CN219767126U - Lifting door of laser cutting machine - Google Patents

Abstract

The utility model relates to the technical field of laser cutting machines, in particular to a lifting door of a laser cutting machine, which comprises a frame supporting component, a lifting door component and a power component, wherein the lifting door component is arranged on the inner side of the frame supporting component, the frame supporting component comprises a vertical column which is vertically arranged, the vertical column is provided with a mounting groove which extends along the axial direction of the vertical column, and the power component is arranged in the mounting groove and can drive the lifting door component to move up and down along the vertical column. According to the lifting door of the laser cutting machine, the power component of the whole lifting door component is integrated in the mounting groove through the mounting groove structure on the upright post, so that the lifting function of the door is realized, the upper space and the front space of the machine are not occupied, and the cost is greatly reduced.

Description

Lifting door of laser cutting machine

Technical Field

The utility model relates to the technical field of laser cutting machines, in particular to a lifting door of a laser cutting machine.

Background

In the prior art, part of the laser cutting machine is used for feeding at the front door, and the front door is lifted by adopting a motor speed reducer integrated machine and a transmission shaft winch steel cable (or through a chain wheel chain and other structures), so that the aim of subsequent feeding is fulfilled.

Although the driving structure can achieve the effect of flexibly lifting the front door, the lifting system of the front door such as a motor speed reducer and the like needs to occupy a large amount of upper space and front space of the machine, so that the problem of insufficient space exists when the machine head is adapted to a scanning cutting machine head in the follow-up process, and the poor adaptability of the laser cutting machine is caused, so that the laser cutting machine is not friendly to use.

Disclosure of Invention

The utility model provides a lifting door of a laser cutting machine, aiming at the problem that the lifting driving system of the front door of the laser cutting machine occupies the upper space of the machine to cause insufficient space.

In order to achieve the above purpose, the technical scheme includes that the lifting door of the laser cutting machine comprises a frame supporting component, a lifting door component and a power component, wherein the lifting door component is arranged on the inner side of the frame supporting component, the frame supporting component comprises a vertical column which is vertically arranged, a mounting groove which extends along the axial direction of the vertical column is formed in the vertical column, and the power component is arranged in the mounting groove and can drive the lifting door component to move up and down along the vertical column. Through the mounting groove structure on the stand, with the power component integration of whole lift door subassembly in the mounting groove, when realizing the lift function of door, do not occupy the upper portion space and the front portion space of machine, the cost has obtained very big reduction moreover.

Preferably, the power assembly comprises a cylinder and a transmission part, wherein the cylinder is fixed in the mounting groove, and the cylinder drives the lifting door assembly to move up and down along the upright post through the transmission part. The adoption of the air cylinder can realize the lifting function and greatly reduce the cost.

Preferably, the transmission part comprises a guide rail and a sliding block, the guide rail is arranged in one of the mounting groove and the lifting door assembly, and the sliding block is arranged in the other of the mounting groove and the lifting door assembly; the guide rail is in sliding connection with the sliding block. The combined structure of the guide rail and the sliding block is stable, and the travel track of the up-and-down motion of the lifting door component can be restrained.

Preferably, the sliding block is fixed in the mounting groove, the guide rail is fixed in the lifting door assembly, the driving rod of the air cylinder is connected with the guide rail, and the air cylinder can drive the guide rail to drive the lifting door assembly to move up and down. The sliding block is fixed in the mounting groove, so that the travel track of the guide rail can be restrained, and the stability of the up-and-down movement of the lifting door component is ensured.

Preferably, the guide rail is also fixed with a guide rail connecting plate, and the driving rod of the air cylinder is connected with the guide rail through the guide rail connecting plate. The guide rail connecting plate mainly plays a role in connecting a driving rod of the air cylinder and the guide rail.

Preferably, the lifting door assembly comprises a lifting door and a lifting door connecting plate, and the lifting door is connected with the power assembly through the lifting door connecting plate. The lifting door connecting plate mainly plays a role in connecting the lifting door and the guide rail.

Preferably, the mounting groove is internally fixed with an upper cylinder fixing seat and a lower cylinder fixing seat, and the cylinder is fixed in the mounting groove through the cylinder fixing seat. The cylinder fixing seats are used for fixing the cylinder, so that the steady state of the cylinder during working can be ensured.

Preferably, the lifting door assembly further comprises an upper fixed door and a lower fixed door, the upper fixed door is fixed on the inner side of the upright post, the lower fixed door is fixed on the inner side of the upright post, the upper fixed door is located above the lower fixed door, a gap is formed between the upper fixed door and the lower fixed door, and the lifting door can move upwards or downwards to close or open the gap.

Preferably, the frame support assembly further comprises an upper beam, the upright posts comprise a left upright post and a right upright post, the upper beam is connected with the left upright post and the right upright post and is positioned above the left upright post and the right upright post, and the lifting door assembly is arranged between the left upright post and the right upright post.

