CN209937007U - Flexible material numerical control vibration sword cutting machine with vacuum adsorption function - Google Patents

Abstract

The utility model discloses a flexible material numerical control vibration sword cutting machine with vacuum adsorption function, include: a machine tool body, an X axis, a Y axis and a Z axis; the Y axis is fixedly arranged on the machine tool main body; the X axis is arranged on the Y axis above the machine tool main body in a sliding way; the Z axis is slidably arranged on the X axis above the machine tool main body and is used for finishing the operation of cutting the flexible product; the machine tool main body includes: the vacuum adsorption device comprises a rack, a vacuum adsorption platform, a vacuum adsorption mechanism and a sheet metal part arranged on the outer surface of the rack; the vacuum adsorption mechanism is installed on the frame, the vacuum adsorption platform is installed on the frame above the vacuum adsorption mechanism, the Y axis and the vacuum adsorption platform are installed on the machine tool in parallel, and the vacuum adsorption platform is driven by the vacuum adsorption mechanism to realize the operation of adsorbing products. The utility model discloses an air in the vacuum adsorption mechanism suction vacuum adsorption platform utilizes pressure firmly to adsorb the product at the vacuum adsorption bench, ensures that the product does not produce on the workstation and slides, does not harm the product surface, improves the product yield.

Description

Flexible material numerical control vibration sword cutting machine with vacuum adsorption function

Technical Field

The utility model relates to a cutting device technical field especially relates to a flexible material numerical control vibration sword cutting machine with vacuum adsorption function.

Background

With the rapid development of scientific technology and the rapid increase of the labor cost of the society, a plurality of cutting machines capable of replacing most of the traditional manual cutting flexible material operation are correspondingly launched on the market, and the labor cost is reduced through the cutting machines. The existing cutting machine cannot adsorb and stabilize a product to be processed, so that the product is easy to slide on a workbench in the cutting process, the cutting surface of the product is damaged, the production efficiency is influenced, the product quality is damaged, and the product yield is reduced.

Accordingly, the prior art is deficient and needs improvement.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming the not enough of prior art, provide a flexible material numerical control vibration sword cutting machine with vacuum adsorption function.

The technical scheme of the utility model as follows: the utility model provides a flexible material numerical control vibration sword cutting machine with vacuum adsorption function, includes: a machine tool body, an X axis, a Y axis and a Z axis; the Y shaft is fixedly arranged on the machine tool main body and is used for driving the X shaft to slide back and forth; the X shaft is slidably arranged on the Y shaft above the machine tool main body and is used for driving the Z shaft to slide left and right; the Z shaft is slidably arranged on the X shaft above the machine tool main body, and is provided with a high-frequency vibrating knife for completing the operation of cutting the flexible product;

the machine tool main body includes: the vacuum adsorption device comprises a rack, a vacuum adsorption platform, a vacuum adsorption mechanism and a sheet metal part arranged on the outer surface of the rack; the vacuum adsorption mechanism is arranged on the frame, the vacuum adsorption platform is arranged on the frame above the vacuum adsorption mechanism, the Y axis and the vacuum adsorption platform are arranged on the machine tool in parallel, and the vacuum adsorption platform is driven by the vacuum adsorption mechanism to realize the operation of adsorbing products;

the flexible material numerical control vibration knife cutting machine with the vacuum adsorption function further comprises an electric cabinet and a numerical control end, the numerical control end is fixedly mounted on the right side of the rack, the electric cabinet is arranged on the right side of the numerical control end, the electric cabinet is controlled by the numerical control end to control the flexible material numerical control vibration knife cutting machine, and the automatic cutting function is realized;

the frame includes: a foot rest, two rolling devices and a rotating bracket are arranged; the vacuum adsorption mechanism is arranged on the mounting foot stand; the vacuum adsorption platform is arranged on the mounting foot rest above the vacuum adsorption mechanism; the Y axis and the vacuum adsorption platform are arranged on the mounting foot rest in parallel; the two rolling devices are respectively arranged on the front side and the rear side of the mounting foot rest and are used for driving a product to slide on the vacuum adsorption table, so that the equipment can conveniently load and unload materials; the rotary support is fixedly arranged on the right side of the mounting foot rest, and the numerical control end is fixedly arranged on the rotary support.

