CN210336242U

CN210336242U - Full-automatic foam cutting machine

Info

Publication number: CN210336242U
Application number: CN201921014217.2U
Authority: CN
Inventors: 华金棒
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-06-21
Filing date: 2019-06-21
Publication date: 2020-04-17
Anticipated expiration: 2029-06-21

Abstract

The utility model relates to a foam cutting equipment technical field, specifically speaking relates to a full-automatic foam cutting machine. The cutting machine comprises a machine body and a control system, wherein the machine body comprises a base and a cutting mechanism assembled on the base, and the top of the base is provided with a workbench; the cutting mechanism comprises an X-Z direction cutting device and a Y-Z direction cutting device. The utility model discloses the direction that need not artifical adjustment foam material among the cutting process has reduced workman's intensity of labour, simultaneously, has guaranteed the off-the-shelf qualification rate, has reduced the waste of material.

Description

Full-automatic foam cutting machine

Technical Field

The utility model relates to a foam cutting equipment technical field, specifically speaking relates to a full-automatic foam cutting machine.

Background

At present, with the development of e-commerce, people increasingly choose to shop online, including some fragile goods. Fragile products are easy to damage in the long-distance transportation process, and foam packages are widely used in the field of packaging due to the fact that the foam packages have the capacity of absorbing impact load, good heat insulation performance and strong ageing resistance and corrosion resistance. Since the application fields are wide and the shape of the foam package is required to be various, the foam is required to be further cut and processed into a desired shape.

At present, a foam cutting machine on the market can only cut in the X direction and the Z direction, and after the cutting in the X direction and the Z direction is completed, a semi-finished product is manually turned for 90 degrees on a workbench and then cut. When the foam cutting machine is used for cutting the packaging foam, time and labor are wasted, and the foam is easy to damage, so that the waste of materials is caused.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a full-automatic foam cutting machine solves above technical problem.

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

a full-automatic foam cutting machine comprises a machine body and a control system, wherein the machine body comprises a base and a cutting mechanism assembled on the base, and the top of the base is provided with a workbench; the cutting mechanism comprises an X-Z direction cutting device and a Y-Z direction cutting device; the X-Z direction cutting device comprises two first upright columns symmetrically arranged on two sides of a base, the first upright columns are respectively assembled on the base through an X-axis screw and an X-axis ball sliding block which are assembled on the side surfaces of the two sides of the base, and the first upright columns horizontally move along the X-axis screw under the driving of a stepping motor; the first stand column is respectively provided with a first Z-axis lead screw and a first Z-axis ball slide block, the first Z-axis ball slide blocks are respectively assembled on the first Z-axis lead screws and move up and down along the first Z-axis lead screws under the driving of the stepping motor, and an X-Z direction cutting electric heating wire is arranged between the two first Z-axis ball slide blocks; the Y-Z direction cutting device comprises two second upright columns symmetrically arranged at two ends of the base, the second upright columns are respectively assembled on the base through a Y-axis screw and a Y-axis ball sliding block which are assembled on the side surfaces of the two ends of the base, and the second upright columns horizontally move along the Y-axis screw under the driving of the stepping motor; and the second Z-axis lead screw and the second Z-axis ball slide blocks are respectively assembled on the second upright post, the second Z-axis ball slide blocks are respectively assembled on the second Z-axis lead screw and move up and down along the second Z-axis lead screw under the driving of the stepping motor, and a Y-Z direction cutting electric heating wire is arranged between the two second Z-axis ball slide blocks.

Furthermore, the stepping motor, the heater for the heating wire for cutting in the X-Z direction and the heater for the heating wire for cutting in the Y-Z direction are respectively connected and controlled by a control system.

Still further, the X-Z direction cutting device further comprises X-axis guide rails assembled on the side faces of the two sides of the base, an X-axis sliding block assembled on the X-axis ball sliding block and matched with the X-axis guide rails, a first Z-axis guide rail assembled on the first upright post and a first Z-axis sliding block assembled on the first Z-axis ball sliding block and matched with the first Z-axis guide rail.

