CN211162449U - High-low synchronous exchange double-workbench of laser cutting machine - Google Patents

Abstract

The utility model discloses a high-low synchronous exchange double-workbench of a laser cutting machine, which comprises a workbench frame, a feeding frame, an upper workbench and a lower workbench which are respectively arranged on the workbench frame and the feeding frame, wherein the upper workbench and the lower workbench are respectively arranged on the workbench frame and the feeding frame and are arranged in parallel up and down; the utility model provides an among the technical scheme, through control motor corotation or reversal and cog belt transport mechanism's transmission, the workstation shifts the removal in step and carries out the position exchange about realizing, practices thrift the interchange time of two workstations, practices thrift man-hour, has improved machining efficiency.

Description

High-low synchronous exchange double-workbench of laser cutting machine

Technical Field

The utility model relates to a laser cutting equipment technical field, in particular to laser cutting machine's high-low synchro exchange double work platform.

Background

The laser cutting machine is a metal plate machining tool which is very common in application, the laser cutting machine is usually used for carrying out laser segmentation on metal workpieces such as stainless steel and the like, the workpieces are generally manually fed and discharged after cutting machining is finished, after the sequential cutting machining is finished, an operator needs to firstly move the cut products off a workbench, then move the workpieces to be machined onto the workbench and place the workpieces, then start the laser cutting machine again for cutting machining, and the time consumed by feeding and discharging is long. The traditional mechanical or hydraulic lifting type exchange workbench of the existing laser cutting machine is high in manufacturing and maintenance cost, meanwhile, the exchange waiting time of the workbench is long, high production waiting cost is brought, the production efficiency of parts is influenced, and meanwhile, the maintenance cost of equipment is increased by using the traditional mechanical or hydraulic lifting type exchange workbench.

Disclosure of Invention

The utility model aims at providing a laser cutting machine's two workstations of high-low synchronous exchange, the over-and-under type change table exchange latency who aims at solving current laser cutting machine is longer, and machining efficiency is low, the problem that the equipment maintenance cost is high.

In order to achieve the above object, the utility model provides a laser cutting machine's two workstations of high-low synchro-exchange, including work frame and material loading frame, and divide upper table and the lower workstation of locating on work frame and material loading frame, be equipped with parallel arrangement's first upper guide rail and first lower guide rail about being equipped with in the work frame, be equipped with parallel arrangement's second upper guide rail and second lower guide rail about being equipped with in the material loading frame, upper table moves with first upper guide rail and second upper guide rail sliding fit respectively, lower workstation moves with first lower guide rail and second lower guide rail sliding fit respectively, and upper table and lower workstation are connected with drive arrangement, and drive upper table and lower workstation shift in step between work frame and material loading frame in step, drive arrangement is including the motor that locates the frame lateral surface, the speed reducer that connects the output of motor, And a toothed belt conveying mechanism connected with the speed reducer, the upper working table and the lower working table, and the upper working table and the lower working table are driven to synchronously shift positions for position exchange by controlling the motor of the driving device to rotate forwards or reversely.

Preferably, the toothed belt conveying mechanism comprises a mounting block fixed on the lower workbench, two toothed shafts respectively arranged on a rotating shaft of the speed reducer and the mounting block of the lower workbench, and an annular toothed belt meshed with the two toothed shafts;

The upper workbench comprises an upper square frame, the lower workbench comprises a lower square frame, upper pulleys are arranged on two sides of the upper square frame and close to one side of the annular toothed belt, an upper connecting plate is arranged on two sides of the lower square frame and close to one side of the annular toothed belt, lower connecting plates are arranged on two sides of the annular toothed belt, the upper connecting plate and the lower connecting plate are arranged on the inner side and the outer side of the annular toothed belt respectively, the upper pulleys are slidably mounted on the first upper guide rail and the second upper guide rail to form a traveling mechanism, and the lower pulleys are slidably mounted on the first lower guide rail and the second lower guide rail to form a traveling mechanism.

