CN223236504U - Integrated three-dimensional cutting machine - Google Patents

Abstract

The present invention relates to the field of three-dimensional cutting machines, and in particular to an integrated three-dimensional cutting machine, comprising a vertical cutting frame main body, a cutting frame walking guide rail, a vertical cutting frame lifting guide rail, a horizontal and vertical integrated cutting component, and a transport component; the horizontal and vertical integrated cutting component comprises a vertical cutting structure; a horizontal cutting structure is provided at one side end of the vertical cutting structure; a horizontal and vertical cutting vibration mechanism is provided at the lower end of the horizontal cutting structure; the utility model places the workpiece by a mobile vehicle, and drives the vertical cutting structure and the horizontal cutting structure to cut the foam board through the vertical cutting frame main body, so as to solve the problem that in the workpiece cutting process, most of the existing integrated three-dimensional cutting machines are provided with a large cutting line structure, and the size of the plastic foam board to be cut is large, so that the large cutting line is longer as a whole, which increases the space occupied and maintenance cost of the cutting line, resulting in an increase in the use cost of the integrated three-dimensional cutting machine.

Description

Integrated three-dimensional cutting machine

Technical Field

The utility model relates to the field of three-dimensional cutting machines, in particular to an integrated three-dimensional cutting machine.

Background

After the plastic foam board is processed, the plastic foam board is generally required to be cut for convenient use, and is divided into plastic foam boards with corresponding sizes, so that the plastic foam board is used according to requirements, the size of the plastic foam board to be cut is large, the plastic foam board is generally 6 meters long, 1 meter high and about 1.2 meters wide, and an integrated three-dimensional cutting machine is required for cutting.

Therefore, most of the existing integrated three-dimensional cutting machines are provided with large-scale cutting line structures, and the plastic foam boards to be cut are large in size, so that in workpiece cutting, the large-scale cutting lines are integrally long, the occupation area and maintenance cost of the cutting lines are increased, and the use cost of the integrated three-dimensional cutting machines is increased.

Therefore, aiming at the fact that most of the existing integrated three-dimensional cutting machines are provided with large cutting line structures, the occupied area is large, the investment and maintenance cost is high, and the integrated three-dimensional cutting machine can be designed to reduce the occupied area so as to reduce the use cost.

Disclosure of utility model

In order to overcome in the work piece cutting process, can be because the great majority of current integrated form three-dimensional cutting machine is provided with large-scale cutting line structure, and wait to cut the plastics foam board size great for large-scale cutting line is whole longer, makes occupation of land and the maintenance cost of cutting line improve, leads to the use cost of integrated form three-dimensional cutting machine to rise.

The integrated three-dimensional cutting machine comprises a vertical cutting frame main body, a cutting frame travelling guide rail, a vertical cutting frame lifting guide rail, a horizontal and vertical integrated cutting assembly and a carrying assembly, wherein the horizontal and vertical integrated cutting assembly comprises a vertical cutting structure, one side end part of the vertical cutting structure is provided with a transverse cutting structure, the lower end part of the transverse cutting structure is provided with a horizontal and vertical cutting vibration mechanism, one side end part of the front end part and the rear end part of the horizontal and vertical cutting vibration mechanism is rotatably connected with a driven wheel through a rotating shaft, and the other side end part of the front end part and the rear end part of the horizontal and vertical cutting vibration mechanism is rotatably connected with a driving wheel through a rotating shaft.

Preferably, the transverse and vertical integrated cutting assembly is driven to move by arranging the vertical cutting frame main body, the cutting frame travelling guide rail and the vertical cutting frame lifting guide rail so as to assist in cutting the foam board, the transverse and vertical integrated cutting assembly is arranged to transversely cut and vertically cut the foam board, the occupied area is reduced, and the conveying assembly is arranged to drive the foam board to move so as to improve the transportation efficiency and convenience.

Preferably, a vertical cutting frame body is arranged at one side end part of the driving wheel, a vertical cutting frame is arranged at the upper end part of the vertical cutting frame body, and a cutting frame travelling guide rail is arranged at the lower end part of the vertical cutting frame body.

