CN223699354U - High-precision double-sided machining numerical control lathe - Google Patents

Abstract

The utility model belongs to the field of numerically controlled lathes, and discloses a high-precision double-sided processing numerically controlled lathe which comprises a box body device for sealing protection, and further comprises a processing device which is arranged in the box body device and used for processing workpieces from two sides and moving liftout, wherein two material conveying devices for clamping and conveying the workpieces are symmetrically arranged on two sides of the processing device, each material conveying device comprises a material conveying sliding rail, a sliding table is arranged on each material conveying sliding rail, and a material clamping assembly is arranged at the bottom of each sliding table. According to the high-precision double-sided machining numerical control lathe, the workpiece is clamped and conveyed to the positioning seat of the machining position through the arrangement of clamping and conveying the workpiece and moving the liftout, then the workpiece is jacked into the main shaft clamping seat through the ejector rod to be clamped, and after the workpiece is machined, the workpiece is jacked onto the positioning seat on the discharging side and is sent out through the conveying device on the discharging side, so that automatic feeding and discharging are realized, and the machining speed is improved.

Description

High-precision double-sided machining numerical control lathe

Technical Field

The utility model belongs to the field of numerically controlled lathes, and particularly relates to a high-precision double-sided machining numerically controlled lathe.

Background

The numerical control lathe is characterized in that a machining program is input into a numerical control system, the numerical control system processes and calculates according to the input program, then sends out a command signal, and drives each moving part of the lathe through a servo system, so that relative movement is generated between a cutter and a workpiece, thereby realizing the machining of the part, the numerical control lathe can automatically finish various procedures such as turning, milling, drilling, boring and the like, and the double-sided machining numerical control lathe is an efficient machining lathe, can finish machining two surfaces of the workpiece, improves machining efficiency and precision, saves machining time and tool cost, and effectively ensures the concentricity of machining at two ends of the workpiece.

The chinese patent of contrast grant bulletin number CN214867495U discloses a horizontal accurate double-end numerical control lathe, including the workstation, the fixed position of top device of being convenient for, the while is convenient for move, the top center department of workstation is seted up flutedly, and the installation of the first motor of being convenient for simultaneously makes things convenient for installation between a plurality of devices, the interior bottom of recess is close to workstation lateral wall position symmetry fixedly connected with first motor, two the equal fixedly connected with first lead screw of drive shaft terminal surface of first motor, two the equal threaded connection of outer wall of first lead screw has the slide.

The above patent requires taking out the machined workpiece manually after machining is completed and placing a new workpiece to be machined, which reduces the machining speed. A new device is thus designed.

Disclosure of utility model

The utility model aims to provide a high-precision double-sided machining numerical control lathe so as to solve the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

The high-precision double-sided machining numerical control lathe comprises a box body device for sealing and protecting, and further comprises a machining device which is arranged in the box body device and is used for machining workpieces from two sides and moving liftout, wherein two conveying devices for clamping and conveying the workpieces are symmetrically arranged on two sides of the machining device;

the conveying device comprises a conveying sliding rail, a sliding table is arranged on the conveying sliding rail, and a clamping component is arranged at the bottom of the sliding table;

The processing device comprises a chip removal box, a main shaft clamping seat is arranged at the center of the chip removal box, two feed assemblies are symmetrically arranged on two sides of the main shaft clamping seat, and a material ejection assembly is arranged on the rear side of one side of the feed assemblies.

The box body device further comprises a box, a box door is arranged in front of the box, and an operation panel is arranged on one side of the box door.

The clamping assembly comprises an electric push rod, and a mechanical clamping jaw is arranged at the bottom of the electric push rod.

The cutter feeding assembly comprises a cutter feeding slide rail, a cutter changing slide rail is slidably arranged on the cutter feeding slide rail, cutter holders are slidably arranged on the cutter changing slide rail, three cutter holders are uniformly arranged on the cutter holders, and a positioning seat is arranged behind the three cutter holders.

The material ejection assembly comprises a material ejection sliding rail, a sliding seat is slidably arranged on the material ejection sliding rail, and a push rod is arranged below the sliding seat.

Further, the box door is of a two-half structure and is connected with the machine case in a sliding manner.

