CN214933038U - Steel grating conveying mechanism with adjustable size - Google Patents

Abstract

The utility model discloses a steel grating transport mechanism with adjustable size, include: the device comprises a base, a transmission mechanism with adjustable intervals and a bearing mechanism, wherein the transmission mechanism with adjustable intervals is arranged on the base, and the bearing mechanism is arranged on the transmission mechanism with adjustable intervals. A steel grating transport mechanism with adjustable size, its simple structure, reasonable in design, easily production through set up interval adjustable transmission device on the base, let its transportation that can satisfy not unidimensional steel grating, improve the device's suitability, the cost input of effectual reduction enterprise on the production facility has still set up bearing mechanism simultaneously, great improvement the stability of its transmission to let its better needs that satisfy the production.

Description

Steel grating conveying mechanism with adjustable size

Technical Field

The utility model belongs to the technical field of advance manufacturing, in particular to steel grating transport mechanism with adjustable size.

Background

The steel grating is an open steel member which is orthogonally combined by using bearing flat steel and cross bars according to a certain distance and is fixed by welding or pressing and locking; the cross rod is generally made of twisted square steel, round steel or flat steel, and the material of the cross rod is carbon steel or stainless steel. The steel grating plate is mainly used for making steel structure platform plates, trench cover plates, step plates of steel ladders, building suspended ceilings and the like. The steel grating is generally made of carbon steel, and the surface of the steel grating is hot-galvanized, so that the oxidation prevention effect can be achieved. The steel grating plate has the performances of ventilation, lighting, heat dissipation, skid resistance, explosion prevention and the like. In order to convey the steel grating, a conveying device is needed to convey the steel grating.

The steel grating needs a transportation device to convey the steel grating in the machining process, most of the roller paths of the existing transportation device are integrally arranged, a large amount of machining materials are consumed, the cost is high, most of the sizes of the existing roller paths are fixed and cannot be adjusted, however, in the machining process of an enterprise, a client can have products with various types and sizes according to own needs, and the enterprise needs to purchase machining equipment with different sizes, so that the enterprise has to increase the input cost of the equipment, and meanwhile, the land for a factory building needs to be continuously enlarged;

meanwhile, the steel grating can generate flame due to cutting in the machining process, the steel grating is easy to damage, the adhesion problem can also occur, the machining quality of products can be seriously affected, and therefore the existing conveying device is still required to be improved.

SUMMERY OF THE UTILITY MODEL

Utility model purpose: in order to overcome not enough above, the utility model aims at providing a steel grating transport mechanism with adjustable size, its simple structure, reasonable in design, easily production, degree of automation is high, through set up transmission device with adjustable interval on the base, lets its transportation that can satisfy not unidimensional steel grating, improves the device's suitability, and the cost of effectual reduction enterprise on the production facility drops into, has still set up bearing mechanism simultaneously, great improvement the stability of its transmission.

The technical scheme is as follows: in order to achieve the above object, the utility model provides a steel grating transport mechanism with adjustable size, include: the device comprises a base, a transmission mechanism with adjustable intervals and a bearing mechanism, wherein the transmission mechanism with adjustable intervals is arranged on the base, and the bearing mechanism is arranged on the transmission mechanism with adjustable intervals. A steel grating transport mechanism with adjustable size, its simple structure, reasonable in design, easily production through set up interval adjustable transmission device on the base, let its transportation that can satisfy not unidimensional steel grating, improve the device's suitability, the cost input of effectual reduction enterprise on the production facility has still set up bearing mechanism simultaneously, great improvement the stability of its transmission to let its better needs that satisfy the production.

Wherein, interval adjustable transport mechanism includes a set of guide rail, a supporting beam, walking beam, interval adjustment actuating mechanism, initiative transport mechanism and driven transport mechanism, the both ends of base are located to the guide rail, a supporting beam is located on the base, the walking beam is located on the horizontal support frame of base, just the both ends of walking beam are passed through the sliding seat and are connected with the guide rail, interval adjustment actuating mechanism locates the both ends of walking beam to be connected with horizontal support frame, initiative transport mechanism locates one side of a supporting beam, one side of walking beam is located to driven transport mechanism, just initiative transport mechanism and driven transport mechanism set up relatively.

