CN111331473A - Processing equipment is used in production of copper glib talker - Google Patents

Abstract

The invention discloses processing equipment for producing a copper oil nozzle, which comprises a processing table, a material loading block arranged on the processing table and a first mounting frame arranged above the processing table, wherein a polishing assembly is arranged on the first mounting frame, a first movable groove and a second movable groove are arranged on the processing table, the first movable groove and the second movable groove are arranged adjacently, a partition plate is arranged between the first movable groove and the second movable groove, the material loading blocks are respectively arranged in the first movable groove and the second movable groove, a material unloading assembly is arranged on the processing table, and a first opening and a second opening which are used for communicating the first movable groove and the second movable groove are formed in the partition plate.

Description

Processing equipment is used in production of copper glib talker

Technical Field

The invention belongs to the technical field of waste plastic recovery, and particularly relates to processing equipment for producing a copper oil nozzle.

Background

The copper oil nozzle is widely applied to automobiles, motorcycles, buildings, electric power, energy sources, railways, highways, ships, machinery, electronics, communication, household appliances, furniture and other domestic enterprises in various industries and national key construction projects. The device is suitable for pipelines of automobile parts, starting systems, oil pumps, molds, spinning machines and the like, can be lengthened randomly, can be used for air, water and oil as fluids, and is suitable for occasions with higher temperature.

The copper oil nozzle surface polishing treatment can not be carried out in the copper oil nozzle machining process, and the copper oil nozzle is smaller, the surface shape is more special, the surface treatment of the copper oil nozzle is more inconvenient, more time is consumed in the polishing operation of the copper oil nozzle, and the production efficiency of the copper oil nozzle is reduced.

Disclosure of Invention

The invention provides machining equipment for automatic copper oil nozzle production, which aims to overcome the defects of the prior art and improve the working efficiency.

In order to achieve the purpose, the invention adopts the following technical scheme: the processing equipment for producing the copper oil nozzle comprises a processing table, a material loading block arranged on the processing table and a first mounting frame arranged above the processing table, wherein a polishing assembly is arranged on the first mounting frame, a first movable groove and a second movable groove are arranged on the processing table, the first movable groove and the second movable groove are arranged adjacently, a partition plate is arranged between the first movable groove and the second movable groove, the material loading block is provided with a plurality of blocks and is respectively arranged in the first movable groove and the second movable groove, an unloading assembly is arranged on the processing table, and a first opening and a second opening which are used for communicating the first movable groove and the second movable groove are formed in the partition plate; when the copper oil nozzle is polished, the copper oil nozzle is placed on a material loading block, the material loading block moves in a first movable groove, the copper oil nozzle is conveyed to the position below a polishing assembly, the polishing assembly moves downwards to be in contact with the copper oil nozzle, the surface of the copper oil nozzle is treated, and polishing of the copper oil nozzle is completed; after the copper oil nozzle is polished, the material carrying block drives the copper oil nozzle to move to the position below the discharging assembly, and the discharging assembly takes down the copper oil nozzle on the material carrying block so as to collect the copper oil nozzle and reduce the collection difficulty of the copper oil nozzle; after the copper oil nozzle on the material loading block is taken down, the material loading block moves into the second movable groove from the first opening, and the material loading block provided with the copper oil nozzle moves to the position below the polishing assembly, so that the polishing assembly is in a continuous working state, and the copper oil nozzle is conveniently processed; after the material carrying block provided with the copper oil nozzle moves to the lower part of the polishing assembly, the material carrying block which is not provided with the copper oil nozzle stops at the designated position in the second movable groove, so that the copper oil nozzle to be processed is arranged on the material carrying block, and the feeding operation of the copper oil nozzle is completed; under the mutually supporting of first activity groove and second activity groove, make the processing of copper glib talker separately go on with the material loading, make equipment be in and last running state, promote the machining efficiency to copper glib talker.