Compared with the prior art, the beneficial effects are that:

The workpiece is clamped and conveyed to the positioning seat of the processing position through the arrangement of clamping and conveying the workpiece and moving the liftout, then the workpiece is jacked into the main shaft clamping seat through the ejector rod to be clamped, and after the workpiece is processed, the workpiece is jacked onto the positioning seat at the discharging side and is sent out through the conveying device at the discharging side, so that automatic feeding and discharging are realized, and the processing speed is improved;

The workpiece to be processed is ejected out in the feeding process by arranging the feeding ejection workpiece, and feeding and discharging are performed simultaneously, so that the processing speed is further improved;

Through the setting of ejecting work piece of material loading, utilize the material loading action to push out the work piece, need not extra ejecting action, reduced the power supply.

Drawings

FIG. 1 is a schematic diagram of a high-precision double-sided machining numerically controlled lathe according to the present utility model;

FIG. 2 is an enlarged view of part A of a high-precision double-sided machining numerically controlled lathe according to the utility model;

FIG. 3 is a schematic diagram of a box assembly of a high-precision double-sided numerically controlled lathe according to the present utility model;

FIG. 4 is a schematic diagram of a feeding device of the high-precision double-sided machining numerical control lathe;

FIG. 5 is a schematic view of a machining device of a high-precision double-sided machining numerical control lathe according to the utility model;

Fig. 6 is a partial enlarged view of a processing device B of a high-precision double-sided processing numerically controlled lathe according to the present utility model.

The numerical control machine comprises the following components of 101, a machine case, 102, a box door, 103, an operation panel, 201, a material conveying slide rail, 202, a sliding table, 203, an electric push rod, 204, a mechanical clamping jaw, 301, a chip removing box, 302, a main shaft clamping seat, 303, a feed slide rail, 304, a tool changing slide rail, 305, a tool rest, 306, a tool rest, 307, a positioning seat, 308, a jacking slide rail, 309, a sliding seat, 310, a push rod, 4 and a rod.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-6, a high-precision double-sided processing numerical control lathe comprises a box device for sealing protection, and further comprises a processing device which is arranged in the box device and is used for processing workpieces from two sides and moving liftout, wherein two conveying devices for clamping and conveying the workpieces are symmetrically arranged on two sides of the processing device.

The box body device comprises a machine box 101, wherein a box door 102 is arranged in front of the machine box 101, an operation panel 103 is arranged on one side of the box door 102, the box door 102 is of a two-half structure and is in sliding connection with the machine box 101, and when the machine box is used, the box door 102 seals the machine box 101 and performs machining control through the operation panel 103;

The feeding device comprises a feeding slide rail 201, a sliding table 202 is arranged on the feeding slide rail 201, a clamping component is arranged at the bottom of the sliding table 202 and comprises an electric push rod 203, a mechanical clamping jaw 204 is arranged at the bottom of the electric push rod 203, the electric push rod 203 drives the mechanical clamping jaw 204 to clamp a rod piece 4 downwards, and then the sliding table 202 drives the rod piece 4 to move along the feeding slide rail 201 through the mechanical clamping jaw 204 to feed materials;

In this embodiment: the processing device comprises a chip removal box 301, a main shaft clamping seat 302 is arranged in the center of the chip removal box 301, two feed assemblies are symmetrically arranged on two sides of the main shaft clamping seat 302, a pushing assembly is arranged on the rear side of one side of the feed assemblies, the feed assemblies comprise feed slide rails 303, a tool changing slide rail 304 is slidably arranged on the feed slide rails 303, a tool holder 306 is slidably arranged on the tool changing slide rail 304, three tool holders 306 are uniformly arranged on the tool holder 306, a positioning seat 307 is arranged behind the three tool holders 306, the pushing assembly comprises a pushing slide rail 308, a sliding seat 309 is slidably arranged on the pushing slide rail 308, a push rod 310 is arranged below the sliding seat 309, an electric push rod 203 on the feeding side drives a mechanical clamping jaw 204 to clamp a rod 4 downwards, then the sliding table 202 drives the rod 4 to move towards the inside of a machine case 101 along the feed slide rail 201 through the mechanical clamping jaw 204, the rod 4 is conveyed to the upper part of the same side positioning seat 307, and placing the rod 4 on the positioning seat 307, then the tool holder 306 drives the rod 4 on the positioning seat 307 to move forwards along the tool changing slide rail 304 to be aligned with the main shaft clamping seat 302, then the sliding seat 309 drives the ejector rod 310 to move towards the rod 4 along the ejection slide rail 308, the rod 4 is ejected into the main shaft clamping seat 302, the main shaft clamping seat 302 clamps the rod 4, finally the tool holders 305 on two sides drive the tools on the required tool holder 306 to be tightly attached to a workpiece, the tool changing slide rail 304 drives the tools to move along the tool feeding slide rail 303 through the tool holders 305, simultaneously, two sides of the rod 4 are machined, double-sided machining is realized, scraps produced by machining fall into the chip removing box 301 to be collected, after machining is finished, the positioning seat 307 on the discharging side is aligned with the rod 4, and the feeding side is enabled to repeat the feeding action, so that the rod 4 to be machined ejects the finished rod 4 and falls onto the positioning seat 307 on the discharging side, finally, the mechanical clamping jaw 204 on the discharging side clamps the material and sends the material out along the material conveying sliding rail 201, so that automatic discharging is realized.