Further, interval adjustment actuating mechanism includes main drive mechanism, follower and drive assembly, main drive mechanism and follower locate the both ends of walking beam, just main drive mechanism and follower pass through drive assembly and connect.

Furthermore, be equipped with including first mount pad, driving motor, first drive wheel, first removal wheel and rack among the main actuating mechanism, wherein, the one end of walking beam is located to first mount pad, driving motor locates on the first mount pad, driving motor's output is located to first drive wheel, first removal wheel is connected with the bearing frame on the first mount pad, one side of horizontal support frame is located to the rack, first removal wheel simultaneously with first drive wheel and rack toothing.

Furthermore, a second mounting seat, a second moving wheel and a rack are arranged in the driven mechanism, the second mounting seat is arranged at one end of the moving beam, the second moving wheel is arranged on the second mounting seat, the rack is arranged on one side of the transverse supporting frame, and the second moving wheel is meshed with the rack.

Preferably, a transmission rod and a group of transmission gears are arranged in the transmission assembly, two ends of the transmission rod are respectively connected with the first mounting seat and the second mounting seat, the transmission gears are arranged at two ends of the transmission rod, and the transmission gears are respectively meshed with the corresponding first movable wheels or the corresponding second movable wheels.

In addition, be equipped with first bearing mechanism and second bearing mechanism in the bearing mechanism, first bearing mechanism and second bearing mechanism locate respectively on supporting beam and walking beam, just both set up relatively first bearing mechanism and second bearing mechanism to do the retractable and connect.

Further, all be equipped with mounting bracket, bearing board and elevating system in first bearing mechanism and the second bearing mechanism, bearing board one end is fixed in on the mounting bracket, the both ends and the elevating system of mounting bracket are connected, elevating system is connected with a supporting beam or the walking beam that corresponds.

Further, be equipped with lift actuating mechanism, lift gyro wheel fixed plate, bearing board hoisting block and lift roller bearing among the elevating system, lift actuating mechanism locates corresponding a supporting beam or walking beam one side through the fixing base, the lift gyro wheel fixed plate is located on the fixing base, bearing board hoisting block one side is connected with the mounting bracket, and the other end is located on the lift gyro wheel fixed plate, just bearing board hoisting block passes through the cylinder connecting plate and is connected with lift actuating mechanism, just one side of bearing board hoisting block is equipped with first rack, the lift roller bearing both ends are connected with the lift gyro wheel fixed plate, just the lift roller bearing both ends all are equipped with synchronous gear, synchronous gear and first rack toothing.

Preferably, the driving transmission mechanism is provided with a group of power rollers and a group of lateral guide wheels, the power rollers are arranged on one side of the supporting beam, two adjacent power rollers are connected through a chain, the lateral guide wheels are connected with the supporting beam through a lateral guide wheel fixing frame, and the lateral guide wheels are matched with the power rollers;

the driven transmission mechanism is provided with a driving roller and a group of lateral guide wheels, the driving roller is arranged on the movable beam, the lateral guide wheels are connected with the movable beam through lateral guide wheel fixing frames, the lateral guide wheels are matched with the driving roller, and the bearing plate is arranged in a gap between two adjacent power rollers or the driving roller.

Above-mentioned technical scheme can find out, the utility model discloses following beneficial effect has:

1. a steel grating transport mechanism with adjustable size, its simple structure, reasonable in design, easily production through set up interval adjustable transmission device on the base, let its transportation that can satisfy not unidimensional steel grating, improve the device's suitability, the cost input of effectual reduction enterprise on the production facility has still set up bearing mechanism simultaneously, great improvement the stability of its transmission to let its better needs that satisfy the production.

2. The utility model discloses in interval adjustable transmission device moves along the guide rail through the sliding seat at carriage release beam both ends, lets the carriage release beam drive the driven transmission device above that and remove together to realized the interval adjustment between carriage release beam to a supporting beam and between initiative transmission device and the driven transmission device, let its transmission demand that can satisfy not unidimensional steel grating, and then let its better needs that satisfy production.