Preferably, an upper magnetic switch and a lower magnetic switch are further fixed in the mounting groove, and the magnetic switch can trigger the switch of the air cylinder in a state that the air cylinder drives the lifting door assembly to move up and down. The speed reduction function during the ascending and descending of the lifting door can be realized through the triggering of the two magnetic switches.

The beneficial effects of the utility model are as follows:

according to the lifting door of the laser cutting machine, the power component of the whole lifting door component is integrated in the mounting groove through the mounting groove structure on the upright post, so that the lifting function of the door is realized, the upper space and the front space of the machine are not occupied, and the cost is greatly reduced.

Drawings

In order to more clearly illustrate the technical solutions of the present utility model, the drawings that are needed in the description will be briefly introduced below, it being obvious that the drawings in the following description are only some embodiments of the present utility model, and that other drawings can be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic perspective view of a lifting door of a laser cutting machine according to the present utility model.

Fig. 2 is an enlarged view of the structure at a in fig. 1.

In the figure: 1. left stand, 2, entablature, 3, right stand, 4, go up fixed door, 5, lower fixed door, 6, lift door, 7, cylinder, 8, guide rail connecting plate, 9, guide rail, 10, slider, 11, cylinder fixing base, 12, lift door connecting plate.

Detailed Description

In order to make the objects, features and advantages of the present utility model more obvious and understandable, the technical solutions of the present utility model will be clearly and completely described below with reference to the drawings in this specific embodiment, and it is apparent that the embodiments described below are only some embodiments of the present utility model, but not all embodiments of the present utility model. All other embodiments, based on the embodiments in this patent, which would be within the purview of one of ordinary skill in the art without the particular effort to make the utility model are intended to be within the scope of the patent protection.

As shown in fig. 1 to 2, in the embodiment, the lifting door of the laser cutting machine provided by the utility model comprises a frame supporting component, a lifting door component and a power component, wherein the lifting door component is arranged on the inner side of the frame supporting component, the frame supporting component comprises a vertical column which is vertically arranged, the vertical column is provided with a mounting groove which extends along the axial direction of the vertical column, and the power component is arranged in the mounting groove and can drive the lifting door component to move up and down along the vertical column. Specifically, the frame support assembly still includes entablature 2, and the stand includes left stand 1 and right stand 3, and entablature 2 connects left stand 1 and right stand 3 and is located left stand 1 and right stand 3 top, and the lift door subassembly sets up between left stand 1 and right stand 3, and left stand 1 and right stand 3 optional C shape stand, and C shape stand has the mounting groove of C shape. Through the mounting groove structure on the stand, with the power component integration of whole lift door subassembly in the mounting groove, when realizing the lift function of door, do not occupy the upper portion space and the front portion space of machine, the cost has obtained very big reduction moreover.

As shown in fig. 1 to 2, the power assembly comprises a cylinder 7 and a transmission part, the cylinder 7 is fixed in the installation groove, the cylinder 7 drives the lifting door assembly to move up and down along the upright post through the transmission part, and the cost can be greatly reduced while the lifting function is realized by adopting the cylinder. Specifically, the transmission part comprises a guide rail 9 and a sliding block 10, wherein the guide rail 9 is arranged in one of the mounting groove and the lifting door assembly, and the sliding block 10 is arranged in the other of the mounting groove and the lifting door assembly; the guide rail 9 is slidingly connected with the slide block 10. The combined structure of the guide rail 9 and the sliding block 10 is stable, and the travel track of the up-and-down motion of the lifting door assembly can be restrained. Wherein, two upper and lower cylinder fixing bases 11 are fixed in the mounting groove, and cylinder 7 is fixed in the mounting groove through cylinder fixing base 11. The cylinder 7 is fixed by adopting the upper cylinder fixing seat 11 and the lower cylinder fixing seat 11, so that the steady state of the cylinder 7 during working can be ensured.

As shown in the figure, in this embodiment, the slider 10 is fixed in the installation groove, the guide rail 9 is fixed in the lift gate assembly, the actuating lever of the cylinder 7 is connected with the guide rail 9, and the cylinder 7 can drive the guide rail 9 to drive the lift gate assembly to move up and down. The sliding block 10 is fixed in the mounting groove, so that the travel track of the guide rail 9 can be restrained, and the stability of the up-and-down movement of the lifting door component is ensured. The guide rail 9 is also fixed with a guide rail connecting plate 8, and the driving rod of the air cylinder 7 is connected with the guide rail 9 through a guide rail connecting plate 12. The guide rail connecting plate 8 mainly plays a role of connecting a driving rod of the air cylinder 7 with the guide rail 9.

As shown in fig. 1 to 2, the lift gate assembly includes an upper fixed gate 4, a lower fixed gate 5, a lift gate 6, and a lift gate connecting plate 12, the lift gate 6 being connected with a guide rail 9 in the power assembly through the lift gate connecting plate 12. The lifting door connecting plate 12 mainly plays a role in connecting the lifting door 6 with the guide rail 9; the upper fixed door 4 is fixed on the inner side of the upright post, the lower fixed door 5 is fixed on the inner side of the upright post, the upper fixed door 4 is positioned above the lower fixed door 5, a gap is reserved between the upper fixed door 4 and the lower fixed door 5, and the lifting door 6 can move upwards or downwards to close or open the gap.