Preferably, the upper end of the cutting frame walking guide rail is provided with a bottom frame, one side end of the vertical cutting frame main body is provided with a vertical cutting frame lifting guide rail, and two side ends of the vertical cutting frame are provided with vertical cutting lifting mechanisms.

The automatic cutting machine is characterized in that a conveying assembly is arranged at the end part of the other side of the transverse and vertical integrated cutting assembly, the conveying assembly comprises a moving vehicle, an opposite interface is fixedly connected to the end part of one side of the moving vehicle, a motor is arranged on the inner side of the moving vehicle, and a rotating wheel is arranged on a rotating shaft of the motor through a coupler.

Preferably, the upper end part of the moving vehicle is rotatably connected with a supporting rotating roller through a rotating shaft, one side end part of the moving vehicle is rotatably connected with a rotating bracket through the rotating shaft, and the rotating bracket is provided with a sliding groove.

Preferably, the upper end part of the rotating support is rotatably connected with a top plate through a rotating shaft, a first hydraulic push rod is arranged at the upper end part of the top plate, and a pressing plate is arranged on the first hydraulic push rod.

Preferably, one side end of the top plate is rotatably connected with a connecting frame through a rotating shaft, the lower end of the connecting frame is provided with a sliding support frame, the sliding support frame is provided with a second hydraulic push rod, the second hydraulic push rod is provided with a support plate, the two side end parts of the sliding support frame are provided with sliding frames, and the sliding frames are in sliding connection with the rotating support frame through sliding grooves.

The utility model has the beneficial effects that:

1. Work piece is placed through setting up the locomotive to drive through perpendicular cutting frame main part and erect and cut structure and transect structure and cut the cystosepiment, in order to solve at work piece cutting process, can be because current three-dimensional cutting machine of integrated form most be provided with large-scale cutting line structure, and treat that the cutting plastic foam board size is great, make large-scale cutting line whole longer, make occupation of land and the maintenance cost of cutting line improve, lead to the use cost of integrated form three-dimensional cutting machine to rise, and then can improve the result of use of whole three-dimensional cutting machine of integrated form.

Drawings

FIG. 1 shows a schematic view of an integrated three-dimensional cutting machine of the present utility model;

FIG. 2 shows a schematic view of a transverse and vertical integrated cutting assembly of an integrated three-dimensional cutting machine according to the present utility model;

FIG. 3 shows a schematic view of the structure of a vertical cutting frame of an integrated three-dimensional cutting machine according to the present utility model;

FIG. 4 shows a first schematic view of an integrated three-dimensional cutter handling assembly of the present utility model;

FIG. 5 shows a second partial cross-sectional configuration of an integrated three-dimensional cutter handling assembly of the present utility model.

The reference numerals are explained as 2, a vertical cutting frame main body, 3, a vertical cutting frame, 4, a cutting frame walking guide rail, 5, a bottom frame, 6, a vertical cutting frame lifting guide rail, 7, a vertical cutting lifting mechanism, 101, a vertical cutting structure, 102, a transverse cutting structure, 103, a transverse and vertical cutting vibration mechanism, 104, a driven wheel, 105, a driving wheel, 801, a moving vehicle, 802, a butt joint, 803, a motor, 804, a rotating wheel, 805, a supporting rotating roller, 806, a rotating bracket, 807, a chute, 808, a top plate, 809, a first hydraulic push rod, 810, a pressing plate, 811, a connecting frame, 812, a sliding support frame, 813, a second hydraulic push rod, 814, a support plate, 815 and a sliding frame.

Detailed Description

The utility model is further described below with reference to the drawings and examples.

Referring to fig. 1-5, the utility model provides an integrated three-dimensional cutting machine, which comprises a vertical cutting frame main body 2, a cutting frame travelling guide rail 4, a vertical cutting frame lifting guide rail 6, a vertical and horizontal integrated cutting assembly and a carrying assembly, wherein the vertical and horizontal integrated cutting assembly comprises a vertical cutting structure 101, one side end part of the vertical cutting structure 101 is provided with a transverse cutting structure 102, the lower end part of the transverse cutting structure 102 is provided with a vertical and horizontal cutting vibration mechanism 103, one side end part of the front end part and the rear end part of the vertical and horizontal cutting vibration mechanism 103 is rotatably connected with a driven wheel 104 through a rotating shaft, the other side end part of the front end part and the rear end part of the vertical and horizontal cutting vibration mechanism 103 is rotatably connected with a driving wheel 105 through the rotating shaft, and the vertical and horizontal integrated cutting assembly is convenient to move through the driven wheel 104 and the driving wheel 105 so as to adjust the cutting position, and transverse and vertical cutting processing is carried out on a foam board through the vertical cutting structure 101, the transverse cutting structure 102 and the vertical and horizontal cutting vibration mechanism 103.

