CN214212441U - Large-scale sheet metal cutting platform convenient to handle cutting clout - Google Patents

Abstract

The utility model discloses a large-scale metal plate cutting platform convenient for processing cutting excess stock, belonging to the technical field of plate processing devices; it comprises a bed body in a horizontal structure; a guide rail is arranged in the bed body; the carrying platform is movably arranged in the bed body through the guide rail; an electric control cutting disc is arranged at the top of the carrying platform; a cutting groove is formed in the upper top of the bed body, and a cutting edge of the electric control cutting disc extends out of the bed body through the cutting groove to be arranged; a cantilever rack is also arranged above the bed body; a telescopic rod and an auxiliary function box which can be stretched and retracted along the vertical direction are arranged on the cantilever rack; a strip-shaped groove with the same size as the cutting groove is formed in the lower bottom side of the auxiliary function box, and a plurality of windows are formed in one end side of the auxiliary function box; each window is covered and provided with a negative pressure channel; the other side of the negative pressure channel is communicated with the negative pressure pump through a first recovery box; it has solved the problem that the cutting waste material can't obtain effective processing when cutting the ultrathin board.

Description

Large-scale sheet metal cutting platform convenient to handle cutting clout

Technical Field

The utility model relates to a panel processingequipment technical field, concretely relates to large-scale sheet metal piece cutting platform convenient to handle cutting clout.

Background

In the process of processing the plate, cutting of the plate is an important process, most of the current cutting devices for the ultrathin plate adopt a horizontal bed body, a cutting knife automatically walks along the bed body to complete cutting, and the problem that the plate is displaced along the walking direction of a knife body basically cannot occur when the cutting knife moves due to the small thickness of the ultrathin plate; however, the cutting device with such a structure also has disadvantages, and considering the cost and factors of various aspects, the cutting knife of the ultrathin plate mostly selects a mechanical cutting disc body, and the cutting waste generated by the processing mode is easily carried and scattered on the whole bed body, and cannot be effectively collected and treated, which is a main problem faced at present.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve is: the utility model provides a large-scale sheet metal cutting platform convenient to handle cutting clout to solve present can't obtain effective processing to the cutting waste material that equipment produced when carrying out cutting process to the ultra-thin plate, cause the problem of great influence to whole cutting device easily.

In order to solve the above problem, the utility model provides a following technical scheme:

a large-scale metal plate cutting platform convenient for processing cutting excess stock; it comprises a bed body in a horizontal structure; a guide rail is arranged in the bed body; the carrying platform is movably arranged in the bed body through the guide rail, and an electric control cutting disc is further mounted at the upper top of the carrying platform; a cutting groove is formed in the upper top of the bed body along the extending direction of the guide rail, and a cutting edge of the electric control cutting disc extends out of the bed body through the cutting groove to be arranged; a cantilever rack is also arranged above the bed body; a telescopic rod which can be stretched and contracted along the vertical direction is arranged on the cantilever rack; an auxiliary function box with a hollow interior is arranged at the lower bottom of the telescopic rod; a strip-shaped groove with the same size as the cutting groove is also formed in the middle of the lower bottom side of the auxiliary function box, and a plurality of windows are formed in one end side of the auxiliary function box; each window is covered and provided with a negative pressure channel; the other side of the negative pressure channel is communicated with the negative pressure pump through a first recovery box.

Preferably, the number of the guide rails is two, two ends of the carrying platform are respectively erected on the two guide rails for installation, and the projection of the cutting edge of the electric control cutting disc in the vertical direction is located between the two guide rails.

Preferably, a second recovery tank is detachably arranged at the inner bottom of the bed body; the second collection box can be taken out from a side end of the bed body, the top of the second collection box is of an open structure, the second collection box is installed between the two guide rails, and the electric control cutting disc is arranged right above the second collection box.

Preferably, limiting plates are further arranged at positions, located on two sides of the cutting groove, in the bed body; the height of the second recovery box is greater than that of the guide rail, and a cutting groove matched with the second recovery box is formed in the lower bottom of the carrying platform; an observation window is also arranged on the side wall of the bed body.

