CN218856320U - Multi-station machining device - Google Patents

Abstract

The utility model relates to a multistation processingequipment, include: the processing mechanism is arranged on three adjacent side surfaces of the placing table respectively; the processing mechanism includes the processing platform, the processing bench slides and is provided with the installing frame, the side of going up the installing frame is provided with a set of second slide rail mechanism, the top of going up the installing frame is provided with the mounting bracket, the mounting bracket is connected with screw rod mechanism, the drive end of screw rod mechanism is connected with first drive block and the second drive block that distributes from top to bottom, first drive block and the equal sliding connection of second drive block are to second slide rail mechanism, be connected with first removal frame between the first drive block, be connected with the second between the second drive block and remove the frame, the drive is connected with first main shaft installing frame on the first removal frame, first main shaft installing frame is connected with the first main shaft of vertical setting, the drive is connected with second main shaft installing frame on the second removal frame, the second main shaft installing frame is connected with the second main shaft of level setting, this device can realize multistation processing simultaneously.

Description

Multi-station machining device

Technical Field

The utility model relates to a processingequipment, concretely relates to multistation processingequipment.

Background

With the rapid development of social production and scientific technology, mechanical products are increasingly precise and complex, and need to be frequently modified, particularly mechanical parts required in the fields of space navigation, shipbuilding, military and the like, and have high precision requirement, complex shape and small batch. The machining of such products requires frequent modification or adjustment of the equipment, and conventional machine tools or highly specialized automated machine tools have not been able to meet these requirements. In order to solve the above problems, numerical control machines have come to work. The novel machine tool has the advantages of strong adaptability, high machining precision, stable machining quality, high production efficiency and the like. The numerical control machine tool comprehensively applies technical achievements in various aspects such as an electronic computer, automatic control, servo drive, precision measurement, a novel mechanical structure and the like, and is the development direction of numerical control machine tools in future.

In the process of processing metal parts, three adjacent surfaces of some metal parts need to be processed into the same shape, and the method for processing the metal parts in the prior art generally adopts a method of processing one surface and then processing the other surface, but the method has the disadvantages that the processing precision is reduced after the parts are loaded for a plurality of times, the position of a clamp is not required to be adjusted for square parts, the size and the position of the clamp are required to be adjusted for rectangular parts, and the processing efficiency is too low.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model aims at providing a can once only carry out the device processed simultaneously to metal parts's three face.

The technical scheme of the utility model as follows:

a multi-station processing device, characterized by comprising: the machining device comprises a placing table (1) for placing a machined part (100) and machining mechanisms (2) which are respectively arranged on three adjacent side surfaces of the placing table (1);

the machining mechanism comprises a machining table (201), an upper installation frame (204) is arranged on the machining table (201) in a sliding mode, a set of second sliding rail mechanisms (205) is arranged on the side face of the upper installation frame (204), an installation frame (206) is arranged at the top of the upper installation frame (204), the installation frame (206) is connected with a screw rod mechanism (207), the driving end of the screw rod mechanism (207) is connected with a first driving block (208) and a second driving block (209) which are distributed vertically, the first driving block (208) and the second driving block (209) are connected onto the second sliding rail mechanisms (205) in a sliding mode, a first movable frame (2010) is connected between the first driving block (208), a second movable frame (2011) is connected between the second driving block (209), the first movable frame (2010) is connected with a first main shaft installation frame (2018) which is vertically arranged in a driving mode, the second movable frame (2011) is connected with a second main shaft installation frame (2017) in a driving mode, and the second main shaft installation frame (2017) is connected with a horizontal main shaft (2016).

Furthermore, two sides of the placing table (1) are respectively provided with a discharging groove (101), the end part of each discharging groove (101) is provided with a motor (102), and the driving end of each motor (102) is connected with a discharging screw (103) positioned in each discharging groove (101).

