CN213857559U - Plasma cutting machine for metal slat - Google Patents

Abstract

The utility model provides a plasma cutting machine for metal ribbon board, which comprises a main machine outer cover, a positioning support mechanism, a support conveying mechanism, an auxiliary support mechanism and a cutting mechanism, wherein one side of the main machine outer cover is provided with a feed inlet, and the other side is provided with a discharge outlet; the positioning and supporting mechanism is positioned at the feed inlet and used for positioning and supporting the metal strip plate, and the supporting and conveying mechanism is positioned at the discharge outlet and used for supporting the metal strip plate and conveying the metal strip plate forwards; the auxiliary supporting mechanism can be supported below the metal lath when extending into the cutting area; the cutting mechanism comprises a cross beam and a cutting manipulator, and the cutting manipulator is provided with a plasma cutting torch for cutting the metal lath and a laser sensor for detecting deviation of the surface contour of the metal lath. The beneficial effects of the utility model reside in that: through the utility model discloses can realize carrying out automatic cutout to the metal slat, improve efficiency, practice thrift the manual work.

Description

Plasma cutting machine for metal slat

Technical Field

The utility model relates to a plasma cutting machine for metal slat.

Background

In the prior art, manual operation is mostly adopted when the metal lath is cut, so that the efficiency is low and the labor is wasted. At present, no device equipment specially used for cutting the metal strip plate exists.

Disclosure of Invention

An object of the utility model is to provide a plasma cutting machine for metal slat, it can solve the technical problem who mentions in the background art.

In order to achieve the above purpose, the technical solution of the present invention is as follows:

a plasma cutting machine for metal laths comprises a main machine outer cover, a positioning support mechanism, a support conveying mechanism, an auxiliary support mechanism and a cutting mechanism, wherein a feeding hole is formed in one side of the main machine outer cover, and a discharging hole is formed in the other side of the main machine outer cover;

the positioning and supporting mechanism is positioned at the feeding port and used for positioning and supporting the metal laths, and the supporting and conveying mechanism is positioned at the discharging port and used for supporting the metal laths and conveying the metal laths forwards;

a cutting area for cutting and processing the metal lath is formed between the positioning support mechanism and the support conveying mechanism, the auxiliary support mechanism is positioned at the rear side of the cutting area and driven by the auxiliary support driving mechanism to extend into or move out of the cutting area, and the auxiliary support mechanism can be supported below the metal lath when extending into the cutting area;

the cutting mechanism comprises a cross beam arranged at the top in the main machine outer cover and a cutting manipulator arranged on the cross beam, wherein the cutting manipulator is provided with a plasma cutting torch for cutting a metal strip plate and a laser sensor for detecting the deviation of the surface profile of the metal strip plate.

Preferably, the supporting and conveying mechanism comprises a left supporting frame, a left supporting roller and a conveying driving mechanism, the left supporting roller is longitudinally rotatably arranged on the left supporting frame, the conveying driving mechanism drives the left supporting roller to rotate, a pressing frame is arranged above the left supporting frame and is driven by the pressing driving mechanism to move up and down, a pressing roller is longitudinally rotatably arranged at the lower end of the pressing frame, and a positioning block is further arranged on the left supporting frame.

Preferably, the positioning and supporting mechanism comprises a right supporting frame, a right supporting roller longitudinally and rotatably arranged on the right supporting frame, and a clamping beam longitudinally arranged on the right supporting frame, a movable clamping block is slidably arranged on the clamping beam, a fixed clamping block opposite to the movable clamping block is arranged on the right supporting frame, a clamping space for the metal lath is formed between the movable clamping block and the fixed clamping block, and the movable clamping block is driven by a clamping block driving mechanism to move.

Preferably, the auxiliary supporting mechanism comprises an auxiliary supporting frame, at least one auxiliary supporting roller longitudinally and rotatably arranged on the auxiliary supporting frame, an auxiliary rotating driving mechanism for driving the auxiliary supporting roller to rotate, and an auxiliary lifting driving mechanism for driving the auxiliary supporting roller to lift, wherein the auxiliary supporting driving mechanism is arranged on the auxiliary supporting frame and drives the auxiliary supporting roller to extend into or move out of the cutting area.

