CN219379310U - Unloader convenient to groove cutting - Google Patents

Abstract

The utility model discloses a blanking device convenient for groove cutting, which belongs to the technical field of steel plate cutting and comprises a suspension, wherein a base table is arranged right below the suspension, a spacer frame is arranged between the base table and the suspension, a transverse movement control assembly is arranged on the suspension and is movably connected with a plasma cutting machine, the base table is fixed with the ground through bolts, one side of the top end of the base table is provided with an adjusting assembly and is movably connected with one end of the spacer frame through the adjusting assembly, the other side of the top end of the base table is provided with a movable joint and is movably connected with the other end of the spacer frame through the movable joint.

Description

Unloader convenient to groove cutting

Technical Field

The utility model relates to the technical field of steel plate cutting, in particular to a blanking device convenient for groove cutting.

Background

In the machining process, the plate blanking and cutting are performed manually, by a semiautomatic cutter and by a numerical control cutter. The manual cutting is flexible and convenient, but the manual cutting has poor quality, large size error, large material waste and large subsequent processing workload, and meanwhile, the labor condition is bad and the production efficiency is low. The profile modeling cutting machine in the semi-automatic cutting machine is good in quality of cutting workpieces, and is not suitable for cutting single workpieces, small batches and large workpieces due to the fact that the profile modeling cutting machine uses a cutting die.

When the blanking cutting of the steel plate with the thickness of less than 18mm is carried out, a plasma cutting machine can be adopted to rapidly and effectively cut the steel plate.

Based on the above, the present inventors found that:

when the steel plate is cut, the existing process is that the groove cutting can be performed only after the blanking cutting of the steel plate is completed, and if the groove cutting can be completed at the same time of the blanking cutting, the labor cost can be reduced, and the production efficiency can be improved;

accordingly, in view of the above, an improvement of the conventional structure is made, and a blanking device for facilitating groove cutting is provided, so as to achieve the purpose of having more practical value.

Disclosure of Invention

1. Technical problem to be solved

Aiming at the problems in the prior art, the utility model aims to provide the blanking device convenient for cutting the bevel, which can enable the cut steel plate to have the bevel with the specified requirement, effectively meet the requirements of different bevel blanking cutting, reduce the cost of blanking cutting equipment of the steel plate, and synchronously enhance the practicability of the blanking cutting equipment of the same kind.

2. Technical proposal

In order to solve the problems, the utility model adopts the following technical scheme.

The blanking device convenient for groove cutting comprises a suspension, wherein a base table is arranged right below the suspension, and a spacer frame is arranged between the base table and the suspension;

the suspension is provided with a transverse movement control assembly, and the transverse movement control assembly is controlled to be movably connected with a plasma cutting machine;

the base table is fixed with the ground through bolts, one side of the top end of the base table is provided with an adjusting component and is movably connected with one end of the cushion frame through the adjusting component, and the other side of the top end of the base table is provided with a movable joint and is movably connected with the other end of the cushion frame through the movable joint.

Further, the lateral movement control assembly comprises a moving plate which is connected to the inner side of the suspension in a sliding way, and the right lower part of the moving plate is fixed with the plasma cutting machine;

the inner side of the suspension is provided with an I-shaped chute, two sides of the moving plate are fixedly provided with I-shaped sliding blocks, and the I-shaped sliding blocks freely slide in the I-shaped chute.

Further, the outer side face of the suspension is fixedly provided with a first stepping motor, the output end of the first stepping motor is connected with a first screw rod module through a coupling in a transmission mode, and one I-shaped sliding block is arranged on the side face of the first screw rod module and forms threaded connection.

Further, the adjusting assembly comprises a first inclined plate and a second inclined plate, the top ends of the first inclined plate and the second inclined plate are movably connected with the same movable shaft piece through bearings, and both ends of the movable shaft piece are movably connected with inner sliding blocks through bearings;

the bottom of the cushion position frame is provided with an inner sliding groove, and the inner sliding block slides in the inner sliding groove.

Further, a limiting groove body is fixedly arranged at the top end of the bottom table, sliding seats are movably connected to the bottom ends of the first inclined plate and the second inclined plate, and the sliding seats are slidably connected to the inside of the limiting groove body;

the outside of spacing cell body is fixed and is equipped with the second step motor, the output of second step motor passes the side of spacing cell body to be connected with the second lead screw module through the shaft coupling transmission, slide and second lead screw module cooperation threaded connection.

Further, screw holes matched with the second screw rod module are formed in the side faces of the sliding seats, the screw directions of the screw holes in the two sliding seats in the same limiting groove body are opposite, and the screw pitches are the same.

Further, the bottom end of the bottom table is fixedly provided with a large rubber pad.