Further, the vacuum adsorption mechanism comprises two vacuum adjusting groups; the two vacuum adjusting groups are symmetrically arranged on the rack and are composed of four vacuum adjusting devices, the vacuum adjusting devices are connected with the vacuum adsorption platform, and the vacuum adjusting devices drive the vacuum adsorption platform to realize the operation of adsorbing products.

Further, the Y-axis comprises: the Y-axis guide rail, the Y-axis rack, the Y-axis driving device and the X-axis moving platform; the Y-axis guide rail and the Y-axis rack are arranged on the rack in parallel; the X-axis moving platform is slidably arranged on the Y-axis guide rail; the X axis is arranged above the X axis moving platform; the Y-axis driving device is fixedly installed on the X-axis moving platform, the output end of the Y-axis driving device penetrates out of the X-axis moving platform and is meshed with the Y-axis rack to be connected, and the Y-axis driving device drives the X-axis moving platform to realize front and back sliding.

Further, the X-axis comprises: the X-axis mounting seat, the X-axis guide rail, the X-axis rack, the X-axis driving device and the Z-axis moving platform are arranged on the X-axis mounting seat; the X-axis mounting seat is slidably mounted on the Y axis; the X-axis guide rail is fixedly arranged in front of the X-axis mounting seat; the X-axis rack is fixedly arranged above the X-axis mounting seat; the Z-axis moving platform is slidably mounted on the X-axis guide rail, and an X-axis supporting plate is arranged on the rear side of the Z-axis moving platform; the X-axis driving device is fixedly installed on the X-axis supporting plate, the output end of the X-axis driving device penetrates out of the X-axis supporting plate and is meshed with the X-axis rack to be connected, and the Z-axis moving platform is driven by the X-axis driving device to slide left and right.

Furthermore, the X-axis still includes two inductive switches, two inductive switches respectively in the left and right sides both ends of X-axis guide rail install in the X-axis mount pad, through two inductive switches real-time response X-axis has the foreign matter, plays a guard action.

Furthermore, the Z axis comprises a Z axis base, a plurality of Z axis sliding assemblies and vibrating knife devices, and the number of the vibrating knife devices is matched with that of the Z axis sliding assemblies; the Z-axis base is slidably mounted on the X axis; the plurality of Z-axis sliding assemblies are arranged on the Z-axis base in parallel; the vibrating knife device can be slidably mounted on the Z-axis sliding component; the Z-axis sliding component drives the vibrating knife device to slide up and down, and the vibrating knife device vibrates at high speed to cut products.

Further, the Z-axis glide assembly comprises: the cutting device comprises a Z-axis guide rail, a cutting moving platform, a Z-axis driving device and a screw rod; the Z-axis guide rail is fixedly arranged on the Z-axis base; the cutting moving platform can be slidably arranged on the Z-axis guide rail; the vibrating knife device is fixedly arranged on the cutting moving platform; the Z-axis driving device is fixedly arranged on the Z-axis base above the Z-axis guide rail; one end of the screw rod is fixedly installed on the Z-axis driving device, the other end of the screw rod is fixedly installed on the cutting moving platform, the screw rod is driven by the Z-axis driving device to drive the cutting moving platform to lift, and the vibration knife device slides up and down.

By adopting the scheme, the utility model discloses following beneficial effect has:

1. the utility model comprises a vacuum adsorption platform and a vacuum adsorption mechanism, wherein the vacuum adsorption mechanism sucks air in the vacuum adsorption platform, and the product is firmly adsorbed on the vacuum adsorption platform by using pressure intensity, so that the product is firmly adsorbed, and the product is easy to slide on a workbench in the cutting process, thereby damaging the cutting surface of the workpiece, influencing the production efficiency, damaging the product quality and reducing the product yield;

2. in the preferred scheme, the installation mode of the vacuum adjusting box ensures that the product is accurately adsorbed, the local negative pressure is adsorbed, and the efficiency is high;

3. in the preferred scheme, the position of the numerical control end is easy to adjust and convenient to use;

4. in the preferred scheme, the rolling device is arranged on the rack, and the rolling device drives the product to slide on the vacuum adsorption platform, so that the equipment is convenient to feed and discharge, the time is saved, and the working efficiency is improved.