Preferably, a material collecting trolley is further arranged below the cutting area.

Preferably, the top and the bottom of the main machine outer cover are respectively provided with an upper dust suction air duct and a lower dust suction air duct.

Compared with the prior art, the beneficial effects of the utility model reside in that: through the utility model discloses can realize carrying out automatic cutout to the metal slat, improve efficiency, practice thrift the manual work.

Drawings

Fig. 1 is a front view of the present invention.

Fig. 2 is a plan view of the present invention.

Fig. 3 is a cross-sectional view of the present invention.

Fig. 4 is a partial cross-sectional view of the present invention.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

As shown in fig. 1-4, the utility model provides a plasma cutting machine for metal slat, including host computer dustcoat 1, one side of this host computer dustcoat is equipped with the feed inlet, and the opposite side is equipped with the discharge gate, still includes location supporting mechanism 2, supports conveying mechanism 3, supplementary supporting mechanism 4 and cutting mechanism.

The positioning and supporting mechanism 2 is positioned at the feeding port and used for positioning and supporting metal strips, and the supporting and conveying mechanism 3 is positioned at the discharging port and used for supporting the metal strips and conveying the metal strips forwards.

A cutting area for cutting and processing the metal lath is formed between the positioning and supporting mechanism 2 and the supporting and conveying mechanism 3, the auxiliary supporting mechanism 4 is positioned at the rear side of the cutting area and driven by the auxiliary supporting and driving mechanism to extend into or move out of the cutting area, and the auxiliary supporting mechanism 4 can be supported below the metal lath when extending into the cutting area;

the cutting mechanism comprises a cross beam 5 arranged at the top in the main machine outer cover 1 and a cutting manipulator 6 arranged on the cross beam, wherein the cutting manipulator is provided with a plasma cutting torch 7 used for cutting a metal lath and a laser sensor 43 used for detecting the deviation of the surface contour of the metal lath.

The utility model relates to a closed processing unit, when using, the metal slat is sent into the host computer dustcoat 1 from the feed inlet under the transport of external feeding mechanism, the auxiliary supporting mechanism 4 stretches into the cutting area and is opposite to the positioning supporting mechanism 2 and the supporting conveying mechanism 3 under the drive of the auxiliary supporting driving mechanism, the metal slat is positioned on the supporting conveying mechanism 3 after passing through the positioning supporting mechanism 2 and the auxiliary supporting mechanism 4 in sequence, the auxiliary supporting mechanism 4 is used for supporting the metal slat and helping the metal slat to arrive on the supporting conveying mechanism 3 smoothly, then the auxiliary supporting mechanism 4 exits the cutting area under the drive of the auxiliary supporting driving mechanism, then the positioning supporting mechanism 2 and the supporting conveying mechanism 3 clamp and position the metal slat, then the control system of the plasma cutting machine detects the deviation of the surface profile of the metal slat under the drive of the cutting manipulator according to the processing sequence of the metal slat jacking parts, and the detection result is fed back to the control system, the control system corrects the cutting process parameters in real time according to the deviation value to ensure the precision of the cut part, then the plasma cutting torch 7 cuts and processes the metal lath under the drive of the cutting manipulator 6, and after the cutting is finished, the support conveying mechanism 3 sends the cut metal part out of the discharge hole, and the cutting processing of the next metal part can be carried out.