3. Advantageous effects

Compared with the prior art, the utility model has the advantages that:

according to the scheme, when the blanking cutting of the steel plate is carried out, the inclination angle of one end of the cushion position frame is adjusted by utilizing the adjusting component according to the groove standard of the steel plate cutting of the actual demand, and meanwhile, the other end of the cushion position frame is synchronously adjusted under the action of the movable joint, so that the cushion position frame and the steel plate on the upper part of the cushion position frame are adjusted to a certain inclination angle, then the transverse movement control component is matched with the plasma cutting machine to cut the steel plate, the cut steel plate has the groove with the specified demand, the requirements of different groove blanking cutting are effectively met by the device, the cost of blanking cutting equipment of the steel plate is reduced, and the practicability of the same kind of blanking cutting equipment is synchronously enhanced.

Drawings

FIG. 1 is a schematic perspective view of the present utility model;

FIG. 2 is a schematic view of a traversing control assembly according to the present utility model;

FIG. 3 is a schematic view of the structure of the adjusting assembly of the present utility model;

fig. 4 is a schematic side plan view of the present utility model.

The reference numerals in the figures illustrate:

1. a suspension; 1-1, an I-shaped chute;

2. a base table; 2-1, a limiting groove body; 2-2, a second stepping motor; 2-3, a second screw rod module; 2-4, large rubber pad;

3. a traversing control assembly;

3-1, a movable plate; 3-11, an I-shaped sliding block;

3-2, a first stepper motor; 3-3, a first screw rod module;

4. a plasma cutter;

5. an adjustment assembly; 5-1, a first sloping plate; 5-2, a second sloping plate; 5-3, a movable shaft member; 5-4, inner slide block; 5-41, screw holes; 5-5, sliding seat;

6. a movable joint;

7. a cushion position frame; 7-1, an inner slide groove.

Detailed Description

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model; it is apparent that the described embodiments are only some embodiments of the present utility model, not all embodiments, and that all other embodiments obtained by persons of ordinary skill in the art without making creative efforts based on the embodiments in the present utility model are within the protection scope of the present utility model.

Examples:

referring to fig. 1-4, a blanking device convenient for groove cutting comprises a suspension 1, wherein a base table 2 is arranged right below the suspension 1, and a spacer frame 7 is arranged between the base table 2 and the suspension 1;

the suspension 1 is provided with a transverse movement control assembly 3, and the transverse movement control assembly 3 is controlled to be movably connected with a plasma cutting machine 4;

the suspension 1 limits the height of the plasma cutting machine 4, and the transverse movement control assembly 3 is used for controlling the movement of the plasma cutting machine 4, wherein the plasma cutting machine 4 is of a common PC-135 model and is used for cutting steel plates with the thickness of less than 18 mm;

the base table 2 is fixed with the ground through bolts, one side of the top end of the base table 2 is provided with an adjusting component 5 and is movably connected with one end of a cushion frame 7 through the adjusting component 5, and the other side of the top end of the base table 2 is provided with a movable joint 6 and is movably connected with the other end of the cushion frame 7 through the movable joint 6.

The base table 2 forms a support of a spacer frame 7 and a steel plate, the steel plate is placed on the spacer frame 7, the height of the spacer frame 7 is adjusted through the adjusting component 5 at the moment, the other end of the spacer frame 7 synchronously rotates around the movable joint 6, the change of the inclination angle of the spacer frame 7 and the steel plate on the upper portion of the spacer frame is realized, after that, the steel plate is subjected to blanking cutting under the processing of the plasma cutting machine 4, the inclination angle of the corresponding generated groove is determined for the steel plate, and the steel plate corresponding to the groove or without the groove is processed.

Referring to fig. 1 and 2, the traverse control assembly 3 includes a moving plate 3-1, the moving plate 3-1 is slidably connected to the inner side of the suspension 1, and a right lower side of the moving plate 3-1 is fixed to the plasma cutter 4;

an I-shaped sliding groove 1-1 is formed in the inner side of the suspension 1, I-shaped sliding blocks 3-11 are fixedly arranged on two sides of the moving plate 3-1, and the I-shaped sliding blocks 3-11 slide freely in the I-shaped sliding groove 1-1.

When the I-shaped sliding block 3-11 slides in the I-shaped sliding groove 1-1, the moving plate 3-1 can be driven to synchronously slide, the plasma cutting machine 4 is driven to synchronously move, and when the plasma cutting machine 4 moves, blanking cutting of the steel plate can be realized.

Referring to fig. 1 and 2, a first stepping motor 3-2 is fixedly arranged on the outer side surface of a suspension 1, the output end of the first stepping motor 3-2 is connected with a first screw rod module 3-3 through a coupling in a transmission manner, and one I-shaped sliding block 3-11 is arranged on the side surface of the first screw rod module 3-3 and forms threaded connection.