The working principle is that when the machine case 101 is used, the machine case 101 is closed by the box door 102 and is processed and controlled through the operation panel 103, the electric push rod 203 at the feeding side drives the mechanical clamping jaw 204 to clamp down one rod 4, then the sliding table 202 drives the rod 4 to move towards the inside of the machine case 101 along the feeding sliding rail 201 through the mechanical clamping jaw 204, the rod 4 is conveyed to the upper part of the same side positioning seat 307 and is placed on the positioning seat 307, then the cutter seat 306 drives the rod 4 on the positioning seat 307 to move forwards along the cutter changing sliding rail 304 to be aligned with the main shaft clamping seat 302, the sliding seat 309 drives the push rod 310 to move towards the rod 4 along the ejecting sliding rail 308, the rod 4 is pushed into the main shaft clamping seat 302, the main shaft clamping seat 302 clamps the rod 4, finally the cutter on the cutter seats 305 on two sides drives the cutter seats 306 to be tightly attached to a workpiece, the cutter changing sliding rail 304 drives the cutters to move along the cutter feeding sliding rail 201 through the cutter seats 305, and simultaneously, the two sides of the rod 4 are processed, and chips produced by processing fall into the chip removing box 301; after the machining is finished, the positioning seat 307 on the discharging side is aligned with the rod piece 4, and the feeding side is enabled to repeat the feeding action, so that the rod piece 4 to be machined ejects the machined rod piece 4 and falls onto the positioning seat 307 on the discharging side, and finally the mechanical clamping jaw 204 on the discharging side clamps the rod piece 4 and sends the rod piece out along the feeding sliding rail 201, and automatic discharging is achieved.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. A high-precision double-sided machining CNC lathe, comprising a housing device for enclosed protection, characterized in that: it further comprises a machining device disposed within the housing device for machining workpieces from both sides and moving the top material, wherein two feeding devices for clamping and conveying workpieces are symmetrically disposed on both sides of the machining device; The material conveying device includes a material conveying slide rail (201), a slide table (202) is provided on the material conveying slide rail (201), and a material clamping assembly is installed at the bottom of the slide table (202); The processing device includes a chip box (301), a spindle holder (302) is provided at the center of the chip box (301), and two feed assemblies are symmetrically arranged on both sides of the spindle holder (302). A top feed assembly is installed on the rear side of one feed assembly. 2. A high-precision double-sided machining CNC lathe according to claim 1, characterized in that: the housing device includes a housing (101), a door (102) is installed on the front of the housing (101), and an operation panel (103) is provided on one side of the door (102). 3. A high-precision double-sided machining CNC lathe according to claim 1, characterized in that: the clamping assembly includes an electric push rod (203), and a mechanical gripper (204) is provided at the bottom of the electric push rod (203). 4. A high-precision double-sided machining CNC lathe according to claim 1, characterized in that: the tool feed assembly includes a tool feed slide rail (303), a tool change slide rail (304) is slidably mounted on the tool feed slide rail (303), a tool holder (306) is slidably mounted on the tool change slide rail (304), three tool holders (306) are evenly arranged on the tool holder (306), and a positioning seat (307) is arranged behind the three tool holders (306). 5. A high-precision double-sided machining CNC lathe according to claim 1, characterized in that: the ejector assembly includes an ejector slide rail (308), a slide block (309) is slidably mounted on the ejector slide rail (308), and an ejector rod (310) is mounted below the slide block (309). 6. A high-precision double-sided machining CNC lathe according to claim 2, characterized in that: the door (102) is a two-half structure and is slidably connected to the machine housing (101).