CN220295855U - Material moving device for numerical control lathe with feeding tailstock - Google Patents

Abstract

The utility model discloses a material moving device for a numerical control lathe with a feeding tail frame, which comprises a linear guide rail, wherein a material carrying plate is arranged below the linear guide rail and is in sliding connection with the linear guide rail, one end of the linear guide rail is provided with a horizontal driving piece and a vertical driving piece, the horizontal driving piece is used for driving the material carrying plate to slide along the linear guide rail, a material pushing rod is arranged below the vertical driving piece, the material pushing rod is fixedly connected with the output end of the vertical driving piece, the material pushing rod and the material carrying plate are positioned on the same straight line, and the vertical driving piece is used for driving the material pushing rod to move up and down. The utility model provides a material moving device for a numerical control lathe with a feeding tailstock, which can move a machined workpiece out of the numerical control lathe, omits the step of manually sorting the workpiece, and reduces the machining cost.

Description

Material moving device for numerical control lathe with feeding tailstock

Technical Field

The utility model relates to the technical field of numerically controlled lathes, in particular to a material moving device for a numerically controlled lathe with a material feeding tailstock.

Background

A numerical control lathe is one of the numerical control lathes that are widely used. The cutting tool is mainly used for cutting machining of inner and outer cylindrical surfaces, inner and outer conical surfaces with any cone angle, complex rotation inner and outer curved surfaces, cylindrical threads, conical threads and the like of shaft workpieces or disc workpieces, and can be used for grooving, drilling, reaming, boring and the like.

The numerical control lathe with the feeding tail frame can enable the workpiece, shavings, cooling water and other waste materials to fall into the lathe cavity freely during machining, and the workpiece is sorted out of the shavings and other waste materials through manpower, so that the numerical control lathe is complex in operation, labor-consuming and high in machining cost.

Disclosure of Invention

The utility model aims to provide a material moving device for a numerical control lathe with a feeding tail frame, which can move a machined workpiece out of the numerical control lathe, saves the step of manually sorting the workpiece and reduces the machining cost.

The utility model discloses a material moving device for a numerical control lathe with a material feeding tailstock, which adopts the following technical scheme:

the utility model provides a move material device for taking numerical control lathe of pay-off tailstock, includes linear guide, linear guide's below is equipped with carries the flitch, carry flitch and linear guide sliding connection, linear guide one end is equipped with horizontal drive spare and vertical drive spare, horizontal drive spare is used for driving carries the flitch along linear guide slip, vertical drive spare's below is equipped with the ejector pin, the output fixed connection of ejector pin and vertical drive spare, just ejector pin and carry the flitch to be located same straight line, vertical drive spare is used for driving the ejector pin and reciprocates.

As the preferable scheme, the material frame is further included, the material frame is arranged on one side, far away from the material carrying plate, of the material pushing rod, and the material frame is positioned below the material carrying plate.

As the preferable scheme, the material frame is close to the deflector that is equipped with of pushing ram one side, the deflector is located between material frame and the year flitch, just the deflector is towards the setting of material frame downward sloping.

As the preferable scheme, the loading plate comprises a vertical section and a horizontal section which are connected, one end of the vertical section, which is far away from the horizontal section, is in sliding connection with the linear guide rail, and the horizontal section is in a V shape or a U shape.

As the preferable scheme, the horizontal driving piece is the motor, the both ends of linear guide all rotate and are equipped with the belt roller, belt roller and horizontal driving piece's output fixed connection, the surface of belt roller is around being equipped with conveyer, loading board one end and conveyer fixed connection.

As a preferable scheme, the horizontal driving piece is a first cylinder, the output end of the first cylinder is fixedly provided with a sliding block, the sliding block is in sliding connection with the linear guide rail, and one end of the material carrying plate is fixedly connected with the sliding block.

Preferably, the vertical driving member is a second cylinder.

As an optimal scheme, the linear guide rail is provided with a sensor, and the sensor is positioned on one side of the vertical driving piece, which is close to the material carrying plate.

The utility model discloses a material moving device for a numerical control lathe with a material feeding tailstock, which has the beneficial effects that: the position of the whole material moving device corresponding to the cutter is arranged on the numerical control lathe, after the workpiece is machined, a horizontal driving piece is started, the material carrying plate is driven to move to the lower side of the workpiece, then the workpiece is cut off, the workpiece naturally drops onto the material carrying plate, the horizontal driving piece drives the material carrying plate to move towards the direction close to the material pushing rod until the workpiece passes over the material pushing rod, the vertical driving piece drives the material pushing rod to move downwards until the material pushing rod blocks the workpiece, then the horizontal driving piece drives the material carrying plate to move towards the direction close to the cutter, the workpiece on the material carrying plate naturally drops from the material carrying plate under the blocking of the material pushing rod, the material carrying plate continues to move next time, and the vertical driving piece drives the material pushing rod to reset, so that the machined workpiece is moved out of the numerical control lathe, the step of manually sorting the workpiece is omitted, and the machining cost is reduced.

