CN110774041A - Numerical control finish machining feeding device of 5G signal base station resonator - Google Patents

Abstract

The invention relates to a numerical control finish machining feeding device of a 5G signal base station resonator, which comprises a feeding plate, a material pushing mechanism arranged at the end part of the feeding plate, and a lifting guide mechanism positioned at the top part of the material pushing mechanism, wherein the lifting guide mechanism comprises a base, a supporting plate arranged on the base, a driving plate arranged on one side of the supporting plate, a sliding sleeve fixed on the inner side of the driving plate, and a longitudinal guide rail arranged on the inner side surface of the supporting plate, the sliding sleeve is sleeved on the longitudinal guide rail, fixed blocks are arranged on the side surface of the driving plate and the top part of the supporting plate, a first air cylinder is arranged between the two fixed blocks, the material pushing mechanism comprises a clamping block arranged at the bottom part of the driving plate and connected with the driving plate, an air cylinder mounting block is fixed on the side surface of the driving plate, a second air cylinder is arranged on the air cylinder mounting block, an air, a set of full automation processes of conveying and pushing, and high feeding efficiency.

Description

Numerical control finish machining feeding device of 5G signal base station resonator

Technical Field

The invention relates to numerical control finish machining of a resonator in a 5G signal base station, in particular to a numerical control finish machining feeding device of the resonator of the 5G signal base station.

Background

The resonator is an electronic component generating a resonant frequency, and is generally classified into a quartz crystal resonator and a ceramic resonator. The existing processing mode is that a product to be processed is placed into a CNC machine tool by hands and the starting and ending processes are controlled manually. The processed product needs to be put in and taken out manually, so that the processing time of the product can be greatly prolonged, and the quality precision of the product is not enough. The manual operation can also increase the manpower production cost of enterprises, and the manual operation is of a long time to cause the inattention, so that great potential safety hazards exist.

Disclosure of Invention

The invention aims to solve the defects in the prior art and provides a numerical control finish machining feeding device of a 5G signal base station resonator.

In order to achieve the purpose, the technical scheme adopted by the invention is as follows:

the utility model provides a numerical control finish machining material feeding unit of 5G signal base station syntonizer, includes the delivery sheet, sets up the material pushing mechanism at the delivery sheet tip, is located the lift guiding mechanism at material pushing mechanism top, is located the slope fixed establishment of delivery sheet side, lift guiding mechanism includes the base, installs the backup pad on the base, sets up the drive plate in backup pad one side, fixes the slip cap at the drive plate inboard, installs the longitudinal rail at the backup pad medial surface, the slip cap overlaps and establishes on the longitudinal rail, the side of drive plate and the top of backup pad are equipped with the fixed block, installs first cylinder between two fixed blocks, and first cylinder control drive plate goes up and down in the side of backup pad.

Further, the material pushing mechanism comprises a material clamping block arranged at the bottom of the drive plate and connected with the drive plate, a cylinder mounting block is fixed on the side face of the drive plate, a second cylinder is mounted on the cylinder mounting block, and a cylinder rod of the second cylinder is located on one side of the material clamping block.

Furthermore, the top of pressing from both sides the material piece has presss from both sides the material mouth, the side of delivery sheet has the chute feeder, presss from both sides the port department that the material mouth is located the chute feeder.

Furthermore, the slope fixed establishment sets up the first pay-off fixed plate of pay-off board side and pay-off board fixed connection, fixes the second pay-off fixed plate on wall or backup pad, and the installation direction of first pay-off fixed plate and second pay-off fixed plate is perpendicular, is equipped with the guide slot on first pay-off fixed plate and the second pay-off fixed plate, and first pay-off fixed plate and second pay-off fixed plate pass through the bolted connection in the guide slot.

Further, the bottom of base is equipped with the mounting panel, is connected through horizontal guiding mechanism between base and the mounting panel.

Furthermore, horizontal guiding mechanism is including fixing the deflector in the base bottom, setting up the guide rail in the deflector bottom and be located the horizontal guide rail groove of mounting plate top surface, and the guide rail of deflector bottom is located the horizontal guide rail inslot.