Preferably, still include locking device, locking device is including locating the last pinch-off blades of last workstation, locate down the lower pinch-off blades on the workstation and divide and locate on the feed rack both ends drive actuating cylinder and drive actuating cylinder down, and the flexible end correspondence that drives actuating cylinder and drive actuating cylinder both down is equipped with pressure strip and lower pressure strip on, go up pressure strip and lower pressure strip and be used for buckleing with last pinch-off blades and lower pinch-off blades respectively and offset, in order to incite somebody to action last workstation and lower workstation locking.

Preferably, a cylinder protective cover is arranged on a driving cylinder housing of the locking device.

Preferably, a motor and reducer housing of the driving device is provided with a motor reducer protective cover.

Preferably, the end heads of the working rack and the feeding rack are respectively provided with a first limiting protective cover and a second limiting protective cover.

Preferably, the feeding frame is provided with an electric signal module for controlling the deceleration and stop of the lower workbench and the upper workbench, and an upper deceleration switch, an upper stop switch, a lower deceleration switch and a lower stop switch which are electrically connected with the electric signal module;

The upper workbench is characterized in that an upper touch plate is arranged at the shifting-out end of the upper square frame of the upper workbench, a lower touch plate is arranged at the shifting-out end of the lower square frame of the lower workbench, the upper touch plate successively triggers the upper speed reducing switch and the upper stop switch to stop when the upper workbench is transposed and moved to the feeding rack, and the lower touch plate successively triggers the lower speed reducing switch and the lower stop switch to stop when the lower workbench is transposed and moved to the feeding rack.

The technical scheme provided in the utility model, laser cutting machine's two workstations of high-low synchronous switch include work frame and material loading frame and divide and locate last workstation and lower workstation on work frame and the material loading frame, be equipped with parallel arrangement's first upper guideway and first lower guideway about in the work frame, be equipped with upper and lower parallel arrangement's second upper guideway and second lower guideway on the material loading frame, the upper workstation removes with first upper guideway and second upper guideway sliding fit respectively, the lower workstation removes with first lower guideway and second lower guideway sliding fit respectively, upper workstation and lower workstation are connected with drive arrangement, and drive upper workstation and lower workstation shift in step between work frame and material loading frame in step, drive arrangement is including the motor that locates the frame lateral surface, the speed reducer of the output of connecting the motor, And a toothed belt conveying mechanism connected with the speed reducer, the upper working table and the lower working table, and the upper working table and the lower working table are driven to synchronously shift positions for position exchange by controlling the motor of the driving device to rotate forwards or reversely. Compared with the traditional mechanical or hydraulic lifting type exchange workbench, the mechanism can realize synchronous exchange of the upper workbench and the lower workbench, saves the exchange time of the two workbenches, has less preparation time, saves working hours, has higher and more stable cutting efficiency, improves the working efficiency of the laser cutting machine, has lower manufacturing cost because the main frame of the mechanism is only formed by welding section bars, and has the characteristics of simple transmission structure, stable performance and low failure rate.

The utility model discloses laser cutting machine's two workstations of height synchro-exchange have following advantage:

(1) The upper workbench and the lower workbench can be exchanged simultaneously, so that the exchange time of the workbench is reduced;

(2) The toothed belt conveying mechanism is stable in conveying, simple in transmission structure and more compact in space;

(3) The locking device which is matched with the pressing plate of the cylinder and the clamping plate of the workbench is more firm and stable in locking;

(4) The arrangement of the cylinder protective cover, the motor deceleration protective cover and the limiting protective cover protects moving parts, so that the safety of the laser cutting machine is improved;

(5) The electric signal module controls the speed reduction and stop of the workbench, so that the high-speed mode and the low-speed mode of the workbench in the exchange stage are controlled more accurately and stopped more stably, the stop precision of the workbench is ensured, the impact is reduced, and the motor equipment and mechanical parts are protected;

(6) The main body frame of the frame part is formed by welding and processing sectional materials, so that the manufacturing cost is low;

(7) The effective stroke between the lower working table and the cutting head is increased, so that the requirement of the laser cutting machine on cutting the bent workpiece can be met.