5. In the preferred scheme, the X axis comprises an inductive switch, and whether foreign matters such as the hands of processing personnel exist in the X axis is sensed in real time through the inductive switch, so that the processing personnel are protected.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

Fig. 1 is a schematic perspective view of the present invention;

fig. 2 is a schematic view of a partial three-dimensional structure of the present invention.

The objects, features and advantages of the present invention will be further described with reference to the accompanying drawings.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings and specific embodiments.

Referring to fig. 1 and 2, the utility model provides a flexible material numerical control vibration sword cutting machine with vacuum adsorption function, include: a machine tool body 1, an X-axis 2, a Y-axis 3 and a Z-axis 4; the Y shaft 3 is fixedly arranged on the machine tool main body 1 and is used for driving the X shaft 2 to slide back and forth; the X shaft 2 is slidably arranged on the Y shaft 3 above the machine tool main body 1 and is used for driving the Z shaft 4 to slide left and right; the Z shaft 4 is slidably arranged on the X shaft 2 above the machine tool body 1 and is used for finishing the operation of cutting a flexible product;

the machine tool body 1 includes: the vacuum adsorption device comprises a rack, a vacuum adsorption platform 11, a vacuum adsorption mechanism and a sheet metal part arranged on the outer surface of the rack; the vacuum adsorption mechanism is arranged on the frame, the vacuum adsorption platform 11 is arranged on the frame above the vacuum adsorption mechanism, the Y-axis 3 and the vacuum adsorption platform 11 are arranged on the machine tool in parallel, and the vacuum adsorption platform 11 is driven by the vacuum adsorption mechanism to realize the operation of adsorbing products;

the flexible material numerical control vibration knife cutting machine with the vacuum adsorption function further comprises an electric cabinet 13 and a numerical control end 14, the numerical control end 14 is fixedly installed on the right side of the rack, the electric cabinet 13 is arranged on the right side of the numerical control end 14, the electric cabinet 13 is controlled through the numerical control end 14 to control the flexible material numerical control vibration knife cutting machine, and the automatic cutting function is achieved;

the frame includes: a mounting foot rest 15, two rolling devices 16 and a rotating bracket 17; the vacuum adsorption mechanism is arranged on the mounting foot rest 15; the vacuum adsorption platform 11 is arranged on the mounting foot rest 15 above the vacuum adsorption mechanism; the Y axis 3 and the vacuum adsorption platform 11 are arranged on the mounting foot rest 15 in parallel; the two rolling devices 16 can be rolling shaft sets, and the two rolling devices 16 are respectively arranged on the front side and the rear side of the mounting foot rest 15 and are used for driving a product to slide on the vacuum adsorption platform 11 so as to facilitate loading and unloading of equipment; the rotating bracket 17 is fixedly arranged on the right side of the mounting foot rest 15, and the numerical control end 14 is fixedly arranged on the rotating bracket 17.

In this embodiment, the vacuum adsorption mechanism includes two vacuum adjustment sets; the two vacuum adjusting groups are symmetrically arranged on the rack and are composed of four vacuum adjusting devices 12, the vacuum adjusting devices 12 are connected with the vacuum adsorption platform 11, and the vacuum adjusting devices 12 drive the vacuum adsorption platform 11 to realize the operation of adsorbing products.

As a preferred embodiment, the vacuum adjusting device 12 is composed of a vacuum adjusting box and a positioning cylinder; the vacuum adjusting box is fixedly arranged on the rack and provided with a vacuum adjusting interface, the vacuum adjusting box is connected with the vacuum adsorption platform 11 and used for pumping out gas in the vacuum adsorption platform 11 and reducing the pressure in the vacuum adsorption platform 11, so that the lower surface of a product is tightly adsorbed by the vacuum adsorption platform 11, and the function of stabilizing the product is realized; the positioning cylinder is fixedly installed with the vacuum adjusting box and used for achieving accurate positioning of the vacuum adjusting device 12.