In another embodiment, the transmission mode can be changed into a mode that the air cylinder 7 drives the sliding block 10, the guide rail 9 is fixed in the left upright 1 and the right upright 3, the driving rod of the air cylinder 7 is fixed with the sliding block 10, and the lifting door 6 is also connected with the sliding block 10 through a connecting piece, so that the air cylinder 7 transmits power to the lifting door 6. Other structures may remain unchanged.

Meanwhile, an upper magnetic switch and a lower magnetic switch are fixed in the mounting groove, and the magnetic switch can trigger the switch of the air cylinder 7 under the state that the air cylinder 7 drives the lifting door component to move up and down. The deceleration function during the ascending and descending of the lifting door 6 can be realized by triggering the two magnetic switches.

As shown in fig. 1 to 2, the working principle of the lifting door of the laser cutting machine is as follows:

the lifting door of the laser cutting machine comprises a door opening process and a door closing process.

Descent process (door opening process): a descending inching switch on the inching screen is inched, the cylinder 7 drives the lifting door 6 to move through the guide rail 9, when the cylinder 7 descends to a magnetic switch below, the switch of the cylinder 7 is triggered, the cylinder 7 decelerates, and the lifting door 6 decelerates; and the lifting door 6 continues to descend until reaching the maximum stroke of the air cylinder 7, and the lifting door is opened.

Ascending process (door closing process): when the lifting switch on the screen is clicked, the cylinder 7 drives the lifting door 6 to move through the guide rail 9, and the cylinder 7 is lifted to the magnetic switch above, the switch of the cylinder 7 is triggered, the cylinder 7 is decelerated, and the lifting door 6 is decelerated; and the lifting door continues to lift until the maximum stroke of the air cylinder 7 is reached, and the lifting door 6 is closed.

The beneficial effects of the utility model are as follows:

according to the lifting door of the laser cutting machine, the power component of the whole lifting door component is integrated in the mounting groove through the mounting groove structure on the upright post, so that the lifting function of the door is realized, the upper space and the front space of the machine are not occupied, and the cost is greatly reduced.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present utility model. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the utility model. Thus, the present utility model is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. The utility model provides a laser cutting machine lift gate, includes frame support subassembly, lift gate subassembly and power component, the lift gate subassembly set up in the inboard of frame support subassembly, its characterized in that, frame support subassembly includes the stand of vertical setting, the stand is provided with along its axial extension's mounting groove, power component set up in the mounting groove and can drive the lift gate subassembly is followed the stand up-and-down motion.

2. The laser cutting machine lifting door of claim 1, wherein the power assembly comprises a cylinder and a transmission component, the cylinder is fixed in the mounting groove, and the cylinder drives the lifting door assembly to move up and down along the upright post through the transmission component.

3. The laser cutter lift gate of claim 2, wherein the transmission member includes a guide rail disposed in one of the mounting slot and the lift gate assembly and a slider disposed in the other of the mounting slot and the lift gate assembly; the guide rail is in sliding connection with the sliding block.

4. The laser cutting machine lift gate of claim 3, wherein the slider is fixed in the mounting groove, the guide rail is fixed in the lift gate assembly, the driving rod of the air cylinder is connected with the guide rail, and the air cylinder can drive the guide rail to drive the lift gate assembly to move up and down.

5. The lift gate of claim 4, wherein the guide rail is further fixed with a guide rail connecting plate, and the driving rod of the cylinder is connected with the guide rail through the guide rail connecting plate.

6. The laser cutter lift gate of claim 1 or 4, wherein the lift gate assembly comprises a lift gate and a lift gate connection plate, the lift gate being connected to the power assembly by the lift gate connection plate.

7. The lifting door of the laser cutting machine according to claim 2, wherein an upper cylinder fixing seat and a lower cylinder fixing seat are fixed in the mounting groove, and the cylinder is fixed in the mounting groove through the cylinder fixing seat.

8. The laser cutter lift gate of claim 6, wherein the lift gate assembly further comprises an upper fixed gate fixed to an inner side of the upright and a lower fixed gate fixed to an inner side of the upright, the upper fixed gate being positioned above the lower fixed gate with a gap therebetween, the lift gate being movable upward or downward to close or open the gap.

9. The laser cutter lift gate of claim 1, wherein the frame support assembly further comprises an upper cross member, the uprights including a left upright and a right upright, the upper cross member connecting the left upright and the right upright and being positioned above the left upright and the right upright, the lift gate assembly being disposed between the left upright and the right upright.

10. The lifting door of the laser cutting machine according to claim 2, wherein an upper magnetic switch and a lower magnetic switch are further fixed in the mounting groove, and the magnetic switch can trigger the switch of the air cylinder in a state that the air cylinder drives the lifting door component to move up and down.