Drawings

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

Fig. 1 is a schematic structural diagram of an embodiment of a high-low synchronous exchange dual-workbench of a laser cutting machine provided by the present invention;

FIG. 2 is a schematic structural view of an upper table and a lower table of FIG. 1;

FIG. 3 is an enlarged view of portion A of FIG. 2;

FIG. 4 is an exploded view of the upper and lower tables and the work and feeder frames of FIG. 1;

FIG. 5 is a schematic structural view of a driving cylinder and a limiting protective cover on the feeding rack in FIG. 4;

FIG. 6 is an enlarged view of portion B of FIG. 4;

Fig. 7 is an enlarged schematic view of a portion C of fig. 4.

The reference numbers illustrate: 1-a working frame, 11-a first limit shield, 2-a feeding frame, 21-a second limit shield, 3-an upper working table, 31-an upper square frame, 32-an upper pulley, 33-an upper connecting plate, 34-an upper touch plate, 4-a lower working table, 41-a lower square frame, 42-a lower pulley, 43-a lower connecting plate, 44-a lower touch plate, 51-a first upper guide rail, 52-a first lower guide rail, 61-a second upper guide rail, 62-a second lower guide rail, 7-a driving device, 71-a motor, 72-a speed reducer, 73-a toothed belt conveying mechanism, 73 a-a mounting block, 73 b-a toothed shaft, 73 c-an annular toothed belt, 74-a motor speed reducer shield, 8-a locking device, 81-upper clamping plate, 82-lower clamping plate, 83-upper driving cylinder, 83 a-upper pressing plate, 84-lower driving cylinder, 84 a-lower pressing plate, 85-cylinder protective cover, 9-electric signal module, 91-upper speed reducing switch, 92-upper stop switch, 93-lower speed reducing switch and 94-lower stop switch.

The objects, features and advantages of the present invention will be further described with reference to the accompanying drawings.

Detailed Description

It should be noted that, if directional indications (such as upper, lower, left, right, front and rear … …) are involved in the embodiment of the present invention, the directional indications are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indications are changed accordingly.

In addition, if there is a description relating to "first", "second", etc. in the embodiments of the present invention, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated.

The utility model provides a laser cutting machine's two workstations of high-low synchro-exchange, figure 1 to figure 7 are the utility model provides a laser cutting machine's the schematic diagram of two workstations of high-low synchro-exchange embodiment.

Referring to fig. 1 to 3, the high-low synchronous exchange double-workbench of the laser cutting machine includes a work rack 1, a feeding rack 2, and an upper workbench 3 and a lower workbench 4 respectively disposed on the work rack 1 and the feeding rack 2, the work rack 1 is provided with a first upper guide rail 51 and a first lower guide rail 52 which are arranged in parallel up and down, the feeding rack 2 is provided with a second upper guide rail 61 and a second lower guide rail 62 which are arranged in parallel up and down, the upper workbench 3 is respectively in sliding fit with the first upper guide rail 51 and the second upper guide rail 52 for movement, the lower workbench 4 is respectively in sliding fit with the first lower guide rail 52 and the second lower guide rail 62 for movement, the upper workbench 3 and the lower workbench 4 are connected with a driving device 7 for driving the upper workbench 3 and the lower workbench 4 to synchronously shift between the work rack 1 and the feeding rack 2, the driving device 7 includes a motor 71 disposed on the outer side of the rack, The reduction gear 72 connected with the output end of the motor 71 and the toothed belt conveying mechanism connected with the reduction gear 72, the upper workbench 3 and the lower workbench 4 drive the upper workbench 3 and the lower workbench 4 to synchronously shift positions for position exchange by controlling the motor 71 of the driving device 7 to rotate forwards or reversely.