A first transmission belt is arranged on one side of the partition plate, a second transmission belt is arranged on the other side of the partition plate, the first transmission belt is arranged below the first movable groove, the second transmission belt is arranged below the second movable groove, a first bump is arranged on the first transmission belt, a first groove matched with the first bump is arranged at the bottom of the material carrying plate, a first air cylinder is arranged on one side of the first opening, and a first push plate is arranged on a piston rod of the first air cylinder; a second cylinder is arranged on one side of the second opening, and a second first push plate is arranged on a piston rod of the second cylinder; the first transmission belt and the second transmission belt provide moving power for the material loading block, so that the material loading block automatically moves in the first movable groove and the second movable groove under the action of the first transmission belt and the second transmission belt, a conveying action is provided for the copper oil nozzle, and the automatic processing of the copper oil nozzle is completed; the first cylinder and the second cylinder provide thrust for the copper oil nozzle so as to push the copper oil nozzle to move between the first movable groove and the second movable groove, so that the loading and the processing of the copper oil nozzle are separately carried out, and the processing efficiency of the copper oil nozzle is improved; under the mutually supporting of first lug and first recess, promote the driven reliability of drive belt, avoid drive belt and year material piece to take place the phenomenon of skidding, make the cylinder during operation with carrying the material piece and normally releasing from the drive belt.

A first mounting table is arranged on one side of the processing table, a second mounting table is arranged on the other side of the processing table, a first driving motor used for driving the first transmission belt to rotate is arranged on the first mounting table, a second driving motor used for driving the second transmission belt to rotate is arranged on the second mounting table, a first transmission wheel is arranged on an output shaft of the first driving motor, a first transmission roller is arranged on the first transmission belt, and the first transmission wheel is an incomplete gear; when the material carrying block is carried, the first driving motor drives the first driving wheel to rotate, the driving teeth on the first driving wheel are in contact with the first driving roller, the first driving roller is driven to rotate under the action of the first driving wheel, so that the first driving belt normally rotates, and reliable power support is provided for the material carrying block; under the arrangement of the unsafe gear of the first transmission wheel, the first transmission belt is enabled to move discontinuously, so that the moving distance of the material carrying block is controlled, the material carrying block is accurately conveyed to the lower part of the grinding assembly, and the processing effect of the material carrying block is ensured; under the incomplete gear setting, the driving motor is always in a working state, the phenomenon that the service life of the driving motor is influenced due to frequent halt of the driving motor is avoided, and the driving motor is protected.

Two sides of the material loading block are respectively provided with a first sliding block, the inner wall of the first movable groove is provided with a first sliding groove matched with the first sliding block, and the inner wall of the second movable groove is provided with a second sliding groove matched with the first sliding block; a third movable groove is formed in the material carrying block, a first movable block is arranged in the third movable groove, a material carrying cavity is formed in the first movable block, a connecting shaft is arranged on the side wall of the first movable block, and a first through cavity matched with the connecting shaft is formed in the inner wall of the third movable groove; the bottom of the processing table is provided with a waste material box; under the mutual matching of the sliding block and the sliding groove, the material loading block is fixed in the movable groove, so that the matching effect of the material loading block and the movable groove is improved, and the moving stability of the material loading block is ensured; when the copper oil nozzle is arranged on the movable block, the copper oil nozzle is fixed in the material storage cavity, so that the copper oil nozzle moves along with the material carrying block, after the polishing treatment of the copper oil nozzle is completed, the connecting shaft rotates in the first through cavity, the movable block is turned over by 180 degrees under the action of the gravity of the copper oil nozzle, the top surface of the movable block is rotated to the bottom, and therefore abrasive dust on the copper oil nozzle is poured into the waste material box, and the abrasive dust on the copper oil nozzle is cleaned; the movable block is independently arranged on the material loading block, the copper oil nozzle is naturally turned over on the basis that the material loading block normally moves, so that abrasive dust on the copper oil nozzle is removed, and abrasion of the surface of the copper oil nozzle caused by the abrasive dust is avoided.