Drawings

Fig. 1 is a schematic structural view of a transfer device for a numerically controlled lathe with a feed tailstock according to the present utility model.

Fig. 2 is a schematic diagram of an installation structure of a material moving device for a numerically controlled lathe with a material feeding tail frame.

10. A linear guide rail; 20. a material carrying plate; 21. a vertical section; 22. a horizontal section; 30. a horizontal driving member; 40. a vertical driving member; 50. a pushing rod; 60. a material frame; 61. a guide plate; 70. a sensor; 80. a numerical control lathe; 81. a workpiece.

Detailed Description

The utility model is further illustrated and described below in conjunction with the specific embodiments and the accompanying drawings:

referring to fig. 1 and 2, a material moving device for a numerically controlled lathe with a material feeding tail frame includes a linear guide rail 10, a material carrying plate 20 is disposed below the linear guide rail 10, the material carrying plate 20 is slidably connected with the linear guide rail 10, one end of the linear guide rail 10 is provided with a horizontal driving member 30 and a vertical driving member 40, the horizontal driving member 30 is used for driving the material carrying plate 20 to slide along the linear guide rail 10, a material pushing rod 50 is disposed below the vertical driving member 40, the material pushing rod 50 is fixedly connected with an output end of the vertical driving member 40, the material pushing rod 50 and the material carrying plate 20 are located on the same straight line, and the vertical driving member 40 is used for driving the material pushing rod 50 to move up and down.

The whole material moving device is arranged on the numerical control lathe 80 at the position corresponding to the cutter, after the workpiece 81 is machined, the horizontal driving piece 30 is started to drive the material carrying plate 20 to move to the lower part of the workpiece 81, then the workpiece 81 is cut off, the workpiece 81 naturally drops onto the material carrying plate 20, the horizontal driving piece 30 drives the material carrying plate 20 to move towards the direction close to the material pushing rod 50 until the workpiece passes through the material pushing rod 50, the vertical driving piece 40 drives the material pushing rod 50 to move downwards until the material pushing rod 50 stops the workpiece 81, then the horizontal driving piece 30 drives the material carrying plate 20 to move towards the direction close to the cutter, the workpiece 81 on the material carrying plate 20 naturally drops from the material carrying plate 20 under the stop of the material pushing rod 50, the next material moving of the material carrying plate 20 is continued, the vertical driving piece 40 drives the material pushing rod 50 to reset, and therefore the machined workpiece 81 is moved out of the numerical control lathe 80, the step of manually sorting the workpiece 81 is omitted, and machining cost is reduced.

Specifically, the material frame 60 is further included, the material frame 60 is disposed on a side of the pushing rod 50 away from the material carrying plate 20, and the material frame 60 is disposed below the material carrying plate 20. The material frame 60 is used for collecting the processed work 81. After the carrier plate 20 moves to above the frame 60 with the workpiece 81, the workpiece 81 is pushed down into the frame 60 by the pushing bar 50.

Specifically, a guide plate 61 is disposed on one side of the material frame 60 near the pushing rod 50, the guide plate 61 is located between the material frame 60 and the material carrying plate 20, and the guide plate 61 is disposed obliquely downward toward the material frame 60. In the process that the workpiece 81 is pushed to fall to the material frame 60 from the material carrying plate 20 by the material pushing rod 50, the workpiece 81 falls on the guide plate 61 first, and then slides into the material carrying frame 60 along the guide plate 61, so that damage caused when the workpiece 81 falls can be reduced.

Specifically, the loading plate 20 comprises a vertical section 21 and a horizontal section 22 which are connected, one end, far away from the horizontal section 22, of the vertical section 21 is in sliding connection with the linear guide rail 10, and the horizontal section 22 is in a V shape or a U shape. The vertical section 21 of the loading plate 20 is slidably mounted on the linear guide rail 10, and the horizontal section 22 is used for placing the workpiece 81. The V-shaped or U-shaped horizontal segment 22 facilitates placement of the shaft-like workpiece 81, and prevents the workpiece 81 from rolling out of the carrier plate 20 during movement.

Specifically, the horizontal driving member 30 is a motor, two ends of the linear guide rail 10 are respectively provided with a belt roller in a rotating manner, the belt rollers are fixedly connected with the output end of the horizontal driving member 30, a conveying belt is wound on the surface of the belt rollers, and one end of the material carrying plate 20 is fixedly connected with the conveying belt. The motor drives the belt to rotate, so that the material carrying plate 20 is driven to slide along the linear guide rail 10. In other embodiments, the horizontal driving member 30 may also be a second cylinder, and the second cylinder drives the loading plate to move along the linear guide rail 10.

