and release frame 7 to have different distances apart from guide rail 1, then eight that the simultaneous cutting waits to cut the piece can have different thickness. If the platform cutting machine is provided with two groups of folding and unfolding frames 7 and two groups of cutter head assemblies 8, each group of cutter head assembly 8 is provided with one cutter head 82, the position of the adjusting frame 10 is adjusted, the platform cutting machine can simultaneously cut two pieces to be cut, when the required thickness of the pieces to be cut is thick, the two groups of folding and unfolding frames 7 are respectively arranged on two sides of the track, and when the required thickness of the pieces to be cut is thin, the two groups of folding and unfolding frames 7 are arranged on one side of the guide rail.

In the working process of the platform cutting machine, the number of the retractable frame 7, the cutter head assembly 8 and the cutter heads 82 on the cutter head assembly 8 are installed according to the use requirement, and the distance between the adjusting frame 10 and the guide rail 1 is adjusted through the adjusting mechanism, so that the cutter heads 82 are suitable for cutting to-be-cut pieces with corresponding thicknesses. Then, adjust receiving and releasing frame 7 through receiving and releasing adjusting device, make receiving and releasing frame 7 wind the hinged end rotates, drives cutterhead subassembly 8 orientation treat that the cutting piece removes, after moving to the settlement position, by 8 cutting of actuating mechanism 9 drive cutterhead subassembly treat that the cutting piece, when cutterhead subassembly 8 cutting treat that the cutting piece, receive and release adjusting device and continuously adjust receiving and releasing frame 7's position, to cutterhead subassembly 8, exert the thrust that the cutting piece was treated to the orientation for the cutting depth of cutterhead subassembly 8 deepens gradually. After cutting is completed, the folding and unfolding adjusting device adjusts the folding and unfolding frame 7 to rotate around the hinged end, and the cutter head assembly 8 is driven to move away from the to-be-cut piece.

It should be understood that the above examples are only for clarity of illustration and are not intended to limit the embodiments. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. And obvious variations or modifications can be made without departing from the scope of the invention.

Claims (26)

1. A modular track comprising

The guide rails (1) are arranged in parallel;

the inter-rail connecting mechanism is used for connecting the two guide rails (1) so as to keep the distance between the two guide rails (1);

it is characterized in that the preparation method is characterized in that,

the inter-rail connecting mechanism is provided with a rigid first connecting piece (2) and a second connecting piece (3) which is matched and connected with the first connecting piece (2).

2. The modular rail according to claim 1, characterized in that said rails (1) and said first and second connectors (2, 3) form a plurality of triangular configurations, each rail (1) forming one side of at least one of said triangular configurations.

3. The modular rail according to claim 1, characterized in that the inter-rail connection is connected to opposite sides of two of the guide rails (1).

4. The modular rail according to claim 1, characterized in that the first connecting element (2) has at least two, arranged perpendicularly with respect to the rails (1) between the two rails (1).

5. The modular rail according to claim 4, characterized in that said first connecting element (2) has two connecting beams (21) arranged in parallel and connecting plates (22) connecting said connecting beams (21) at both ends into a single piece, said connecting plates (22) at both ends being fixedly connected to opposite sides of two of said rails (1).

6. The modular rail according to claim 5, characterized in that the connecting beam (21) is a channel steel.

7. The modular rail according to claim 5, characterized in that the connecting plate (22) and the rail (1) corresponding to the connecting portion are respectively formed with fixing holes through which rivets or screws are passed to fix the connecting plate (22) to the rail (1).

8. Modular rail according to claim 7, characterized in that the connection plate (22) also functions as a connection piece for the connection of adjacent modular rails.

9. The modular rail according to claim 1 or, characterized in that the second connection (3) is a flexible member.

10. The modular rail according to claim 9, characterized in that the second connecting element (3) has a steel cable (31) and a tensioner (32) which tensions the steel cable (31).

11. The modular rail according to claim 9, characterized in that the second connecting elements (3) are arranged crosswise in at least two groups between two guide rails (1).