Furthermore, the Y-Z direction cutting device further comprises a Y-axis guide rail assembled on the side faces of the two ends of the base, a Y-axis sliding block assembled on the Y-axis ball sliding block and matched with the Y-axis guide rail, a second Z-axis guide rail assembled on the second upright post and a second Z-axis sliding block assembled on the second Z-axis ball sliding block and matched with the second Z-axis guide rail.

Has the advantages that: compared with the prior art, the utility model discloses the direction that need not artifical adjustment foam among the cutting process has reduced workman's intensity of labour, simultaneously, has guaranteed the off-the-shelf qualification rate, has reduced the waste of material.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the following detailed description.

Examples

Referring to fig. 1, the full-automatic foam cutting machine of this embodiment includes a machine body and a control system, the machine body includes a base 1 and a cutting mechanism assembled on the base 1, and a workbench 2 is arranged on the top of the base 1. The cutting mechanism comprises an X-Z direction cutting device and a Y-Z direction cutting device. Wherein:

the X-Z direction cutting device comprises two first upright posts 3 which are symmetrically arranged on two sides of a base 1, wherein the first upright posts 3 are respectively assembled on the base 1 through an X-axis screw rod 4 and an X-axis ball sliding block 5 which are assembled on the side surfaces of two sides of the base 1, and horizontally move along the X-axis screw rod 4 under the driving of a stepping motor. The first stand column 3 is respectively provided with a first Z-axis screw rod 6 and a first Z-axis ball slide block 7, the first Z-axis ball slide blocks 7 are respectively arranged on the first Z-axis screw rods 6 and move up and down along the first Z-axis screw rods 6 under the driving of a stepping motor, and an X-Z direction cutting electric heating wire 8 is arranged between the two first Z-axis ball slide blocks 7.

The Y-Z direction cutting device comprises two second upright posts 9 which are symmetrically arranged at two ends of the base 1, wherein the second upright posts 9 are respectively assembled on the base 1 through a Y-axis screw rod 10 and a Y-axis ball sliding block 11 which are assembled on the side surfaces of two ends of the base 1, and horizontally move along the Y-axis screw rod 10 under the driving of a stepping motor. The second upright post 9 is respectively provided with a second Z-axis screw 12 and a second Z-axis ball slide block 13, the second Z-axis ball slide blocks 13 are respectively arranged on the second Z-axis screw 12 and move up and down along the second Z-axis screw 12 under the driving of the stepping motor, and a Y-Z direction cutting electric heating wire 14 is arranged between the two second Z-axis ball slide blocks 13.

The stepping motor, the heater of the X-Z direction cutting electric heating wire 8 and the heater of the Y-Z direction cutting electric heating wire 14 are respectively connected and controlled by a control system.

In order to ensure the stability of the movement of the X-axis ball slide 5 in the X-axis direction and the stability of the movement of the first Z-axis ball slide 7 in the Z-axis direction, the X-Z direction cutting apparatus further includes X-axis guide rails 15 assembled on both side surfaces of the base 1, an X-axis slide 16 assembled on the X-axis ball slide 5 and matched with the X-axis guide rails 15, first Z-axis guide rails 17 assembled on the first column 3, and a first Z-axis slide assembled on the first Z-axis ball slide 7 and matched with the first Z-axis guide rails 17.

In order to ensure the stability of the movement of the Y-axis ball slide 11 in the Y-axis direction and the stability of the movement of the second Z-axis ball slide 13 in the Z-axis direction, the Y-Z direction cutting apparatus further includes Y-axis guide rails 18 mounted on both end side surfaces of the base 1, a Y-axis slide 19 mounted on the Y-axis ball slide 11 and matched with the Y-axis guide rails 18, a second Z-axis guide rail 20 mounted on the second column 9, and a second Z-axis slide mounted on the second Z-axis ball slide 13 and matched with the second Z-axis guide rail 20.