Specifically, the horizontal driving member 30 is a first cylinder, the output end of the first cylinder is fixedly provided with a sliding block, the sliding block is slidably connected with the linear guide rail 10, and one end of the material carrying plate 20 is fixedly connected with the sliding block. The loading plate 20 is driven to move along the linear guide rail 10 by the first cylinder.

Specifically, the vertical driving member 40 is a second cylinder.

Specifically, the linear guide rail 10 is provided with a sensor 70, and the sensor 70 is located at one side of the vertical driving member 40 close to the loading plate 20. When the material carrying plate 20 drives the workpiece 81 to move to the blanking position, the sensor 70 transmits signals to the vertical driving piece 40, and the vertical driving piece 40 drives the material pushing rod 50 to move, so that blanking is completed.

The utility model provides a material moving device for a numerical control lathe with a feeding tail frame, wherein the whole material moving device is arranged on the numerical control lathe at a position corresponding to a cutter, after the processing of a workpiece is finished, a horizontal driving part is started, a material carrying plate is driven to move to the lower part of the workpiece, then the workpiece is cut off, the workpiece naturally falls onto the material carrying plate, the horizontal driving part drives the material carrying plate to move towards the direction close to a material pushing rod until the workpiece passes over the material pushing rod, a vertical driving part drives the material pushing rod to move downwards until the material pushing rod blocks the workpiece, then the horizontal driving part drives the material carrying plate to move towards the direction close to the cutter, the workpiece on the material carrying plate naturally falls from the material carrying plate under the blocking of the material pushing rod, the material carrying plate continues to move next time, and the vertical driving part drives the material pushing rod to reset, so that the processed workpiece is moved out of the numerical control lathe, the step of manually sorting the workpiece is omitted, and the processing cost is reduced.

Finally, it should be noted that the above embodiments are only for illustrating the technical solution of the present utility model, and not for limiting the scope of the present utility model, and although the present utility model has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions can be made to the technical solution of the present utility model without departing from the spirit and scope of the technical solution of the present utility model.

Claims (8)

1. A move material device for taking numerical control lathe of pay-off tailstock, a serial communication port, including linear guide, linear guide's below is equipped with carries the flitch, carry flitch and linear guide sliding connection, linear guide one end is equipped with horizontal driving piece and vertical driving piece, horizontal driving piece is used for driving carries the flitch to slide along linear guide, vertical driving piece's below is equipped with the ejector pin, ejector pin and vertical driving piece's output fixed connection, just ejector pin and carry the flitch to be located same straight line, vertical driving piece is used for driving the ejector pin and reciprocates.

2. The transfer device for a numerically controlled lathe with a feed tail stock of claim 1, further comprising a frame, wherein the frame is disposed on a side of the pusher arm away from the carrier plate, and the frame is disposed below the carrier plate.

3. The material moving device for the numerical control lathe with the feeding tail frame according to claim 2, wherein a guide plate is arranged on one side, close to the pushing rod, of the material frame, the guide plate is positioned between the material frame and the material carrying plate, and the guide plate is arranged in a downward inclined mode towards the material frame.

4. The material moving device for the numerical control lathe with the feeding tail frame according to claim 1, wherein the material carrying plate comprises a vertical section and a horizontal section which are connected, one end of the vertical section away from the horizontal section is in sliding connection with the linear guide rail, and the horizontal section is in a V shape or a U shape.

5. The material moving device for the numerical control lathe with the feeding tail frame according to claim 1, wherein the horizontal driving piece is a motor, two ends of the linear guide rail are respectively provided with a belt roller in a rotating mode, the belt rollers are fixedly connected with the output end of the horizontal driving piece, a conveying belt is wound on the surface of the belt rollers, and one end of the material carrying plate is fixedly connected with the conveying belt.

6. The material moving device for the numerical control lathe with the feeding tail frame according to claim 1, wherein the horizontal driving piece is a first cylinder, a sliding block is fixedly arranged at the output end of the first cylinder, the sliding block is in sliding connection with the linear guide rail, and one end of the material carrying plate is fixedly connected with the sliding block.

7. A transfer device for a numerically controlled lathe with a feed tailstock as in claim 1, wherein the vertical drive is a second cylinder.

8. The material moving device for the numerically controlled lathe with the material feeding tail frame according to claim 1, wherein the linear guide rail is provided with a sensor, and the sensor is positioned on one side of the vertical driving piece, which is close to the material carrying plate.