Further, still including being located place defeated material mechanism (3) of platform (1) one side, defeated material mechanism (3) have included defeated material frame (301), be provided with conveyer belt (302) in defeated material frame (301), the upper portion of defeated material frame (301) still is provided with baffle (303), defeated material frame (301) lower part still is connected with support frame (304), defeated material frame (301) upper portion is provided with the drive defeated material motor (305) of conveyer belt (302), the tip of defeated material frame (301) is provided with defeated material mouth (306).

Further, the bottom of the support frame (304) is provided with a roller.

Furthermore, a group of first sliding rail mechanisms (202) and a first linear module (203) are arranged on the machining table (201), and the upper mounting frame (204) is connected to the first sliding rail mechanisms (202) in a sliding mode and driven by a driving end of the first linear module (203).

Furthermore, a set of third slide rail mechanism (2014) and a second linear module (2012) are arranged on the first moving frame (2010), and the first spindle mounting frame (2016) is slidably arranged on the third slide rail mechanism (2014) and is driven by the second linear module (2012).

Further, be provided with a set of fourth slide rail mechanism (2015) and third straight line module (2013) on second removal frame (2011), second main shaft installing frame (2017) slide and set up to on fourth slide rail mechanism (2015) and pass through third straight line module (2013) drive.

Borrow by above-mentioned scheme, the utility model discloses at least, have following advantage:

(1) The device is provided with the three processing mechanisms simultaneously, can synchronously and simultaneously process three surfaces of the processed parts, saves processing time and improves efficiency compared with the prior art, and also avoids errors caused by the direction of the processed parts in the processing process of one processing mechanism.

(2) The machining part of the device adopts a Z-axis driving mechanism to realize synchronous up-and-down driving of the two main shafts, and the two main shafts are respectively and independently driven on the Y axis, so that independent or simultaneous machining of the two main shafts can be realized.

(3) This device has set up row material screw rod placing the bench, and the operation of defeated material mechanism is cooperated, can clear up the sweeps that processing produced.

The above description is only an outline of the technical solution of the present invention, and in order to make the technical means of the present invention more clearly understood and to be implemented in accordance with the content of the specification, the following detailed description will be given of preferred embodiments of the present invention in conjunction with the accompanying drawings.

Drawings

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

FIG. 2 is a second schematic structural diagram of the present invention;

fig. 3 is a first schematic structural view of the processing mechanism of the present invention;

fig. 4 is a schematic structural view ii of the processing mechanism of the present invention;

fig. 5 is a third schematic structural view of the processing mechanism of the present invention;

FIG. 6 is a schematic structural view of a feeding mechanism of the present invention;

in the figure:

100-a workpiece;

1-placing a table; 101-a discharge chute; 102-a motor; 103-a discharge screw;

2-a processing mechanism; 201-a processing table; 202-a first slide rail mechanism; 203-a first line module; 204-installing a frame; 205-a second slide rail mechanism; 206-a mounting frame; 207-screw mechanism; 208-a first drive block; 209-a second drive block; 2010-first moving frame; 2011-second move frame; 2012-a second linear module; 2013-a third straight-line module; 2014-a third slide rail mechanism; 2015-fourth slide rail mechanism; 2016-a first spindle mounting frame; 2017-a second main shaft mounting frame; 2018-a first spindle; 2019-second spindle.

3-a material conveying mechanism; 301-a feeding frame; 302-a conveyor belt; 303-a baffle plate; 304-a support frame; 305-a material conveying motor; 306-material conveying port.

Detailed Description

The following detailed description of the embodiments of the present invention is provided with reference to the accompanying drawings and examples. The following examples are intended to illustrate the invention, but are not intended to limit the scope of the invention.