The technical scheme provided in the utility model, two workstations of high-low synchronous exchange of laser cutting machine include work frame 1 and feed frame 2 and divide and locate last workstation 3 and lower workstation 4 on work frame 1 and feed frame 2, be equipped with parallel arrangement's first upper rail 51 and first lower rail 52 from top to bottom on the work frame 1, be equipped with upper and lower parallel arrangement's second upper rail 61 and second lower rail 62 on the feed frame 2, upper workstation 3 moves with first upper rail 51 and second upper rail 52 sliding fit respectively, lower workstation 4 removes with first lower rail 52 and second lower rail 62 sliding fit respectively, upper workstation 3 and lower workstation 4 are connected with drive arrangement 7, drive upper workstation 3 and lower workstation 4 shift in step between work frame 1 and feed frame 2, drive arrangement 7 is including motor 71, the motor that locates the frame lateral surface, The reduction gear 72 connected with the output end of the motor 71 and the toothed belt conveying mechanism connected with the reduction gear 72, the upper workbench 3 and the lower workbench 4 drive the upper workbench 3 and the lower workbench 4 to synchronously shift positions for position exchange by controlling the motor 71 of the driving device 7 to rotate forwards or reversely. Compared with the traditional mechanical or hydraulic lifting type exchange workbench, the mechanism can realize synchronous exchange of the upper workbench and the lower workbench 44, saves the exchange time of the two workbenches, has less preparation time, saves working hours, has higher and more stable cutting efficiency, improves the working efficiency of the laser cutting machine, has lower manufacturing cost because the main framework of the mechanism is only formed by welding section bars, and has the characteristics of simple transmission structure, stable performance and low failure rate.

In this embodiment, referring to fig. 2, 4 and 6, the toothed belt conveying mechanism 73 includes a mounting block 73a fixed to the lower table 4, two toothed shafts 73b respectively disposed on a rotating shaft of the speed reducer 72 and the mounting block 73a of the lower table 4, and an annular toothed belt 73c meshed with the two toothed shafts 73 b; the upper workbench 3 comprises an upper square frame 31, the lower workbench 4 comprises a lower square frame 41, upper pulleys 32 are arranged on two sides of the upper square frame 31, an upper connecting plate 33 is arranged on one side close to the annular toothed belt 73c, lower pulleys 42 are arranged on two sides of the lower square frame 41, a lower connecting plate 43 is arranged on one side close to the annular toothed belt 73c, the upper connecting plate 33 and the lower connecting plate 43 are respectively arranged on the inner side and the outer side of the annular toothed belt 73c, the upper pulleys 32 are slidably arranged on a first upper guide rail 51 and a second upper guide rail 61 to form a traveling mechanism, and the lower pulleys 42 are slidably arranged on a first lower guide rail 52 and a second lower guide rail 62 to form a traveling mechanism. Specifically, each of the upper pulleys 32 and the lower pulleys 42 includes two pulleys, and the interval between the first upper rail 51 and the second upper rail 61 and the interval between the first lower rail 62 and the second lower rail 62 are smaller than the interval between the two pulleys, so that the upper table 3 slides back and forth on the first upper rail 51 and the second upper rail 61, and the lower table 4 slides back and forth on the second lower rail 62 and the first lower rail.