3. The utility model discloses in be equipped with power roller and a set of side direction guide pulley among the initiative transmission device, be equipped with driving roller and a set of side direction guide pulley among the driven transmission device, the setting of side direction guide pulley not only can improve the performance of its transmission, can also play certain limiting displacement simultaneously, avoids the steel grating skew to appear in data send process to great improvement its transmission stability.

4. The utility model discloses well bearing mechanism's setting lets it can play fine bearing effect to the steel grating on the conveyer, just state first bearing mechanism and second bearing mechanism and do the retractable and connect, let its transmission device with adjustable interval carry out the regulation of width according to the steel grating size, improve its application scope, meanwhile, the bearing board be the design of compartment type, when it is satisfying the bearing effect, can save the use of raw and other materials, thereby the manufacturing cost of reduction equipment lets its better needs that satisfy customer's production.

5. The utility model discloses in elevating system's setting lets its actual need that can be based on production highly adjust bearing mechanism, improves its adaptability to let its better needs that satisfy the production.

6. The utility model discloses in the bearing board is the cockscomb structure, can play fine protection to the plate, and the condition of adhesion appears in the course of working can be avoided in the setting of cockscomb structure simultaneously, and then the effectual quality that improves product processing.

Drawings

Fig. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic structural view of the intermediate distance adjustable transmission mechanism of the present invention;

FIG. 3 is a schematic structural view of the main driving mechanism of the present invention;

FIG. 4 is a schematic structural view of the other side of the main driving mechanism of the present invention;

fig. 5 is a schematic structural diagram of a driven mechanism in the present invention;

fig. 6 is a partial schematic view of the active transmission mechanism of the present invention;

FIG. 7 is a schematic structural view of a supporting mechanism of the present invention;

fig. 8 is a partial schematic view of a lifting mechanism of the present invention;

fig. 9 is a partial schematic view of the middle support plate of the present invention.

Detailed Description

The invention will be further elucidated with reference to the drawings and the specific embodiments.

Examples

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary and intended to be used for explaining the present invention, and should not be construed as limiting the present invention.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "clockwise", "counterclockwise" and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and to simplify the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, unless otherwise specified, "a plurality" means two or more unless explicitly defined otherwise.

In the present invention, unless otherwise expressly specified or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In the present disclosure, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may comprise direct contact between the first and second features, or may comprise contact between the first and second features not directly. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

A dimensionally adjustable steel grating transport mechanism as shown in the drawings, comprising: the device comprises a base 11, an interval adjustable transmission mechanism 12 and a supporting mechanism 24, wherein the interval adjustable transmission mechanism 12 is arranged on the base 11, and the supporting mechanism 24 is arranged on the interval adjustable transmission mechanism 12.

The distance adjustable transmission mechanism 12 in this embodiment includes a set of guide rail 121, a support beam 122, a movable beam 123, a distance adjustment driving mechanism 124, a driving transmission mechanism 125 and a driven transmission mechanism 126, the guide rail 121 is disposed at two ends of the base 11, the support beam 122 is disposed on the base 11, the movable beam 123 is disposed on the transverse support frame 111 of the base 11, two ends of the movable beam 123 are connected with the guide rail 121 through a sliding seat 127, the distance adjustment driving mechanism 124 is disposed at two ends of the movable beam 123 and connected with the transverse support frame 111, the driving transmission mechanism 125 is disposed at one side of the support beam 122, the driven transmission mechanism 126 is disposed at one side of the movable beam 123, and the driving transmission mechanism 125 and the driven transmission mechanism 126 are disposed oppositely.

The distance adjustment driving mechanism 124 in this embodiment includes a main driving mechanism, a driven mechanism and a transmission assembly, the main driving mechanism and the driven mechanism are disposed at two ends of the movable beam 123, and the main driving mechanism and the driven mechanism are connected through the transmission assembly.