Referring to fig. 1-6, a multi-station processing apparatus according to a preferred embodiment of the present invention includes: a placing table 1 for placing the workpiece 100, and processing mechanisms 2 respectively provided on adjacent three sides of the placing table 1. Two sides of the placing table 1 are respectively provided with a discharging groove 101, the end part of the discharging groove 101 is provided with a motor 102, and the driving end of the motor 102 is connected with a discharging screw 103 positioned in the discharging groove 101. The placing table 1 is provided with a workpiece 100 through a clamp, the workpiece is a rectangular metal plate, and three adjacent surfaces of the rectangular metal plate can be simultaneously machined through the machining mechanism 2. The sweeps that processing agency 2 produced in the course of working can be got rid of through arranging material groove 101, specifically drives the operation of arranging material screw rod 103 through motor 102 to can get rid of the sweeps that processing produced.

Still including being located the defeated material mechanism 3 of placing platform 1 one side, defeated material mechanism 3's effect is to carry out further transport with the sweeps of arranging the output of material screw rod 103, defeated material mechanism 3 has included defeated material frame 301, be provided with conveyer belt 302 in the defeated material frame 301, the upper portion of defeated material frame 301 still is provided with baffle 303, defeated material frame 301 lower part still is connected with support frame 304, defeated material frame 301 upper portion is provided with the defeated material motor 305 of drive conveyer belt 302, the tip of defeated material frame 301 is provided with defeated material mouth 306, the bottom of support frame 304 is provided with the gyro wheel. In the material conveying mechanism 3, the waste scraps are discharged through the material conveying port 306 by the operation of the conveyer belt 302. The bottom of the supporting frame 304 is provided with a roller, so that the material conveying mechanism 3 can be moved conveniently.

The machining mechanism comprises a machining table 201, an upper mounting frame 204 is arranged on the machining table 201 in a sliding mode, specifically, a group of first sliding rail mechanisms 202 and a first linear module 203 are arranged on the machining table 201, and the upper mounting frame 204 is connected to the first sliding rail mechanisms 202 in a sliding mode and driven through a driving end of the first linear module 203. The movement of the upper mounting frame 204 in the X-axis direction is realized by the driving of the first linear module 203.

The side of going up installing frame 204 is provided with a set of second slide rail mechanism 205, the top of going up installing frame 204 is provided with mounting bracket 206, mounting bracket 206 is connected with screw rod mechanism 207, the drive end of screw rod mechanism 207 is connected with first drive block 208 and the second drive block 209 that distributes from top to bottom, first drive block 208 and second drive block 209 all sliding connection are to second slide rail mechanism 205 on, be connected with first removal frame 2010 between the first drive block 208, be connected with second removal frame 2011 between the second drive block 209, the drive is connected with first main shaft installing frame 2016 on the first removal frame 2010, first main shaft installing frame 2016 is connected with the first main shaft 2018 of vertical setting, specifically be provided with a set of third slide rail mechanism 2014 and second straight line module 2012 on the first removal frame 2010, first main shaft installing frame 2016 slides and sets up to third slide rail mechanism 2014 and through second straight line module drive 2012. The second moving frame 2011 is connected with a second main shaft installation frame 2017 in a driving mode, the second main shaft installation frame 2017 is connected with a second main shaft 2019 which is horizontally arranged, specifically, a set of fourth slide rail mechanism 2015 and a third linear module 2013 are arranged on the second moving frame 2011, and the second main shaft installation frame 2017 is arranged on the fourth slide rail mechanism 2015 in a sliding mode and driven through the third linear module 2013. Different tools are mounted on the first main shaft 2018 and the second main shaft 2019 respectively, so that the workpiece 100 can be machined from two directions.

The working principle of the utility model is as follows:

in the device, a workpiece 100 is fixedly arranged on a placing table 1, three surfaces of the workpiece 100 are machined in the same step by the machining mechanisms 2 distributed in three different directions, the machining mechanisms 2 are simultaneously provided with two independent main shafts in the Z-axis direction, the two main shafts can independently run in the Y-axis direction, a driving mechanism of the Z axis can be saved, and the workpiece can be independently/simultaneously machined. Meanwhile, the discharging screw 103 arranged on the placing table 1 can discharge the processed scraps into the conveying mechanism 3, and the scraps are input to the outside through the conveying mechanism 3.