In the present embodiment, the Y-axis 3 includes: a Y-axis guide rail 31, a Y-axis rack 32, a Y-axis driving device 33 and an X-axis moving platform 34; the Y-axis guide rail 31 and the Y-axis rack 32 are arranged on the rack in parallel; the X-axis moving platform 34 is slidably mounted on the Y-axis guide rail 31; the X shaft 2 is arranged above the X shaft moving platform 34; y axle drive arrangement 33 fixed mounting X axle moving platform 34 is last, Y axle drive arrangement 33's output wear out X axle moving platform 34 and with Y axle rack 32 meshes the connection, drives X axle moving platform 34 through Y axle drive arrangement 33 and realizes sliding from beginning to end.

As one of the preferred embodiments, the Y-axis 3 further includes a Y-axis dust-proof strip 35 and a Y-axis protective cover 36; the Y-axis dust strip 35 is fixedly arranged on the rack above the Y-axis guide rail 31 and is used for preventing water splash and waste scraps generated in the machining process from sputtering into the Y-axis guide rail 31 and ensuring the transmission precision of the Y-axis 3; the Y-axis protective cover 36 is fixedly arranged on the X-axis moving platform 34 and used for preventing dust from entering the interior of the Y-axis driving device 33 and interfering with normal operation of equipment, and transmission precision of the Y-axis 3 is ensured.

In the present embodiment, the X-axis 2 includes: the X-axis mounting seat 21, the X-axis guide rail 22, the X-axis rack 23, the X-axis driving device 24 and the Z-axis 25 moving platform; the X-axis mounting seat 21 is slidably mounted on the Y-axis 3; the X-axis guide rail 22 is fixedly arranged in front of the X-axis mounting seat 21; the X-axis rack 23 is fixedly arranged above the X-axis mounting seat 21; the Z-axis 25 moving platform is slidably mounted on the X-axis guide rail 22, and an X-axis 2 supporting plate is arranged on the rear side of the Z-axis 25 moving platform; the X-axis driving device 24 is fixedly installed on the X-axis 2 supporting plate, the output end of the X-axis driving device 24 penetrates out of the X-axis 2 supporting plate and is meshed with the X-axis rack 23 to be connected, and the Z-axis 25 moving platform is driven by the X-axis driving device 24 to slide left and right.

As a preferred embodiment, the X-axis 2 further includes two inductive switches 26, the two inductive switches 26 are respectively installed at the left and right ends of the X-axis guide rail 22 on the X-axis installation base 21, when in use, one of the inductive switches transmits a signal, the other inductive switch receives a signal, and the two inductive switches 22 sense whether there is a foreign object such as a hand of a processing worker on the X-axis 2 in real time, when the signal transmission and reception between the two inductive switches 26 cannot be completed, the inductive switch 26 feeds back a signal to control the flexible material numerical control vibration knife cutting machine with the vacuum adsorption function to stop working, so as to protect the processing worker.

In this embodiment, the Z-axis 4 includes a Z-axis base 41, a plurality of Z-axis sliding assemblies, and a vibrating blade device 42 whose number matches the number of the Z-axis sliding assemblies; the Z-axis base 41 is slidably mounted on the X-axis 2; the plurality of Z-axis sliding assemblies are arranged on the Z-axis base 41 in parallel; the vibrating knife device 42 is slidably mounted on the Z-axis sliding component; the vibration knife device 42 is driven by the Z-axis sliding component to slide up and down, and the vibration knife device vibrates 42 at high speed to complete the operation of cutting products.

As one preferred embodiment, the Z-axis sliding assembly comprises: a Z-axis guide rail 43, a cutting moving platform 44, a Z-axis driving device 45 and a screw rod; the Z-axis guide rail 43 is fixedly arranged on the Z-axis base 41; the cutting moving platform 44 is slidably mounted on the Z-axis guide rail 43; the vibrating knife device 42 is fixedly arranged on the cutting moving platform 44; the Z-axis driving device 45 is fixedly mounted on the Z-axis base 41 above the Z-axis guide rail 43; one end of the screw rod is fixedly arranged on the Z-axis driving device 45, the other end of the screw rod is fixedly arranged on the cutting moving platform 44, the screw rod is driven by the Z-axis driving device 45 to drive the cutting moving platform 44 to lift, and the vibration knife device 42 can slide up and down.