in this embodiment, referring to fig. 2 and 3, the high-low synchronous exchange dual working table of the laser cutting machine further includes a locking device 8, the locking device 8 includes an upper clamping plate 81 disposed on the upper working table 3, a lower clamping plate 82 disposed on the lower working table 4, and an upper driving cylinder 83 and a lower driving cylinder 84 respectively disposed at two ends of the feeding frame 2, the telescopic ends of the upper driving cylinder 83 and the lower driving cylinder 84 are correspondingly provided with an upper pressing plate 83a and a lower pressing plate 84a, the upper pressing plate 83a and the lower pressing plate 84a are respectively hooked and abutted with the upper clamping plate 81 and the lower clamping plate 82 to lock the upper working table 3 and the lower working table 4, specifically, the upper clamping plate 81 and the lower clamping plate 82 are both arranged in an L shape, the upper clamping plate 81 is fixed on the outer side surface of the upper square frame 31 and is bent outward, the lower clamping plate 82 is fixed on the outer side surface of the lower square frame 41 and is bent inward, the telescopic ends of the upper driving cylinder 83 and the lower driving cylinder 84 are both arranged in an L shape to be abutted with the upper clamping plate 81 and the lower clamping plate 82 to lock the upper working table 3 and the lower working table 4.

In this embodiment, referring to fig. 5, a cylinder protective cover 85 is disposed on an outer cover of a driving cylinder of the locking device 8 to protect a moving part, so that the safety of the laser cutting machine is improved.

In this embodiment, referring to fig. 4, a motor reducer protective cover 74 is disposed outside the motor 71 and the reducer 72 of the driving device 7 to protect moving parts, so as to improve the safety of the laser cutting machine.

In this embodiment, referring to fig. 4, the ends of the working rack 1 and the feeding rack 2 are respectively provided with a first limiting protection cover 11 and a second limiting protection cover 21.

In this embodiment, referring to fig. 4 and 7, the feeding frame 2 is provided with an electrical signal module 9 for controlling the deceleration and stop of the lower workbench 4 and the upper workbench 3, and an upper deceleration switch 91, an upper stop switch 92, a lower deceleration switch 93 and a lower stop switch 94 electrically connected to the electrical signal module 9; the shifting-out end of the upper square frame 31 of the upper workbench 3 is provided with an upper touch plate 34, the shifting-out end of the lower square frame 41 of the lower workbench 4 is provided with a lower touch plate 44, when the upper workbench 3 shifts and moves to the feeding rack 2, the upper touch plate 34 successively triggers an upper speed reducing switch 91 and an upper stop switch 92 and then stops, and when the lower workbench 4 shifts and moves to the feeding rack 2, the lower touch plate 44 successively triggers a lower speed reducing switch 93 and a lower stop switch 94 and then stops.

the working principle of the high-low synchronous exchange double working tables of the laser cutting machine is that when the machine tool needs to exchange the working tables (an automatic exchange mode or a manual exchange mode is arranged on a system), the machine tool sends out related instructions, after the machine tool P L C obtains the instructions, the locking device 8 of the working tables acts, the pressing plate of the driving air cylinder releases the clamping plate of the working tables to release the working tables, when the sensor of the driving air cylinder detects that the driving air cylinder is released, a working table movement instruction is sent out, when the upper working table 3 is outside the machine tool and the lower working table 4 is inside the machine tool, a motor 71 forward rotation instruction is sent out, when the upper working table 3 is inside the machine tool and the lower working table 4 is outside the machine tool, a motor 71 reverse rotation instruction is sent out, after the frequency converter receives the forward rotation instruction or reverse rotation instruction, the working tables are controlled to move at a low speed for a period of time firstly, the working tables are accelerated to a high speed (a high speed is set in the frequency converter in advance), the working tables move at a speed, the speed is controlled to move on corresponding guide rails respectively, when the end of the trigger plate of the detection signal unit, the frequency converters immediately, the working tables are switched to the low speed, the working tables to stop the working tables, and the working tables immediately, the working tables are switched to move at the low speed when the working tables, the working.

The above only is the preferred embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structure changes made by the contents of the specification and the drawings under the inventive concept of the present invention, or the direct/indirect application in other related technical fields are included in the patent protection scope of the present invention.