Furthermore, a rolling roller is also arranged at the grooving position of the carrying platform; the cooperation of guided way and microscope carrier is for can restricting the cooperation mode that the microscope carrier removed in the vertical direction.

Preferably, the lower bottom of the auxiliary function box is of a ladder structure, and the height of one side with the window is larger than that of the side without the window; the strip-shaped groove is arranged between the two steps.

Preferably, the telescopic rod is an electric control hydraulic telescopic rod structure; the hydraulic pipeline is connected to a hydraulic pump through a cantilever rack; the hydraulic pump is arranged at the side end of the top of the bed body, and a separation plate is arranged between the hydraulic pump and the cutting groove.

Furthermore, a plurality of groups of guide holes are formed in the position, corresponding to the telescopic rod, of one side end face of the cantilever rack, and one end of the hydraulic pipeline is connected with the telescopic rod through the guide holes.

Preferably, the negative pressure channel is inserted into the upper top of the first recovery tank, the air pipe connecting the negative pressure pump and the first recovery tank is arranged on the upper top of the first recovery tank, and the filtering device is arranged at the joint position of the air pipe and the first recovery tank (9).

The utility model discloses beneficial effect:

the utility model discloses not enough to present device that cuts to sheet metal carries out the existing improved design, it is through offering the grooving that is used for cooperating the cutting dish on the bed body, further through setting up the cantilever rack, simultaneously at this bench mounting can the high auxiliary function box of adjusting position, make the last face that sheet metal can be pressed close to the auxiliary function box when cutting, make the saw dish cut into in the auxiliary function box, set up the window simultaneously on the auxiliary function box, set up the negative pressure passageway from corresponding in the window position, and utilize the negative pressure pump that is connected with this passageway to carry out the negative pressure to the clout after the cutting and attract and make it can enter into first recovery case, thereby solved effectively and scattered the adverse effect brought to the processing production on the bed body when cutting the clout easily.

Drawings

Fig. 1 is a schematic structural view of the utility model device in the present embodiment;

FIG. 2 is a schematic view of the apparatus of FIG. 1 from another perspective, with the bed being treated in perspective;

FIG. 3 is a schematic sectional view of the bed, the guide rail, the carrying platform, the electrically controlled cutting disk, the second recycling bin and the rolling wheels;

FIG. 4 is a schematic sectional view of the auxiliary function box of this embodiment

Description of reference numerals: 1. the bed body, 1A, cut groove, 1B, observation window, 2, guided way, 3, microscope carrier, 4, automatically controlled cutting dish, 5, cantilever rack, 6, telescopic link, 7, auxiliary function box, 7A, bar groove, 8, negative pressure passageway, 9, first collection box, 10, second collection box, 11, limiting plate, 12, hydraulic pump, 13, the gyro wheel rolls.

Detailed Description

The invention will be further described with reference to the following drawings and specific embodiments:

example (b):

referring to fig. 1, the present embodiment provides a large-sized metal plate cutting platform convenient for processing cutting remnants; it comprises a bed body 1 in a horizontal structure; a guide rail 2 is arranged in the bed body 1; the carrying platform 3 is movably arranged in the bed body 1 through the guide rail 2, and an electric control cutting disc 4 is further mounted at the upper top of the carrying platform 3; a cutting groove 1A is formed in the upper top of the bed body 1 along the extending direction of the guide rail 2, and the cutting edge of the electric control cutting disc 4 extends out of the bed body through the cutting groove 1A to be arranged; a cantilever rack 5 is also arranged above the bed body 1; a telescopic rod 6 which can be stretched and contracted along the vertical direction is arranged on the cantilever rack 5; an auxiliary function box 7 with a hollow interior is arranged at the lower bottom of the telescopic rod 6; a strip-shaped groove 7A with the same size as the cutting groove 1A is also formed in the middle of the lower bottom side of the auxiliary function box 7, and a plurality of windows 7B are formed in one end side of the auxiliary function box 7; a negative pressure channel 8 is covered and installed on each window 7B; the other side of the negative pressure channel 8 is communicated with the negative pressure pump through a first recovery tank 9. The negative pressure pump used in this embodiment is an electrically controlled vacuum pump structure, and the vacuum pump is installed on the bed body 1.