The invention has the beneficial effects that: when the feeding device is used, the first air cylinder drives the driving plate to lift on the side face of the supporting plate, the driving plate completes vertical guiding work through the matching of a sliding sleeve on the back face and a longitudinal guide rail, materials firstly move to the end part from a feeding groove on the side face of the feeding plate, in the material moving process, the first air cylinder drives the driving plate to descend, a clamping block at the bottom of the driving plate moves to one side with the end part of the feeding groove, a clamping opening at the top of the clamping block is positioned at the port part of the feeding groove, the materials in the feeding groove slide into the clamping opening at the top of the clamping block, after the materials are clamped, the first air cylinder drives the driving plate to descend towards the direction of a machine tool chuck until the materials are flush with the axial direction of the machine tool chuck, at the moment, the second air cylinder acts, an air cylinder rod of the second air cylinder directly pushes the materials in the clamping opening into the machine tool chuck, the machine tool clamps the materials for machining, and the, carry and the one set of full automatization process that pushes, reached the function of multiaxis manipulator, the overall cost is low moreover, has replaced the manual work, and the pay-off is efficient, the manual operation injured risk of avoiding.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of another embodiment of the present invention;

FIG. 3 is a schematic view of the lift guide mechanism of the present invention;

fig. 4 is an enlarged view of a region a in fig. 2.

Detailed Description

As shown in fig. 1 to 4, a numerical control finish machining feeding device for a 5G signal base station resonator, which comprises a feeding plate 1, a material pushing mechanism arranged at the end of the feeding plate 1, a lifting guide mechanism positioned at the top of the material pushing mechanism, an inclined fixing mechanism positioned at the side of the feeding plate 1, the lifting guide mechanism comprises a base 2, a supporting plate 3 installed on the base 2, a driving plate 4 arranged at one side of the supporting plate 3, a sliding sleeve 5 fixed at the inner side of the driving plate 4, a longitudinal guide rail 6 installed at the inner side of the supporting plate 3, the sliding sleeve 5 sleeved on the longitudinal guide rail 6, fixing blocks 7 arranged at the side of the driving plate 4 and the top of the supporting plate 3, a first air cylinder 8 installed between the two fixing blocks 7, and the first air cylinder 8 controls the driving plate 4.

Further, the material pushing mechanism comprises a material clamping block 9 arranged at the bottom of the driving plate 4 and connected with the driving plate 4, a cylinder mounting block 10 is fixed on the side face of the driving plate 4, a second cylinder 11 is mounted on the cylinder mounting block 10, and a cylinder rod of the second cylinder 11 is located on one side of the material clamping block 9. The top of the material clamping block 9 is provided with a material clamping opening 12, the side surface of the feeding plate 1 is provided with a feeding groove 13, and the material clamping opening 12 is positioned at the end opening of the feeding groove 13.

Further, the inclined fixing mechanism is arranged on the side face of the feeding plate 1, a first feeding fixing plate 14 fixedly connected with the feeding plate 1 and a second feeding fixing plate 15 fixed on the wall face or the supporting plate 3, the mounting directions of the first feeding fixing plate 14 and the second feeding fixing plate 15 are perpendicular, guide grooves are formed in the first feeding fixing plate 14 and the second feeding fixing plate 15, and the first feeding fixing plate 14 and the second feeding fixing plate 15 are connected through bolts in the guide grooves.

Further, the bottom of the base 2 is provided with a mounting plate 16, the base 2 is connected with the mounting plate 16 through a horizontal guide mechanism, the horizontal guide mechanism comprises a guide plate 17 fixed at the bottom of the base 2, a guide rail 18 arranged at the bottom of the guide plate 17 and a horizontal guide rail groove 19 positioned on the top surface of the mounting plate 16, the guide rail 18 at the bottom of the guide plate 17 is positioned in the horizontal guide rail groove 19, and the position of the whole device on the mounting plate 16 can be controlled through the horizontal guide mechanism.