The device has the following advantages:

(1) The device is provided with the three processing mechanisms simultaneously, can synchronously and simultaneously process three surfaces of the processed parts, saves processing time and improves efficiency compared with the prior art, and also avoids errors caused by the direction of the processed parts in the processing process of one processing mechanism.

(2) The machining part of the device adopts a Z-axis driving mechanism to realize synchronous up-and-down driving of the two main shafts, and the two main shafts are respectively and independently driven on the Y axis, so that independent or simultaneous machining of the two main shafts can be realized.

(3) This device has set up row material screw rod placing bench, and the operation of defeated material mechanism is cooperated, can clear up the sweeps that the processing produced.

The above description is only a preferred embodiment of the present invention, and should not be used to limit the present invention, it should be noted that, for those skilled in the art, without departing from the technical principle of the present invention, a plurality of improvements and modifications can be made, and these improvements and modifications should also be regarded as the protection scope of the present invention.

Claims (7)

1. A multistation processingequipment, its characterized in that includes: the machining device comprises a placing table (1) for placing a machined part (100) and machining mechanisms (2) which are respectively arranged on three adjacent side surfaces of the placing table (1);

the processing mechanism comprises a processing table (201), a mounting frame (204) is slidably arranged on the processing table (201), a group of second sliding rail mechanisms (205) is arranged on the side face of the mounting frame (204), a mounting frame (206) is arranged at the top of the mounting frame (204), a screw rod mechanism (207) is connected to the mounting frame (206), a first driving block (208) and a second driving block (209) which are distributed up and down are connected to the driving end of the screw rod mechanism (207), the first driving block (208) and the second driving block (209) are connected to the second sliding rail mechanisms (205) in a sliding mode, a first movable frame (2010) is connected between the first driving block (208), a second movable frame (2011) is connected between the second driving block (209), a first main shaft mounting frame (2018) is connected to the first movable frame (2016), a second main shaft mounting frame (2011) is connected to the driving frame (2011) in a driving mode, and a second main shaft mounting frame (2017) is connected to the second main shaft (2019) in a horizontal mode.

2. The multi-station processing device according to claim 1, wherein two sides of the placing table (1) are respectively provided with a discharge groove (101), the end part of each discharge groove (101) is provided with a motor (102), and the driving end of each motor (102) is connected with a discharge screw (103) positioned in each discharge groove (101).

3. A multi-station processing device as claimed in claim 1, further comprising a material conveying mechanism (3) located on one side of the placing table (1), wherein the material conveying mechanism (3) comprises a material conveying frame (301), a conveying belt (302) is arranged in the material conveying frame (301), a baffle (303) is further arranged on the upper portion of the material conveying frame (301), a supporting frame (304) is further connected to the lower portion of the material conveying frame (301), a material conveying motor (305) for driving the conveying belt (302) is arranged on the upper portion of the material conveying frame (301), and a material conveying port (306) is formed in the end portion of the material conveying frame (301).

4. A multi-station processing device according to claim 3, wherein the bottom of the supporting frame (304) is provided with rollers.

5. A multi-station processing apparatus according to claim 1, wherein: the machining table (201) is provided with a group of first sliding rail mechanisms (202) and a first linear module (203), and the upper mounting frame (204) is connected to the first sliding rail mechanisms (202) in a sliding mode and driven by a driving end of the first linear module (203).

6. A multi-station machining apparatus according to claim 1, wherein: the first moving frame (2010) is provided with a set of third sliding rail mechanism (2014) and a second linear module (2012), and the first spindle mounting frame (2016) is slidably arranged on the third sliding rail mechanism (2014) and is driven by the second linear module (2012).

7. A multi-station processing apparatus according to claim 1, wherein: be provided with a set of fourth slide rail mechanism (2015) and third straight line module (2013) on second removal frame (2011), second main shaft installing frame (2017) slide and set up to go up and pass through on fourth slide rail mechanism (2015) third straight line module (2013) drive.

Images