The first stepping motor 3-2 works, at the moment, the first screw rod module 3-3 can be controlled to rotate, the sliding distance of the I-shaped sliding block 3-11 in the I-shaped sliding groove 1-1 can be accurately controlled by matching with the sliding limit of the I-shaped sliding groove 1-1 to the I-shaped sliding block 3-11.

Referring to fig. 1 and 3, the adjusting assembly 5 includes a first inclined plate 5-1 and a second inclined plate 5-2, the top ends of the first inclined plate 5-1 and the second inclined plate 5-2 are movably connected with the same movable shaft member 5-3 through bearings, and both ends of the movable shaft member 5-3 are movably connected with an inner slide block 5-4 through bearings;

the bottom end of the cushion frame 7 is provided with an inner chute 7-1, and the inner slide block 5-4 slides in the inner chute 7-1.

The top ends of the first inclined plate 5-1 and the second inclined plate 5-2 form free movement with the movable shaft piece 5-3 through bearings, the heights of the top ends of the first inclined plate 5-1 and the second inclined plate 5-2 are kept consistent, when the included angle between the first inclined plate 5-1 and the second inclined plate 5-2 changes, the height of the movable shaft piece 5-3 changes along with the change, the inclination angle of one end of the spacer frame 7 can be adjusted, in the process, the inner sliding groove 7-1 can provide a sliding space in the inner sliding groove 7-1 for the inner sliding block 5-4, and when the movable shaft piece 5-3 rotates, the inner sliding block 5-4, the first inclined plate 5-1 and the second inclined plate 5-2 are prevented from generating certain rigid damage with the spacer frame 7.

Referring to fig. 1 and 3, a limit groove body 2-1 is fixedly arranged at the top end of the bottom table 2, sliding seats 5-5 are movably connected to the bottom ends of the first inclined plate 5-1 and the second inclined plate 5-2, and the sliding seats 5-5 are slidably connected to the inside of the limit groove body 2-1;

the outer side of the limiting groove body 2-1 is fixedly provided with a second stepping motor 2-2, the output end of the second stepping motor 2-2 penetrates through the side face of the limiting groove body 2-1 and is connected with a second screw rod module 2-3 through a coupling in a transmission mode, and a sliding seat 5-5 is in threaded connection with the second screw rod module 2-3 in a matched mode.

When the second stepping motor 2-2 works, the second screw rod module 2-3 can be controlled to rotate, and the sliding limit of the sliding seat 5-5 by the limit groove body 2-1 is matched, so that the moving direction and the moving distance of the sliding seat 5-5 are controlled, and further, the moving direction and the moving distance of the bottom ends of the first inclined plate 5-1 and the second inclined plate 5-2 are controlled, and the included angle change occurs in the moving process of the first inclined plate 5-1 and the second inclined plate 5-2, so that the height adjustment of the cushion frame 7 can be conveniently realized.

Referring to fig. 1 and 3, screw holes 5-41 which are in threaded connection with the second screw rod module 2-3 are formed in the side surfaces of the sliding seats 5-5, the screw directions of the screw holes 5-41 on the two sliding seats 5-5 in the same limiting groove body 2-1 are opposite, and the screw pitches are the same.

The screw thread direction and the screw pitch of screw holes 5-41 on the two sliding seats 5-5 are controlled, and when the second screw rod module 2-3 rotates, the bottom ends of the first inclined plate 5-1 and the second inclined plate 5-2 can be controlled to synchronously approach or synchronously separate, so that the stability of the movable shaft piece 5-3 and even the cushion position frame 7 during height adjustment is ensured.

Referring to fig. 1 and 3, a large rubber pad 2-4 is fixedly arranged at the bottom end of the bottom table 2;

through the large-scale rubber pad 2-4 that sets up, increase the frictional force of base frame 2 and ground, and then increase the stability of base frame 2, utilize the insulating nature of large-scale rubber pad 2-4 simultaneously, avoid the electric power that probably produces on pad frame 7 and the base frame 2 to lead into underground to the initiation electric shock accident has improved the safety in utilization of device.

When the groove cutting blanking of the steel plate is carried out:

the base table 2 with the large rubber pad 2-4 is mounted directly under the suspension 1 and ensures that the plasma cutter 4 is in the proper cutting position.