The working principle of the utility model is as follows:

putting a whole block of foam material on a workbench 2, operating an X-Z direction cutting device under the control of a program, firstly cutting a pattern on the foam material, cutting the pattern into a plurality of blocks by the X-Z direction cutting device along the X-axis direction according to the required length of the packaging material, and finally further cutting the foam material along the Y-axis direction by the Y-Z direction cutting device according to the required thickness of the packaging material to obtain the finished packaging material.

The utility model discloses the direction that need not artifical adjustment foam material among the cutting process has reduced workman's intensity of labour, simultaneously, has guaranteed the off-the-shelf qualification rate, has reduced the waste of material.

The above is only the embodiment of the present invention, not so limit on the other hand through the patent scope of the present invention, all utilize the equivalent structure made in the specification and the attached drawings, directly or indirectly apply to other related technical fields, all with the same principle within the patent protection scope of the present invention.

Claims

1. A full-automatic foam cutting machine comprises a machine body and a control system, wherein the machine body comprises a base (1) and a cutting mechanism assembled on the base (1), and the top of the base (1) is provided with a workbench (2); the method is characterized in that: the cutting mechanism comprises an X-Z direction cutting device and a Y-Z direction cutting device; the X-Z direction cutting device comprises two first upright posts (3) which are symmetrically arranged on two sides of a base (1), wherein the first upright posts (3) are respectively assembled on the base (1) through an X-axis lead screw (4) and an X-axis ball sliding block (5) which are assembled on the side surfaces of the two sides of the base (1), and horizontally move along the X-axis lead screw (4) under the driving of a stepping motor; the first upright post (3) is respectively provided with a first Z-axis lead screw (6) and a first Z-axis ball sliding block (7), the first Z-axis ball sliding blocks (7) are respectively arranged on the first Z-axis lead screws (6) and move up and down along the first Z-axis lead screws (6) under the driving of a stepping motor, and an X-Z direction cutting electric heating wire (8) is arranged between the two first Z-axis ball sliding blocks (7); the Y-Z direction cutting device comprises two second upright posts (9) which are symmetrically arranged at two ends of the base (1), the second upright posts (9) are respectively assembled on the base (1) through a Y-axis screw (10) and a Y-axis ball sliding block (11) which are assembled on the side surfaces of two ends of the base (1), and the second upright posts horizontally move along the Y-axis screw (10) under the driving of a stepping motor; and the second upright post (9) is respectively assembled with a second Z-axis screw (12) and a second Z-axis ball slide block (13), the second Z-axis ball slide blocks (13) are respectively assembled on the second Z-axis screw (12) and move up and down along the second Z-axis screw (12) under the driving of a stepping motor, and a Y-Z direction cutting electric heating wire (14) is arranged between the two second Z-axis ball slide blocks (13).

2. The full-automatic foam cutting machine according to claim 1, characterized in that: the stepping motor, the heater of the X-Z direction cutting electric heating wire (8) and the heater of the Y-Z direction cutting electric heating wire (14) are respectively connected and controlled by a control system.

3. The full-automatic foam cutting machine according to claim 1 or 2, characterized in that: the X-Z direction cutting device further comprises X-axis guide rails (15) assembled on the side faces of the two sides of the base (1), an X-axis sliding block (16) assembled on the X-axis ball sliding block (5) and matched with the X-axis guide rails (15), a first Z-axis guide rail (17) assembled on the first upright post (3) and a first Z-axis sliding block assembled on the first Z-axis ball sliding block (7) and matched with the first Z-axis guide rail (17).

4. The full-automatic foam cutting machine according to claim 1 or 2, characterized in that: the Y-Z direction cutting device further comprises Y-axis guide rails (18) assembled on the side faces of the two ends of the base (1), Y-axis sliding blocks (19) assembled on the Y-axis ball sliding blocks (11) and matched with the Y-axis guide rails (18), second Z-axis guide rails (20) assembled on the second upright posts (9) and second Z-axis sliding blocks assembled on the second Z-axis ball sliding blocks (13) and matched with the second Z-axis guide rails (20).