When the feeding device is used, the driving plate 4 is driven to ascend and descend on the side face of the supporting plate 3 through the first air cylinder 8, the driving plate 4 completes vertical guiding work through the matching of the sliding sleeve 5 on the back face and the longitudinal guide rail 6, materials firstly move to the end part from the feeding groove 13 on the side face of the feeding plate 1, in the material moving process, the first air cylinder 8 drives the driving plate 4 to descend, the clamping block 9 at the bottom of the driving plate 4 moves to one side with the end part of the feeding groove 13, the material clamping opening 12 at the top of the clamping block 9 is positioned at the end part of the feeding groove 13, the materials in the feeding groove 13 slide to the material clamping opening 12 at the top of the clamping block 9, after the materials are clamped, the first air cylinder drives the driving plate 8 to descend towards the direction of a machine tool chuck until the materials are axially aligned with the machine tool chuck, at the moment, the second air cylinder 11 acts, the air cylinder rod of the second air cylinder 11 directly pushes the materials, the lathe chuck is cliied the material and is carried out machining, and the device has accomplished the material through the cooperation of first cylinder 8 and second cylinder 11 and has received, carries and one set of full automatization process that pushes, has reached the function of multiaxis manipulator, and overall cost is low moreover, has replaced the manual work, and pay-off is efficient, the manual operation injured risk of avoiding.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are merely illustrative of the principles of the invention, but that various changes and modifications may be made without departing from the spirit and scope of the invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (6)

1. The utility model provides a numerical control finish machining material feeding unit of 5G signal base station syntonizer, includes the delivery sheet, sets up the material pushing mechanism at the delivery sheet tip, is located the lift guiding mechanism at material pushing mechanism top, is located the slope fixed establishment of delivery sheet side, its characterized in that, lift guiding mechanism includes the base, installs the backup pad on the base, sets up the drive plate in backup pad one side, fixes the slip cap at the drive plate inboard, installs the longitudinal rail at the backup pad medial surface, the slip cap overlaps and establishes on the longitudinal rail, the side of drive plate and the top of backup pad are equipped with the fixed block, installs first cylinder between two fixed blocks, and first cylinder control drive plate goes up and down in the side of backup pad.

2. The numerical control finish machining feeding device of the 5G signal base station resonator is characterized in that the material pushing mechanism comprises a material clamping block which is arranged at the bottom of a driving plate and connected with the driving plate, a cylinder mounting block is fixed on the side face of the driving plate, a second cylinder is mounted on the cylinder mounting block, and a cylinder rod of the second cylinder is located on one side of the material clamping block.

3. The numerical control finish machining feeding device of the 5G signal base station resonator according to claim 2, wherein a material clamping opening is formed in the top of the material clamping block, a feeding groove is formed in the side face of the feeding plate, and the material clamping opening is located at a port of the feeding groove.

4. The numerical control finish machining feeding device of the 5G signal base station resonator is characterized in that the inclined fixing mechanism is arranged on a first feeding fixing plate fixedly connected with the feeding plate on the side surface of the feeding plate, a second feeding fixing plate fixed on a wall surface or a supporting plate, the mounting directions of the first feeding fixing plate and the second feeding fixing plate are vertical, guide grooves are formed in the first feeding fixing plate and the second feeding fixing plate, and the first feeding fixing plate and the second feeding fixing plate are connected through bolts in the guide grooves.

5. The numerical control finish machining feeding device of the 5G signal base station resonator is characterized in that a mounting plate is arranged at the bottom of the base, and the base is connected with the mounting plate through a horizontal guide mechanism.

6. The numerical control finish machining feeding device of the 5G signal base station resonator as claimed in claim 5, wherein the horizontal guide mechanism comprises a guide plate fixed at the bottom of the base, a guide rail arranged at the bottom of the guide plate and a horizontal guide rail groove positioned on the top surface of the installation plate, and the guide rail at the bottom of the guide plate is positioned in the horizontal guide rail groove.

Images