Then according to the actual demand groove of steel sheet, utilize adjusting part 5 to cooperate movable joint 6 to adjust the inclination who fills up position frame 7, specifically does: when the second stepping motor 2-2 works, the second screw rod module 2-3 can be controlled to rotate, and the sliding limit of the sliding seat 5-5 by the limit groove body 2-1 is matched, so that the moving direction and the moving distance of the sliding seat 5-5 are controlled, and further, the moving direction and the moving distance of the bottom ends of the first inclined plate 5-1 and the second inclined plate 5-2 are controlled, at the moment, the included angle changes in the moving process of the first inclined plate 5-1 and the second inclined plate 5-2, then the height of the movable shaft piece 5-3 changes, at the moment, the other end of the spacer frame 7 synchronously and adaptively rotates around the movable joint 6, and the inclination angles of the spacer frame 7 and the steel plates at the upper part of the spacer frame are changed;

then, the position of the plasma cutting machine 4 is controlled by utilizing the transverse movement control assembly 3, and the plasma cutting machine 4 is synchronously started to realize blanking and cutting of the steel plate, specifically: the first stepping motor 3-2 works, at the moment, the first screw rod module 3-3 can be controlled to rotate, the sliding distance of the I-shaped sliding block 3-11 in the I-shaped sliding groove 1-1 is accurately controlled by matching with the sliding limit of the I-shaped sliding groove 1-1 on the I-shaped sliding block 3-11, and the position of the plasma cutting machine 4 is synchronously controlled;

therefore, the blanking cutting process of the whole device to the steel plate can be completed, and the cutting requirements of the device to different grooves in the steel plate cutting process are improved.

The above description is only of the preferred embodiments of the present utility model; the scope of the utility model is not limited in this respect. Any person skilled in the art, within the technical scope of the present disclosure, may apply to the present utility model, and the technical solution and the improvement thereof are all covered by the protection scope of the present utility model.

Claims (7)

1. Unloader convenient to groove cutting, including suspension (1), its characterized in that: a base table (2) is arranged right below the suspension (1), and a cushion frame (7) is arranged between the base table (2) and the suspension (1);

the suspension (1) is provided with a transverse movement control assembly (3), and the transverse movement control assembly (3) is controlled to be movably connected with a plasma cutting machine (4);

the novel floor is characterized in that the bottom table (2) is fixed with the ground through bolts, an adjusting component (5) is arranged on one side of the top end of the bottom table (2), one end of the bottom table is movably connected with a cushion frame (7) through the adjusting component (5), a movable joint (6) is arranged on the other side of the top end of the bottom table (2), and the other end of the bottom table is movably connected with the cushion frame (7) through the movable joint (6).

2. The blanking device for facilitating groove cutting according to claim 1, wherein:

the transverse movement control assembly (3) comprises a moving plate (3-1), the moving plate (3-1) is connected to the inner side of the suspension (1) in a sliding manner, and the right lower part of the moving plate (3-1) is fixed with the plasma cutting machine (4);

an I-shaped sliding groove (1-1) is formed in the inner side of the suspension (1), I-shaped sliding blocks (3-11) are fixedly arranged on two sides of the moving plate (3-1), and the I-shaped sliding blocks (3-11) slide freely in the I-shaped sliding groove (1-1).

3. The blanking device for facilitating groove cutting according to claim 2, wherein:

the outer side surface of the suspension (1) is fixedly provided with a first stepping motor (3-2), the output end of the first stepping motor (3-2) is connected with a first screw rod module (3-3) through a coupling in a transmission mode, and one I-shaped sliding block (3-11) is arranged on the side surface of the first screw rod module (3-3) and forms threaded connection.

4. The blanking device for facilitating groove cutting according to claim 1, wherein:

the adjusting assembly (5) comprises a first inclined plate (5-1) and a second inclined plate (5-2), wherein the top ends of the first inclined plate (5-1) and the second inclined plate (5-2) are movably connected with the same movable shaft piece (5-3) through bearings, and both ends of the movable shaft piece (5-3) are movably connected with inner sliding blocks (5-4) through bearings;

an inner sliding groove (7-1) is formed in the bottom end of the cushion position frame (7), and the inner sliding block (5-4) slides in the inner sliding groove (7-1).

5. The blanking device for facilitating groove cutting of claim 4, wherein:

the top end of the base table (2) is fixedly provided with a limiting groove body (2-1), the bottom ends of the first inclined plate (5-1) and the second inclined plate (5-2) are movably connected with a sliding seat (5-5), and the sliding seat (5-5) is slidably connected inside the limiting groove body (2-1);

the outer side of the limiting groove body (2-1) is fixedly provided with a second stepping motor (2-2), the output end of the second stepping motor (2-2) penetrates through the side face of the limiting groove body (2-1) and is connected with a second screw rod module (2-3) through a coupling in a transmission mode, and the sliding seat (5-5) is in threaded connection with the second screw rod module (2-3) in a matched mode.

6. The blanking device for facilitating groove cutting of claim 5, wherein:

screw holes (5-41) which are in threaded connection with the second screw rod module (2-3) are formed in the side faces of the sliding seats (5-5), the screw directions of the screw holes (5-41) on the two sliding seats (5-5) in the same limiting groove body (2-1) are opposite, and the screw pitches are the same.

7. The blanking device for facilitating groove cutting according to claim 1, wherein:

the bottom end of the bottom table (2) is fixedly provided with a large rubber pad (2-4).