Claims (7)

1. The utility model provides a laser cutting machine's high-low synchro-exchange double worktable, includes work frame and material loading frame and divide and locate last workstation and lower workstation on work frame and the material loading frame, its characterized in that: a first upper guide rail and a first lower guide rail which are arranged in parallel up and down are arranged on the working rack, a second upper guide rail and a second lower guide rail which are arranged in parallel up and down are arranged on the feeding rack, the upper workbench is respectively matched with the first upper guide rail and the second upper guide rail to move in a sliding way, the lower workbench is respectively matched with the first lower guide rail and the second lower guide rail to move in a sliding way, the upper workbench and the lower workbench are connected with a driving device to drive the upper workbench and the lower workbench to synchronously shift between the workbench frame and the feeding frame, the driving device comprises a motor arranged on the outer side surface of the frame, a speed reducer connected with the output end of the motor, and a toothed belt conveying mechanism connected with the speed reducer, the upper workbench and the lower workbench, the upper workbench and the lower workbench are driven to synchronously shift positions for position exchange by controlling the motor of the driving device to rotate forwards or reversely.

2. The high-low synchronous exchange double-workbench of the laser cutting machine as claimed in claim 1, wherein: the toothed belt conveying mechanism comprises a mounting block fixed on the lower workbench, two toothed shafts respectively arranged on a rotating shaft of the speed reducer and the mounting block of the lower workbench, and an annular toothed belt meshed with the two toothed shafts;

The upper workbench comprises an upper square frame, the lower workbench comprises a lower square frame, upper pulleys are arranged on two sides of the upper square frame and close to one side of the annular toothed belt, an upper connecting plate is arranged on two sides of the lower square frame and close to one side of the annular toothed belt, lower connecting plates are arranged on two sides of the lower square frame and close to one side of the annular toothed belt, the upper connecting plate and the lower connecting plate are respectively arranged on the inner side and the outer side of the annular toothed belt, the upper pulleys are slidably mounted on the first upper guide rail and the second upper guide rail to form a traveling mechanism, and the lower pulleys are slidably mounted on the first lower guide rail and the second lower guide rail to form a traveling mechanism.

3. The high-low synchronous exchange double-workbench of the laser cutting machine as claimed in claim 1, wherein: still include locking device, locking device is including locating last pinch-off blades on the last workstation, locate down the lower pinch-off blades on the workstation and divide and locate on the feed rack both ends drive actuating cylinder and drive actuating cylinder down, and the flexible end correspondence that drives actuating cylinder on and drive actuating cylinder both down is equipped with pinch-off blades and lower pinch-off blades, go up pinch-off blades and lower pinch-off blades and be used for colluding with last pinch-off blades and lower pinch-off blades respectively and detain the counterbalance, with inciting somebody to action last workstation and lower workstation locking.

4. The high-low synchronous exchange double-workbench of the laser cutting machine as claimed in claim 3, wherein: and a cylinder protective cover is arranged on the outer cover of the driving cylinder of the locking device.

5. The high-low synchronous exchange double-workbench of the laser cutting machine as claimed in claim 1, wherein: and a motor and reducer shield of the driving device is arranged outside the reducer and the motor.

6. The high-low synchronous exchange double-workbench of the laser cutting machine as claimed in claim 1, wherein: the end of the working rack and the end of the feeding rack are respectively provided with a first limiting protective cover and a second limiting protective cover.

7. The high-low synchronous exchange double-workbench of the laser cutting machine as claimed in claim 1, wherein: the feeding frame is provided with an electric signal module for controlling the deceleration and stop of the lower workbench and the upper workbench, and an upper deceleration switch, an upper stop switch, a lower deceleration switch and a lower stop switch which are electrically connected with the electric signal module;

The upper workbench is characterized in that an upper touch plate is arranged at the shifting-out end of the upper square frame of the upper workbench, a lower touch plate is arranged at the shifting-out end of the lower square frame of the lower workbench, the upper touch plate successively triggers the upper speed reducing switch and the upper stop switch to stop when the upper workbench or the lower workbench is transposed and moved to the feeding frame, and the lower touch plate successively triggers the lower speed reducing switch and the lower stop switch to stop.

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