In this embodiment, the main driving mechanism includes a first mounting seat 1241, a driving motor 1242, a first driving wheel 1243, a first moving wheel 1244 and a rack 1245, wherein the first mounting seat 1241 is disposed at one end of the moving beam 123, the driving motor 1242 is disposed on the first mounting seat 1241, the first driving wheel 1243 is disposed at an output end of the driving motor 1242, the first moving wheel 1244 is connected to a bearing seat on the first mounting seat 1241, the rack 1245 is disposed on one side of the transverse support frame 111, and the first moving wheel 1244 is simultaneously engaged with the first driving wheel 1243 and the rack 1245.

In this embodiment, the driven mechanism is provided with a second mounting seat 1246, a second moving wheel 1247 and a rack 1245, the second mounting seat 1246 is disposed at one end of the moving beam 123, the second moving wheel 1247 is disposed on the second mounting seat 1246, the rack 1245 is disposed at one side of the transverse support frame 111, and the second moving wheel 1247 is engaged with the rack 1245.

In this embodiment, a transmission rod 1248 and a set of transmission gears 1249 are disposed in the transmission assembly, two ends of the transmission rod 1248 are respectively connected to the first mounting seat 1241 and the second mounting seat 1246, and two ends of the transmission rod 1249 are both provided with transmission gears 1249, and the transmission gears 1249 are respectively engaged with the corresponding first moving wheel 1244 or the corresponding second moving wheel 1247.

In this embodiment, the supporting mechanism 24 is provided with a first supporting mechanism 241 and a second supporting mechanism 242, the first supporting mechanism 241 and the second supporting mechanism 242 are respectively disposed on the supporting beam 122 and the moving beam 123, and the first supporting mechanism 241 and the second supporting mechanism 242 are oppositely disposed and are connected in a retractable manner.

In this embodiment, each of the first supporting mechanism 241 and the second supporting mechanism 242 is provided with a mounting frame 243, a supporting plate 244 and a lifting mechanism 245, one end of the supporting plate 244 is fixed on the mounting frame 243, two ends of the mounting frame 243 are connected with the lifting mechanism 245, and the lifting mechanism 245 is connected with the corresponding supporting beam 122 or the corresponding movable beam 123.

In this embodiment, the lifting mechanism 245 is provided with a lifting driving mechanism 2451, a lifting roller fixing plate 2452, a supporting plate lifting block 2453 and a lifting roller 2454, the lifting driving mechanism 2451 is disposed on one side of the corresponding supporting beam 122 or moving beam 123 through a fixing seat, the lifting roller fixing plate 2452 is disposed on the fixing seat, one side of the supporting plate lifting block 2453 is connected with the mounting frame 243, the other end of the supporting plate lifting block 2453 is disposed on the lifting roller fixing plate 2452, the supporting plate lifting block 2453 is connected with the lifting driving mechanism 2451 through a cylinder connecting plate 2451, a first rack 2455 is disposed on one side of the supporting plate lifting block 243, two ends of the lifting roller 2454 are connected with the lifting roller fixing plate 2452, two ends of the lifting roller 2454 are both provided with synchronizing gears 2456, and the synchronizing gears 2456 are engaged with the first rack 2455.

In this embodiment, the driving transmission mechanism 125 is provided with a set of power rollers 1251 and a set of lateral guide wheels 1252, the power rollers 1251 are disposed on one side of the supporting beam 122, two adjacent power rollers 1251 are connected by a chain 1253, the lateral guide wheels 1252 are connected with the supporting beam 122 by a lateral guide wheel fixing frame, and the lateral guide wheels 1252 and the power rollers 1251 are matched with each other;

the driven transmission mechanism 126 is provided with a driving roller 1261 and a group of lateral guide wheels 1252, the driving roller 1261 is arranged on the moving beam 123, the lateral guide wheels 1252 are connected with the moving beam 123 through a lateral guide wheel fixing frame, the lateral guide wheels 1252 are matched with the driving roller 1261, and the supporting plate 244 is arranged in a gap between two adjacent power rollers 1251 or the driving rollers 1261.