The number of the guide rails 2 is two, two ends of the carrying platform 3 are respectively erected on the two guide rails 2 for installation, and the projection of the cutting edge of the electric control cutting disk 4 in the vertical direction is located between the two guide rails 2. A second recovery tank 10 is also detachably arranged at the inner bottom of the bed body 1; the second recovery box 10 can be taken out from a side end of the bed body 1, the top of the second recovery box is of an open structure, the second recovery box 10 is installed between the two guide rails 2, and the electric control cutting disc 4 is arranged right above the second recovery box 10. Two guided way 2 are favorable to improving the stability of microscope carrier removal in-process, leave the cutting sword in order to correspond the setting cutting dish with middle part position simultaneously, make the cutting clout can directly fall into the second collection box of below.

Limiting plates 11 are further arranged at the positions, located at the two sides of the cutting groove 1A, in the bed body 1; the height of the second recovery box 10 is greater than that of the guide rail 2, and a cutting groove matched with the second recovery box 10 is formed in the lower bottom of the carrying platform 3; an observation window 1B is also arranged on the side wall of the bed body 1. The limiting plate is used for limiting and draining the cutting excess material, and meanwhile, the condition of the interior of the bed body can be observed through the observation window 1B.

A rolling roller 13 is also arranged at the grooving position of the carrier 3; the guide rail 2 is engaged with the stage 3 in such a manner that the movement of the stage in the vertical direction can be restricted. The rolling roller 13 is designed to level the excess materials accumulated in the middle of the second recycling bin 10 to both sides, so as to prevent the overflow problem caused by excessive accumulation.

Referring to fig. 4, the lower bottom of the auxiliary function box 7 is in a ladder structure, and the height of the side with the window is larger than that of the side without the window; a strip-shaped groove 7A is provided between the two steps. The stepped structure is beneficial to absorbing and processing the residual materials on the other side of the auxiliary function box 7 with the vacuum pump.

The telescopic rod 6 is an electric control hydraulic telescopic rod structure; the hydraulic pipeline is connected to a hydraulic pump 12 through a cantilever platform frame 5; the hydraulic pump 12 is installed at the side end of the upper top of the bed body 1, and a partition plate is arranged between the hydraulic pump 12 and the cutting groove 1A. In this embodiment, the partition plate is a long plate with an L-shaped cross section; parameters such as roughness, flatness and the like of the upper top of the partition plate 1 are similar to those of a metal flat plate to be cut; which is detachably mounted on the upper top of the bed body 1. Since the divider plate is in direct contact with the flat metal plate, there are certain parameter requirements for better workability, and the divider plate needs to be detachable for maintenance and replacement due to problems on the surface.

A plurality of groups of guide holes are formed in the position, corresponding to the telescopic rod 6, of one side end face of the cantilever platform frame 5, and one end of the hydraulic pipeline is connected with the telescopic rod 6 through the guide holes.

The negative pressure passage 8 is inserted into the upper top of the first recovery tank 9, an air pipe connecting the negative pressure pump and the first recovery tank 9 is also provided at the upper top of the first recovery tank 9, and a filter device is further provided at a joint position of the air pipe and the first recovery tank 9. This filter equipment is multilayer filter screen, and it can prevent that the clout in the first recovery case from getting into the negative pressure pump and causing the device to damage.