Preferably, the supporting and conveying mechanism 3 includes a left supporting frame 31, a left supporting roller 32 longitudinally rotatably disposed on the left supporting frame, and a conveying driving mechanism for driving the left supporting roller to rotate, the conveying driving mechanism is generally implemented by using a motor or other mechanisms, a pressing frame 33 is disposed above the left supporting frame 31, the pressing frame is driven by the pressing driving mechanism to move up and down, the pressing driving mechanism is generally implemented by using an air cylinder or other mechanisms such as an oil cylinder, an electric push rod, and a screw rod mechanism, a lower pressing roller 34 is longitudinally rotatably disposed at the lower end of the pressing frame, and a positioning block 35 is further disposed on the left supporting frame 31. When the metal lath is conveyed to the supporting and conveying mechanism 3, one side of the metal lath is positioned by abutting against the positioning block 35, the pressing-down driving mechanism drives the pressing frame 33 to move downwards, the pressing-down roller 34 is pressed on the upper side of the metal lath, the left supporting roller 32 is supported on the lower side of the metal lath, the pressing-down roller 34 is matched with the left supporting roller 32 to clamp the metal lath, the metal lath can be cut and processed, after the cutting and processing are completed, the pressing-down driving mechanism drives the pressing frame 33 and the pressing-down roller 34 to move upwards, the conveying driving mechanism drives the left supporting roller 32 to rotate, and the cut metal lath can be sent out from the discharge hole.

Preferably, the positioning and supporting mechanism 2 includes a right supporting frame 21, a right supporting roller 22 longitudinally rotatably disposed on the right supporting frame, and a clamping beam 23 longitudinally disposed on the right supporting frame, a movable clamping block 24 is slidably disposed on the clamping beam, a fixed clamping block 25 opposite to the movable clamping block is disposed on the right supporting frame, a clamping space for the metal lath is formed between the movable clamping block and the fixed clamping block, the movable clamping block is driven by a clamping block driving mechanism 26 to move, the clamping block driving mechanism generally adopts an air cylinder, and can also adopt other mechanisms such as an oil cylinder, an electric push rod, a screw rod mechanism, and the like. When the metal lath is positioned on the positioning support mechanism 2 under the conveying of the external feeding mechanism, the metal lath passes through the clamping space between the movable clamping block 24 and the fixed clamping block 25, the right supporting roller 22 is supported at the lower side of the metal lath, and the metal lath can smoothly move forwards because the right supporting roller can rotate, and after the metal lath is conveyed in place, the clamping block driving mechanism 26 drives the movable clamping block 24 to be close to the fixed clamping block 25 so as to clamp the metal lath in the clamping space, so that the metal lath can be cut and processed.

Preferably, the auxiliary supporting mechanism 4 includes an auxiliary supporting frame 41, at least one auxiliary supporting roller 42 longitudinally and rotatably disposed on the auxiliary supporting frame, an auxiliary rotating driving mechanism for driving the auxiliary supporting roller to rotate, and an auxiliary lifting driving mechanism for driving the auxiliary supporting roller to lift, the auxiliary supporting driving mechanism is disposed on the auxiliary supporting frame 4 and drives the auxiliary supporting roller 42 to extend into or move out of the cutting area, the auxiliary rotating driving mechanism is generally implemented by a motor or other mechanisms, and the auxiliary lifting driving mechanism and the auxiliary supporting driving mechanism are generally implemented by an air cylinder or other mechanisms such as an oil cylinder, an electric push rod, a screw rod mechanism, etc. When the metal lath cutting device is used, the auxiliary supporting driving mechanism drives the auxiliary supporting roller 42 to extend into the cutting area, the auxiliary supporting roller 42 is supported below the metal lath, the auxiliary rotating driving mechanism drives the auxiliary supporting roller 42 to rotate, so that the metal lath can smoothly pass through the cutting area, after the metal lath is conveyed in place, the auxiliary lifting driving mechanism drives the auxiliary supporting roller 42 to move downwards, the auxiliary supporting driving auxiliary supporting roller moves out of the cutting area, the metal lath can be cut, the auxiliary supporting roller moves downwards firstly and then moves out of the cutting area, and the metal lath can be prevented from being pulled when the auxiliary supporting roller moves out of the cutting area.

Preferably, an aggregate trolley is further arranged below the cutting area, and waste materials generated by cutting can be collected in the aggregate trolley.