Example 2

A dimensionally adjustable steel grating transport mechanism as shown in the drawings, comprising: the device comprises a base 11, an interval adjustable transmission mechanism 12 and a supporting mechanism 24, wherein the interval adjustable transmission mechanism 12 is arranged on the base 11, and the supporting mechanism 24 is arranged on the interval adjustable transmission mechanism 12.

The distance adjustable transmission mechanism 12 in this embodiment includes a set of guide rail 121, a support beam 122, a movable beam 123, a distance adjustment driving mechanism 124, a driving transmission mechanism 125 and a driven transmission mechanism 126, the guide rail 121 is disposed at two ends of the base 11, the support beam 122 is disposed on the base 11, the movable beam 123 is disposed on the transverse support frame 111 of the base 11, two ends of the movable beam 123 are connected with the guide rail 121 through a sliding seat 127, the distance adjustment driving mechanism 124 is disposed at two ends of the movable beam 123 and connected with the transverse support frame 111, the driving transmission mechanism 125 is disposed at one side of the support beam 122, the driven transmission mechanism 126 is disposed at one side of the movable beam 123, and the driving transmission mechanism 125 and the driven transmission mechanism 126 are disposed oppositely.

The distance adjustment driving mechanism 124 in this embodiment includes a main driving mechanism, a driven mechanism and a transmission assembly, the main driving mechanism and the driven mechanism are disposed at two ends of the movable beam 123, and the main driving mechanism and the driven mechanism are connected through the transmission assembly.

In this embodiment, the main driving mechanism includes a first mounting seat 1241, a driving motor 1242, a first driving wheel 1243, a first moving wheel 1244 and a rack 1245, wherein the first mounting seat 1241 is disposed at one end of the moving beam 123, the driving motor 1242 is disposed on the first mounting seat 1241, the first driving wheel 1243 is disposed at an output end of the driving motor 1242, the first moving wheel 1244 is connected to a bearing seat on the first mounting seat 1241, the rack 1245 is disposed on one side of the transverse support frame 111, and the first moving wheel 1244 is simultaneously engaged with the first driving wheel 1243 and the rack 1245.

In this embodiment, the driven mechanism is provided with a second mounting seat 1246, a second moving wheel 1247 and a rack 1245, the second mounting seat 1246 is disposed at one end of the moving beam 123, the second moving wheel 1247 is disposed on the second mounting seat 1246, the rack 1245 is disposed at one side of the transverse support frame 111, and the second moving wheel 1247 is engaged with the rack 1245.

In this embodiment, a transmission rod 1248 and a set of transmission gears 1249 are disposed in the transmission assembly, two ends of the transmission rod 1248 are respectively connected to the first mounting seat 1241 and the second mounting seat 1246, and two ends of the transmission rod 1249 are both provided with transmission gears 1249, and the transmission gears 1249 are respectively engaged with the corresponding first moving wheel 1244 or the corresponding second moving wheel 1247.

In this embodiment, the supporting mechanism 24 is provided with a first supporting mechanism 241 and a second supporting mechanism 242, the first supporting mechanism 241 and the second supporting mechanism 242 are respectively disposed on the supporting beam 122 and the moving beam 123, and the first supporting mechanism 241 and the second supporting mechanism 242 are oppositely disposed and are connected in a retractable manner.

In this embodiment, each of the first supporting mechanism 241 and the second supporting mechanism 242 is provided with a mounting frame 243, a supporting plate 244 and a lifting mechanism 245, one end of the supporting plate 244 is fixed on the mounting frame 243, two ends of the mounting frame 243 are connected with the lifting mechanism 245, and the lifting mechanism 245 is connected with the corresponding supporting beam 122 or the corresponding movable beam 123.