The utility model discloses the theory of operation as follows:

after the equipment is powered on, a product is placed on the vacuum adsorption table 11, the vacuum adjusting device 12 is started to drive the vacuum adsorption table 11 to stably adsorb the product, and the Z-axis driving device 45 is started to drive the vibration cutter device 42 to descend to a height to be processed; when the vibrating knife device 42 reaches the height to be processed, the Z-axis driving device 45 is closed and the Y-axis driving device 33 and the X-axis driving device 24 are started, the Y-axis 3 drives the X-axis 2 to slide back and forth, the X-axis 2 drives the Z-axis 4 to slide left and right, and the X-axis 2, the Y-axis 3 and the Z-axis 4 are linked in a three-axis manner, so that the product is cut and processed within the range of 180 degrees; when the processing is finished, the Z-axis driving device 45 is started to drive the vibrating knife device 42 to reset, the Y-axis 3 and the X-axis 2 return to the initial state, the product is taken away from the vacuum adsorption platform 11, and the process is circulated.

Compared with the prior art, the utility model discloses following beneficial effect has:

1. the utility model comprises a vacuum adsorption platform and a vacuum adsorption mechanism, wherein the vacuum adsorption mechanism sucks air in the vacuum adsorption platform, and the product is firmly adsorbed on the vacuum adsorption platform by using pressure intensity, so that the product is firmly adsorbed, and the product is easy to slide on a workbench in the cutting process, thereby damaging the cutting surface of the workpiece, influencing the production efficiency, damaging the product quality and reducing the product yield;

2. in the preferred scheme, the installation mode of the vacuum adjusting box ensures that the product is accurately adsorbed, the local negative pressure is adsorbed, and the efficiency is high;

3. in the preferred scheme, the position of the numerical control end is easy to adjust and convenient to use;

4. in the preferred scheme, the rolling device is arranged on the rack, and the rolling device drives the product to slide on the vacuum adsorption platform, so that the equipment is convenient to feed and discharge, the time is saved, and the working efficiency is improved.

5. In the preferred scheme, the X axis comprises an inductive switch, and whether foreign matters such as the hands of processing personnel exist in the X axis is sensed in real time through the inductive switch, so that the processing personnel are protected.

The above description is only exemplary of the present invention and should not be construed as limiting the present invention, and any modifications, equivalents and improvements made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (7)

1. The utility model provides a flexible material numerical control vibration sword cutting machine with vacuum adsorption function which characterized in that includes: a machine tool body, an X axis, a Y axis and a Z axis; the Y shaft is fixedly arranged on the machine tool main body and is used for driving the X shaft to slide back and forth; the X shaft is slidably arranged on the Y shaft above the machine tool main body and is used for driving the Z shaft to slide left and right; the Z shaft is slidably arranged on the X shaft above the machine tool main body, and is provided with a high-frequency vibrating knife for completing the operation of cutting the flexible product;

the machine tool main body includes: the vacuum adsorption device comprises a rack, a vacuum adsorption platform, a vacuum adsorption mechanism and a sheet metal part arranged on the outer surface of the rack; the vacuum adsorption mechanism is arranged on the frame, the vacuum adsorption platform is arranged on the frame above the vacuum adsorption mechanism, the Y axis and the vacuum adsorption platform are arranged on the machine tool in parallel, and the vacuum adsorption platform is driven by the vacuum adsorption mechanism to realize the operation of adsorbing products;

the flexible material numerical control vibration knife cutting machine with the vacuum adsorption function further comprises an electric cabinet and a numerical control end, the numerical control end is fixedly mounted on the right side of the rack, the electric cabinet is arranged on the right side of the numerical control end, the electric cabinet is controlled by the numerical control end to control the flexible material numerical control vibration knife cutting machine, and the automatic cutting function is realized;

the frame includes: a foot rest, two rolling devices and a rotating bracket are arranged; the vacuum adsorption mechanism is arranged on the mounting foot stand; the vacuum adsorption platform is arranged on the mounting foot rest above the vacuum adsorption mechanism; the Y axis and the vacuum adsorption platform are arranged on the mounting foot rest in parallel; the two rolling devices are respectively arranged on the front side and the rear side of the mounting foot rest and are used for driving a product to slide on the vacuum adsorption table, so that the equipment can conveniently load and unload materials; the rotary support is fixedly arranged on the right side of the mounting foot rest, and the numerical control end is fixedly arranged on the rotary support.