Claims (9)

1. A large-scale metal plate cutting platform convenient for processing cutting excess materials comprises a bed body (1) in a horizontal structure; the method is characterized in that: a guide rail (2) is arranged in the bed body (1); the carrying platform (3) is movably arranged in the bed body (1) through the guide rail (2), and an electric control cutting disc (4) is further mounted at the upper top of the carrying platform (3); a cutting groove (1A) is formed in the upper top of the bed body (1) along the extending direction of the guide rail (2), and the cutting edge of the electric control cutting disc (4) extends out of the bed body through the cutting groove (1A) for setting; a cantilever rack (5) is also arranged above the bed body (1); a telescopic rod (6) which can be stretched and contracted along the vertical direction is arranged on the cantilever rack (5); an auxiliary function box (7) with a hollow interior is arranged at the lower bottom of the telescopic rod (6); a strip-shaped groove (7A) with the same size as the cutting groove (1A) is also formed in the middle of the lower bottom side of the auxiliary function box (7), and a plurality of windows (7B) are formed in one end side of the auxiliary function box (7); a negative pressure channel (8) is covered and installed on each window (7B); the other side of the negative pressure channel (8) is communicated with the negative pressure pump through a first recovery box (9).

2. A large-sized metal plate member cutting platform facilitating the processing of cutting remnants, as recited in claim 1, wherein: the number of the guide rails (2) is two, two ends of the carrying platform (3) are respectively erected on the two guide rails (2) to be installed, and the projection of the cutting edge of the electric control cutting disk (4) in the vertical direction is located between the two guide rails (2).

3. A large-sized metal plate member cutting platform facilitating the processing of cutting remnants, as recited in claim 1, wherein: a second recovery box (10) is also detachably arranged at the inner bottom of the bed body (1); the second recovery box (10) can be drawn out from one side end of the bed body (1), the top of the second recovery box is of an open structure, the second recovery box (10) is installed between the two guide rails (2), and the electric control cutting disc (4) is arranged right above the second recovery box (10).

4. A large-sized metal plate member cutting platform facilitating the processing of cutting remnants, as recited in claim 1, wherein: limiting plates (11) are arranged at the positions, located at the two sides of the cutting groove (1A), in the bed body (1); the height of the second recovery box (10) is greater than that of the guide rail (2), and a cutting groove matched with the second recovery box (10) is formed in the lower bottom of the carrying platform (3); an observation window (1B) is also arranged on the side wall of the bed body (1).

5. A large-sized metal plate cutting platform facilitating the processing of cutting remnants, as recited in claim 4, wherein: a rolling roller (13) is also arranged at the grooving position of the carrying platform (3); the matching of the guide rail (2) and the carrier (3) is a matching mode capable of limiting the carrier to move in the vertical direction.

6. A large-sized metal plate member cutting platform facilitating the processing of cutting remnants, as recited in claim 1, wherein: the lower bottom of the auxiliary function box (7) is of a ladder structure, and the height of one side with the window is larger than that of the side without the window; a strip-shaped groove (7A) is arranged between the two steps.

7. A large-sized metal plate member cutting platform facilitating the processing of cutting remnants, as recited in claim 1, wherein: the telescopic rod (6) is an electric control hydraulic telescopic rod structure; the hydraulic pipeline is connected to a hydraulic pump (12) through a cantilever rack (5); the hydraulic pump (12) is arranged at the side end of the upper top of the bed body (1), and a separation plate is arranged between the hydraulic pump (12) and the cutting groove (1A).

8. A large-sized metal plate member cutting platform facilitating the processing of cutting remnants, as recited in claim 7, wherein: a plurality of groups of guide holes are formed in the position, corresponding to the telescopic rod (6), of one side end face of the cantilever rack (5), and one end of the hydraulic pipeline is connected with the telescopic rod (6) through the guide holes.

9. A large-sized metal plate member cutting platform facilitating the processing of cutting remnants, as recited in claim 1, wherein: the negative pressure channel (8) is inserted into the upper top of the first recovery box (9) for arrangement, an air pipe connecting the negative pressure pump and the first recovery box (9) is also arranged at the upper top of the first recovery box (9), and a filtering device is also arranged at the joint position of the air pipe and the first recovery box (9).

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