In this embodiment, the lifting mechanism 245 is provided with a lifting driving mechanism 2451, a lifting roller fixing plate 2452, a supporting plate lifting block 2453 and a lifting roller 2454, the lifting driving mechanism 2451 is disposed on one side of the corresponding supporting beam 122 or moving beam 123 through a fixing seat, the lifting roller fixing plate 2452 is disposed on the fixing seat, one side of the supporting plate lifting block 2453 is connected with the mounting frame 243, the other end of the supporting plate lifting block 2453 is disposed on the lifting roller fixing plate 2452, the supporting plate lifting block 2453 is connected with the lifting driving mechanism 2451 through a cylinder connecting plate 2451, a first rack 2455 is disposed on one side of the supporting plate lifting block 243, two ends of the lifting roller 2454 are connected with the lifting roller fixing plate 2452, two ends of the lifting roller 2454 are both provided with synchronizing gears 2456, and the synchronizing gears 2456 are engaged with the first rack 2455.

In this embodiment, two sets of rollers 2452 are disposed on the lifting roller fixing plate 2452, the rollers 2452 are disposed oppositely, and one side of the supporting plate lifting block 2453 away from the mounting rack 241 is disposed between the two sets of rollers 2451.

In this embodiment, the supporting plate 244 of the second supporting mechanism 242 is provided with an adjusting groove 2441, and an end of the supporting plate 244 of the first supporting mechanism 241 away from the supporting beam 22 is connected to the supporting plate 244 of the second supporting mechanism 242 by a pin 2442.

The support plate 244 is serrated in this embodiment.

In this embodiment, the driving transmission mechanism 125 is provided with a set of power rollers 1251 and a set of lateral guide wheels 1252, the power rollers 1251 are disposed on one side of the supporting beam 122, two adjacent power rollers 1251 are connected by a chain 1253, the lateral guide wheels 1252 are connected with the supporting beam 122 by a lateral guide wheel fixing frame, and the lateral guide wheels 1252 and the power rollers 1251 are matched with each other;

the driven transmission mechanism 126 is provided with a driving roller 1261 and a group of lateral guide wheels 1252, the driving roller 1261 is arranged on the moving beam 123, the lateral guide wheels 1252 are connected with the moving beam 123 through a lateral guide wheel fixing frame, the lateral guide wheels 1252 are matched with the driving roller 1261, and the supporting plate 244 is arranged in a gap between two adjacent power rollers 1251 or the driving rollers 1261.

In this embodiment, one end of the base 11 is provided with a workpiece limiting plate 111.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications can be made without departing from the principles of the present invention, and these modifications should also be regarded as the protection scope of the present invention.

Claims (9)

1. The utility model provides a steel grating transport mechanism with adjustable size which characterized in that: the method comprises the following steps: the device comprises a base (11), an interval adjustable transmission mechanism (12) and a supporting mechanism (24), wherein the interval adjustable transmission mechanism (12) is arranged on the base (11), and the supporting mechanism (24) is arranged on the interval adjustable transmission mechanism (12); the interval adjustable transmission mechanism (12) comprises a group of guide rails (121), a support beam (122), a movable beam (123), an interval adjusting driving mechanism (124), a driving transmission mechanism (125) and a driven transmission mechanism (126), the guide rails (121) are arranged at two ends of the base (11), the support beams (122) are arranged on the base (11), the moving beam (123) is arranged on the transverse supporting frame (111) of the base (11), and both ends of the moving beam (123) are connected with the guide rail (121) through sliding seats (127), the distance adjusting driving mechanisms (124) are arranged at two ends of the movable beam (123), and is connected with the transverse supporting frame (111), the driving transmission mechanism (125) is arranged at one side of the supporting beam (122), the driven transmission mechanism (126) is arranged at one side of the movable beam (123), and the driving transmission mechanism (125) and the driven transmission mechanism (126) are oppositely arranged.

2. A dimensionally adjustable steel grating transport mechanism according to claim 1, wherein: the distance adjusting driving mechanism (124) comprises a main driving mechanism, a driven mechanism and a transmission assembly, wherein the main driving mechanism and the driven mechanism are arranged at two ends of the movable beam (123), and are connected through the transmission assembly.