Preferably, the top and the bottom of the main machine outer cover are respectively provided with an upper dust suction air duct and a lower dust suction air duct. Because a large amount of dust and smoke dust can be produced in the plasma cutting process, the upper dust absorption air duct and the lower dust absorption air duct can absorb and convey the dust and the smoke dust to a dust removal system for filtering and purifying, and the processing area can meet the environmental protection requirements of a factory.

While the embodiments of the invention have been disclosed above, it is not limited to the applications set forth in the description and embodiments, but is capable of being applied in all kinds of fields adapted to the invention, and further modifications may readily be made by those skilled in the art, and the invention is therefore not limited to the details shown and described herein, without departing from the general concept defined by the claims and their equivalents.

Claims (6)

1. The utility model provides a plasma cutting machine for metal slat, includes the host computer dustcoat, and one side of this host computer dustcoat is equipped with the feed inlet, and the opposite side is equipped with discharge gate, its characterized in that: the device also comprises a positioning support mechanism, a support conveying mechanism, an auxiliary support mechanism and a cutting mechanism;

the positioning and supporting mechanism is positioned at the feeding port and used for positioning and supporting the metal laths, and the supporting and conveying mechanism is positioned at the discharging port and used for supporting the metal laths and conveying the metal laths forwards;

a cutting area for cutting and processing the metal lath is formed between the positioning support mechanism and the support conveying mechanism, the auxiliary support mechanism is positioned at the rear side of the cutting area and driven by the auxiliary support driving mechanism to extend into or move out of the cutting area, and the auxiliary support mechanism can be supported below the metal lath when extending into the cutting area;

the cutting mechanism comprises a cross beam arranged at the top in the main machine outer cover and a cutting manipulator arranged on the cross beam, wherein the cutting manipulator is provided with a plasma cutting torch for cutting a metal strip plate and a laser sensor for detecting the deviation of the surface profile of the metal strip plate.

2. The plasma cutter for metal laths according to claim 1, wherein: the supporting and conveying mechanism comprises a left supporting frame, a left supporting roller and a conveying driving mechanism, the left supporting roller is arranged on the left supporting frame in a longitudinal rotating mode, the conveying driving mechanism drives the left supporting roller to rotate, a pressing frame is arranged above the left supporting frame and driven by the pressing driving mechanism to move up and down, a lower pressing roller is arranged at the lower end of the pressing frame in a longitudinal rotating mode, and a positioning block is further arranged on the left supporting frame.

3. The plasma cutter for metal laths according to claim 1 or 2, wherein: the positioning and supporting mechanism comprises a right supporting frame, a right supporting roller and a clamping beam, wherein the right supporting roller is longitudinally arranged on the right supporting frame in a rotating mode, the clamping beam is longitudinally arranged on the right supporting frame, a movable clamping block is arranged on the clamping beam in a sliding mode, a fixed clamping block opposite to the movable clamping block is arranged on the right supporting frame, a clamping space of a metal batten is formed between the movable clamping block and the fixed clamping block, and the movable clamping block is driven by a clamping block driving mechanism to move.

4. The plasma cutter for metal laths according to claim 1 or 2, wherein: the auxiliary supporting mechanism comprises an auxiliary supporting frame, at least one auxiliary supporting roller, an auxiliary rotation driving mechanism and an auxiliary lifting driving mechanism, wherein the auxiliary supporting roller is longitudinally arranged on the auxiliary supporting frame in a rotating mode, the auxiliary rotation driving mechanism drives the auxiliary supporting roller to rotate, the auxiliary lifting driving mechanism drives the auxiliary supporting roller to lift, and the auxiliary supporting driving mechanism is arranged on the auxiliary supporting frame and drives the auxiliary supporting roller to stretch into or move out of the cutting area.

5. The plasma cutter for metal laths according to claim 1 or 2, wherein: and a material collecting trolley is also arranged below the cutting area.

6. The plasma cutter for metal laths according to claim 1 or 2, wherein: the top and the bottom of the main machine outer cover are respectively provided with an upper dust suction air duct and a lower dust suction air duct.

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