Referring to fig. 4-5, in this embodiment, a carrying assembly is disposed at the other end of the transverse and vertical integrated cutting assembly, the carrying assembly comprises a moving vehicle 801, a butt joint 802 is fixedly connected to one side end of the moving vehicle 801, a motor 803 is mounted at the inner side of the moving vehicle 801, a rotating wheel 804 is mounted on a rotating shaft of the motor 803 through a coupling, a supporting rotating roller 805 is rotatably connected to the upper end of the moving vehicle 801 through the rotating shaft, a rotating bracket 806 is rotatably connected to one side end of the moving vehicle 801 through the rotating shaft, a sliding groove 807 is formed in the rotating bracket 806, a top plate 808 is rotatably connected to the upper end of the top plate 808 through the rotating shaft, a first hydraulic push rod 809 is mounted on the first hydraulic push rod 809, a connecting frame 811 is rotatably connected to one side end of the top plate 808 through the rotating shaft, a sliding support 812 is disposed at the lower end of the connecting frame 811, a second hydraulic push rod 813 is mounted on the sliding support frame 812, a support plate 814 is mounted on the second hydraulic push rod 813, a support plate 814 is mounted on the sliding support plate 814 is rotatably connected to the sliding support frame 815, the sliding frame 815 is rotatably connected to the rotating bracket 806 through the sliding groove 806 through the rotating shaft, the foam motor 804 and the foam push plate is conveniently moved through the foam push plate 803 and the supporting plate through the sliding support plate 809 and the sliding plate through the sliding support plate 809.

Referring to fig. 1 and 3, in the present embodiment, a vertical cutting frame body 2 is disposed at one side end of a driving wheel 105, a vertical cutting frame 3 is mounted at an upper end of the vertical cutting frame body 2, a cutting frame traveling rail 4 is mounted at a lower end of the vertical cutting frame body 2, a bottom frame 5 is mounted at an upper end of the cutting frame traveling rail 4, a vertical cutting frame lifting rail 6 is disposed at one side end of the vertical cutting frame body 2, vertical cutting lifting mechanisms 7 are mounted at both side ends of the vertical cutting frame body 3, a foam board is supported by the bottom frame 5, and a horizontal and vertical integral cutting assembly is conveniently moved by the cutting frame traveling rail 4, and is driven to move by the vertical cutting frame body 2 and the vertical cutting frame lifting rail 6 to assist in cutting the foam board.

When moving, firstly, a foam board is placed by using a supporting rotary roller 805, then, the sliding support frame 812 is conveniently moved by a sliding frame 815, and the top plate 808 is driven by a connecting frame 811 so as to drive the pressing plate 810 to position the foam board by a first hydraulic push rod 809, then, the moving vehicle 801 is driven by a motor 803 and a rotary wheel 804 to move, and finally, the foam board is pushed onto the underframe 5 by a second hydraulic push rod 813 and a supporting plate 814;

During cutting, firstly, a foam board is supported through the underframe 5, then, the transverse and vertical integrated cutting assembly is conveniently moved by utilizing the cutting frame walking guide rail 4, and is conveniently moved through the driven wheel 104 and the driving wheel 105, then, transverse cutting and vertical cutting processing are carried out on the foam board through the vertical cutting structure 101, the transverse cutting structure 102 and the transverse and vertical cutting vibration mechanism 103, and finally, the transverse and vertical integrated cutting assembly is driven to move through the vertical cutting frame main body 2 and the vertical cutting frame lifting guide rail 6 so as to assist in cutting the foam board.