3. A dimensionally adjustable steel grating transport mechanism according to claim 2, wherein: the main driving mechanism is internally provided with a first mounting seat (1241), a driving motor (1242), a first driving wheel (1243), a first moving wheel (1244) and a rack (1245), wherein the first mounting seat (1241) is arranged at one end of a moving beam (123), the driving motor (1242) is arranged on the first mounting seat (1241), the first driving wheel (1243) is arranged at the output end of the driving motor (1242), the first moving wheel (1244) is connected with a bearing seat on the first mounting seat (1241), the rack (1245) is arranged at one side of the transverse supporting frame (111), and the first moving wheel (1244) is simultaneously meshed with the first driving wheel (1243) and the rack (1245).

4. A dimensionally adjustable steel grating transport mechanism according to claim 3, wherein: the driven mechanism is internally provided with a second mounting seat (1246), a second moving wheel (1247) and a rack (1245), the second mounting seat (1246) is arranged at one end of the moving beam (123), the second moving wheel (1247) is arranged on the second mounting seat (1246), the rack (1245) is arranged on one side of the transverse support frame (111), and the second moving wheel (1247) is meshed with the rack (1245).

5. A dimensionally adjustable steel grating transport mechanism according to claim 3, wherein: the transmission assembly is internally provided with a transmission rod (1248) and a group of transmission gears (1249), two ends of the transmission rod (1248) are respectively connected with the first mounting seat (1241) and the second mounting seat (1246), the two ends of the transmission rod (1248) are respectively provided with the transmission gears (1249), and the transmission gears (1249) are respectively meshed with the corresponding first movable wheels (1244) or the corresponding second movable wheels (1247).

6. A dimensionally adjustable steel grating transport mechanism according to claim 1, wherein: be equipped with first supporting mechanism (241) and second supporting mechanism (242) in supporting mechanism (24), first supporting mechanism (241) and second supporting mechanism (242) are located respectively on supporting beam (122) and walking beam (123), just both set up relatively first supporting mechanism (241) and second supporting mechanism (242) to do the retractable and connect.

7. A steel grating transport mechanism as claimed in claim 6, wherein: all be equipped with mounting bracket (243), bearing board (244) and elevating system (245) in first bearing mechanism (241) and the second bearing mechanism (242), bearing board (244) one end is fixed in on mounting bracket (243), the both ends and the elevating system (245) of mounting bracket (243) are connected, elevating system (245) are connected with supporting beam (122) or walking beam (123) that correspond.

8. A steel grating transport mechanism as claimed in claim 7, wherein: the lifting mechanism (245) is internally provided with a lifting driving mechanism (2451), a lifting roller fixing plate (2452), a bearing plate lifting block (2453) and a lifting roller (2454), the lifting driving mechanism (2451) is arranged at one side of the corresponding supporting beam (122) or the moving beam (123) through a fixed seat, the lifting roller fixing plate (2452) is arranged on the fixed seat, one side of the bearing plate lifting block (2453) is connected with the mounting frame (243), the other end is arranged on the lifting roller fixing plate (2452), and the supporting plate lifting block (2453) is connected with a lifting driving mechanism (2451) through a cylinder connecting plate (2451), and one side of the supporting plate lifting block (2453) is provided with a first rack (2455), two ends of the lifting rolling shaft (2454) are connected with a lifting roller fixing plate (2452), and both ends of the lifting roller (2454) are provided with synchronizing gears (2456), and the synchronizing gears (2456) are meshed with the first racks (2455).

9. A steel grating transport mechanism as claimed in claim 7, wherein: the driving transmission mechanism (125) is internally provided with a group of power rollers (1251) and a group of lateral guide wheels (1252), the power rollers (1251) are arranged on one side of the supporting beam (122), two adjacent power rollers (1251) are connected through a chain (1253), the lateral guide wheels (1252) are connected with the supporting beam (122) through lateral guide wheel fixing frames, and the lateral guide wheels (1252) are matched with the power rollers (1251);

the driven transmission mechanism (126) is internally provided with a driving roller (1261) and a group of lateral guide wheels (1252), the driving roller (1261) is arranged on the moving beam (123), the lateral guide wheels (1252) are connected with the moving beam (123) through lateral guide wheel fixing frames, the lateral guide wheels (1252) are matched with the driving roller (1261), and the supporting plate (244) is arranged in a gap between two adjacent power rollers (1251) or the driving roller (1261).

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