2. The numerical control flexible material vibrating knife cutting machine with vacuum adsorption function according to claim 1, characterized in that the vacuum adsorption mechanism comprises two vacuum adjusting groups; the two vacuum adjusting groups are symmetrically arranged on the rack and are composed of four vacuum adjusting devices, the vacuum adjusting devices are connected with the vacuum adsorption platform, and the vacuum adjusting devices drive the vacuum adsorption platform to realize the operation of adsorbing products.

3. The numerically controlled flexible material vibrating knife cutter with vacuum adsorption function according to claim 1, wherein the Y-axis comprises: the Y-axis guide rail, the Y-axis rack, the Y-axis driving device and the X-axis moving platform; the Y-axis guide rail and the Y-axis rack are arranged on the rack in parallel; the X-axis moving platform is slidably arranged on the Y-axis guide rail; the X axis is arranged above the X axis moving platform; the Y-axis driving device is fixedly installed on the X-axis moving platform, the output end of the Y-axis driving device penetrates out of the X-axis moving platform and is meshed with the Y-axis rack to be connected, and the Y-axis driving device drives the X-axis moving platform to realize front and back sliding.

4. The numerically controlled flexible material vibrating knife cutter with vacuum adsorption function according to claim 1, wherein the X-axis comprises: the X-axis mounting seat, the X-axis guide rail, the X-axis rack, the X-axis driving device and the Z-axis moving platform are arranged on the X-axis mounting seat; the X-axis mounting seat is slidably mounted on the Y axis; the X-axis guide rail is fixedly arranged in front of the X-axis mounting seat; the X-axis rack is fixedly arranged above the X-axis mounting seat; the Z-axis moving platform is slidably mounted on the X-axis guide rail, and an X-axis supporting plate is arranged on the rear side of the Z-axis moving platform; the X-axis driving device is fixedly installed on the X-axis supporting plate, the output end of the X-axis driving device penetrates out of the X-axis supporting plate and is meshed with the X-axis rack to be connected, and the Z-axis moving platform is driven by the X-axis driving device to slide left and right.

5. The numerical control flexible material vibrating knife cutting machine with vacuum adsorption function according to claim 1, characterized in that the X-axis further comprises two inductive switches, the two inductive switches are respectively installed at the left end and the right end of the X-axis guide rail on the X-axis installation seat, and the two inductive switches are used for sensing whether the X-axis has foreign objects in real time to play a role in protection.

6. The numerical control flexible material vibrating knife cutting machine with the vacuum adsorption function according to claim 1, characterized in that the Z axis comprises a Z axis base, a plurality of Z axis sliding assemblies and vibrating knife devices, the number of the vibrating knife devices is matched with that of the Z axis sliding assemblies; the Z-axis base is slidably mounted on the X axis; the plurality of Z-axis sliding assemblies are arranged on the Z-axis base in parallel; the vibrating knife device can be slidably mounted on the Z-axis sliding component; the Z-axis sliding component drives the vibrating knife device to slide up and down, and the vibrating knife device vibrates at high speed to cut products.

7. The numerically controlled flexible material vibrating knife cutter with vacuum suction function according to claim 6, wherein the Z-axis sliding assembly comprises: the cutting device comprises a Z-axis guide rail, a cutting moving platform, a Z-axis driving device and a screw rod; the Z-axis guide rail is fixedly arranged on the Z-axis base; the cutting moving platform can be slidably arranged on the Z-axis guide rail; the vibrating knife device is fixedly arranged on the cutting moving platform; the Z-axis driving device is fixedly arranged on the Z-axis base above the Z-axis guide rail; one end of the screw rod is fixedly installed on the Z-axis driving device, the other end of the screw rod is fixedly installed on the cutting moving platform, the screw rod is driven by the Z-axis driving device to drive the cutting moving platform to lift, and the vibration knife device slides up and down.

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