Through the steps, the transverse and vertical integrated cutting assembly is driven to move through the vertical cutting frame main body 2, the cutting frame travelling guide rail 4 and the vertical cutting frame lifting guide rail 6 to assist in cutting the foam board, transverse cutting and vertical cutting processing are carried out on the foam board through the vertical cutting structure 101, the transverse cutting structure 102 and the transverse and vertical cutting vibration mechanism 103, occupied space is reduced, and the foam board is driven to move through the moving vehicle 801, the rotating support 806 and the sliding support frame 812, so that the transportation efficiency and convenience are improved, the problem that in the workpiece cutting process, the plastic foam board to be cut is large in size because most of the existing integrated three-dimensional cutting machine is provided with a large cutting line structure is solved, the occupied space of the cutting line is long, the maintenance cost is increased, the use cost of the integrated three-dimensional cutting machine is increased, and the use effect of the whole integrated three-dimensional cutting machine can be improved.

Claims (7)

1. The integrated three-dimensional cutting machine comprises a vertical cutting frame main body (2), a cutting frame walking guide rail (4) and a vertical cutting frame lifting guide rail (6), and is characterized by further comprising a horizontal and vertical integrated cutting assembly and a conveying assembly, wherein the horizontal and vertical integrated cutting assembly comprises a vertical cutting structure (101), one side end part of the vertical cutting structure (101) is provided with a transverse cutting structure (102), the lower end part of the transverse cutting structure (102) is provided with a horizontal and vertical cutting vibration mechanism (103), one side end part of the front end part and the rear end part of the horizontal and vertical cutting vibration mechanism (103) is rotatably connected with a driven wheel (104) through a rotating shaft, and the other side end part of the front end part and the rear end part of the horizontal and vertical cutting vibration mechanism (103) is rotatably connected with a driving wheel (105) through a rotating shaft.

2. An integrated three-dimensional cutting machine according to claim 1, wherein a vertical cutting frame body (2) is arranged at one side end part of the driving wheel (105), a vertical cutting frame (3) is arranged at the upper end part of the vertical cutting frame body (2), and a cutting frame travelling guide rail (4) is arranged at the lower end part of the vertical cutting frame body (2).

3. The integrated three-dimensional cutting machine according to claim 2 is characterized in that an underframe (5) is arranged at the upper end part of a cutting frame walking guide rail (4), a vertical cutting frame lifting guide rail (6) is arranged at one side end part of a vertical cutting frame main body (2), and vertical cutting lifting mechanisms (7) are arranged at two side end parts of a vertical cutting frame (3).

4. The integrated three-dimensional cutting machine is characterized in that a carrying assembly is arranged at the other side end part of the transverse and vertical integrated cutting assembly, the carrying assembly comprises a moving vehicle (801), a butt joint opening (802) is fixedly connected to one side end part of the moving vehicle (801), a motor (803) is arranged on the inner side of the moving vehicle (801), and a rotating wheel (804) is arranged on a rotating shaft of the motor (803) through a coupler.

5. The integrated three-dimensional cutting machine according to claim 4, wherein the upper end part of the moving vehicle (801) is rotatably connected with a supporting rotary roller (805) through a rotary shaft, one side end part of the moving vehicle (801) is rotatably connected with a rotary bracket (806) through the rotary shaft, and a chute (807) is formed in the rotary bracket (806).

6. The integrated three-dimensional cutting machine according to claim 5, wherein the upper end portion of the rotating bracket (806) is rotatably connected with a top plate (808) through a rotating shaft, a first hydraulic push rod (809) is mounted on the upper end portion of the top plate (808), and a pressing plate (810) is mounted on the first hydraulic push rod (809).

7. The integrated three-dimensional cutting machine according to claim 6, wherein a connecting frame (811) is rotatably connected to one side end portion of a top plate (808) through a rotating shaft, a sliding support frame (812) is arranged at the lower end portion of the connecting frame (811), a second hydraulic push rod (813) is mounted on the sliding support frame (812), a support plate (814) is mounted on the second hydraulic push rod (813), sliding frames (815) are arranged at two side end portions of the sliding support frame (812), and the sliding frames (815) and the rotating support frame (806) are arranged in a sliding connection through sliding grooves (807).