12. The modular rail according to claim 9, characterized in that the first connecting element (2) and a set of the second connecting elements (3) are arranged at a distance from each other.

13. The modular rail according to claim 12, characterized in that the second connecting element (3) is connected at one end to the end of one first connecting element (2) adjacent to one of the guide rails and at the other end to the end of the adjacent first connecting element (2) adjacent to the other guide rail.

14. The modular rail according to any of claims 1 to 13, further comprising,

the running mechanism is fixedly or detachably arranged on the lower side of the guide rail (1) or the inter-rail connecting mechanism and is provided with at least one running mechanism, and the running mechanism moves to drive the guide rail (1) to move; and/or

The leveling mechanism (5) is fixedly or detachably arranged at the lower side of the guide rail (1) or the inter-rail connecting mechanism and is provided with at least one leveling mechanism used for adjusting the height of the guide rail (1) so that the guide rail (1) has a set angle with the horizontal plane.

15. The modular rail according to claim 14, characterized in that the running gear and the levelling gear (5) are arranged at intervals along the guide rail (1).

16. The modular rail according to claim 14, characterized in that the running gear is a moving wheel (4), the axis of rotation of the moving wheel (4) being parallel to the direction of extension of the rail (1).

17. The modular rail according to claim 16, characterized in that the moving wheel (4) is provided with a hub motor, and the advancing and retreating are controlled by a control mechanism.

18. The modular rail according to claim 14, characterized in that the levelling means (5) is a hydraulic levelling means, or a screw levelling means.

19. A platform cutting machine is characterized by comprising,

a rail constructed of a plurality of connected modular rails as claimed in any one of claims 1 to 18;

and the cutting mechanism is movably arranged on the track group formed by connecting a plurality of tracks and is used for cutting the piece to be cut.

20. The platform cutting machine according to claim 19, wherein the cutting mechanism comprises:

the frame (6) is arranged on the track through a bottom rail wheel and can move back and forth along the track;

the retractable frame (7) is movably arranged on the frame (6) and is controlled by the retractable adjusting device to move;

the cutter head assembly (8) is mounted on the retraction frame (7) and located on the outer side of the frame (6) in the length direction of the rail body, and the retraction frame (7) moves to drive the cutter head assembly (8) to move towards or away from a to-be-cut piece;

and the driving mechanism (9) is arranged on the storage rack (7), moves along with the storage rack (7) and is used for driving the cutter head assembly (8).

21. The platform cutting machine according to claim 20, characterized in that it further comprises an adjusting frame (10) arranged between the carriage (6) and the folding and unfolding frame (7), the adjusting frame (10) being controlled by an adjusting mechanism to move horizontally and reciprocally with respect to the carriage (6) in a direction perpendicular to the extension direction of the rail.

22. The platform cutting machine according to claim 21, characterized in that one end of the retractable frame (7) is a hinged end which is rotatably connected with respect to the frame (6), the other end of the retractable frame (7) is provided with the cutterhead assembly (8), and the retractable frame (7) rotates around the hinged end to drive the cutterhead assembly (8) to move towards or away from the piece to be cut.

23. The platform cutting machine according to claim 22, characterized in that the driving mechanism (9) is located at an end of the storage rack (7) near the storage rack (7) rotatably connected to the adjustment rack (10) and transmits power to the cutterhead assembly (8) via a transmission mechanism (81).

24. Platform cutting machine according to any one of claims 20-23, characterized in that the folding and unfolding stands (7) are provided in four groups, each in four quadrants of the carriage (6) and arranged in mirror image with respect to the carriage (6).

25. A platform cutting machine according to any one of claims 20-23, characterized in that the cutterhead assembly (8) comprises an arbor, which is in driving connection with the drive mechanism (9), and at least one cutterhead (82) arranged on the arbor.

26. The flat bed cutting machine according to claim 25, characterized in that said cutter head (82) is provided in two, respectively at both ends of said knife shaft, the middle of said knife shaft being connected to said driving member.

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