A second through cavity is formed in the material loading block, a first connecting rod is arranged in the second through cavity, the second through cavity is communicated with the third movable groove, a limiting block is arranged on the first connecting rod, a limiting groove matched with the limiting block is formed in the side wall of the first movable block, a third opening communicated with the second through cavity is formed in the first sliding block, first push blocks matched with the third opening are respectively arranged at two ends of the first connecting rod, and a third air cylinder matched with the first push blocks is arranged at one side of the processing table; when the copper oil nozzle is arranged on the movable block, the limiting block is embedded in the limiting groove, the movable block is fixed under the mutual matching of the limiting block and the limiting groove, and the copper oil nozzle is stably fixed below the polishing assembly so as to be convenient for processing the copper oil nozzle; after the copper oil nozzle is polished, the third cylinder pushes the first connecting rod to move, the first connecting rod drives the limiting block to be separated from the limiting groove, the movable block rotates under the action of gravity of the copper oil nozzle after losing limiting, the movable block drives the copper oil nozzle to rotate together, and abrasive dust of the copper oil nozzle is thrown away under the action of potential energy so as to clean the abrasive dust group on the surface of the copper oil nozzle.

A first connecting plate is arranged on a piston rod of the third air cylinder, a first through hole is formed in the first connecting plate, a first connecting pipe penetrates through the first through hole, a fourth driving motor is arranged on one side of the third air cylinder, an output shaft of the fourth driving motor penetrates through the first connecting pipe, a first cavity is formed in one end of the first connecting pipe, the side wall of the first cavity is made of elastic materials, and a supporting spring is arranged in the first cavity; when the material loading block moves in the second movable groove, the material loading block moves to one side of the third cylinder, the third cylinder drives the piston rod to extend out, the third cylinder pushes the first connecting rod to move forwards, the limiting block is separated from the limiting groove, and the movable block can freely turn over in the third interaction groove; the third cylinder drives the first connecting plate to move together when pushing the piston rod to move, the first connecting plate drives the first connecting pipe to move to enable the first connecting pipe to be in contact with one end of the first pushing block, the first connecting pipe abuts against the pushing block, one end of the first cavity is extruded under the action of the pushing block, the side wall of the first cavity is pushed to deform under the action of air pressure, the contact effect of the first connecting pipe and the first pushing block is increased, the transmission effect of the first connecting pipe and the first pushing block is improved, the position of the movable block is adjusted under the action of the fourth driving motor, the top surface of the movable block is enabled to rotate to the top again, a new copper oil nozzle is installed on the movable block, and the loading operation of the material loading block is completed.

A third through cavity is formed in the partition plate, a first push rod matched with the first push block penetrates through the third through cavity, a second slide block is arranged on the side wall of the first push rod, a third slide groove matched with the second slide block is formed in the inner wall of the third through cavity, and a first reset spring is arranged on the second slide block; a third sliding block is arranged on the side wall of the first connecting rod, a fourth sliding groove matched with the third sliding block is arranged on the inner wall of the second through cavity, and a second reset spring is arranged on the third sliding block; when a loading block without a copper oil nozzle moves to one side of a third cylinder in a second movable groove, the loading block with the copper oil nozzle moves to the lower part of a polishing assembly, after the polishing treatment of the copper oil nozzle is finished, the third cylinder drives a piston rod to extend out, the third cylinder pushes a first connecting rod to move, a first push block on the loading block in the second movable groove pushes a first push rod to move, the first push rod pushes the first connecting rod on the loading block in the first movable groove, so that movable blocks on the loading block at corresponding positions in the first movable groove and the second movable groove can freely rotate in the third movable groove, and the movable block in the first movable groove overturns under the gravity action of the copper oil nozzle to pour grinding scraps on the copper oil nozzle; the movable block in the second movable groove reversely rotates under the action of the fourth driving motor, so that the top surface of the movable block is rotated to the top, and the reset of the movable block is completed; the second reset spring provides reset capacity for the first connecting rod, so that the first connecting rod automatically moves back when the third cylinder piston rod contracts, the limiting block is clamped into the limiting groove again, and the movable block after position adjustment is fixed.

The polishing assembly comprises a hydraulic rod arranged at the bottom of the first mounting frame, an installation block arranged on a piston rod of the hydraulic rod, a sleeve arranged at the bottom of the installation block and an installation rod arranged in the sleeve; the bottom of the mounting block is provided with a first mounting groove, the sleeve is provided with a transmission ring matched with the first mounting groove, the mounting block is provided with an equipment cavity communicated with the first mounting groove, a third driving motor is arranged in the equipment cavity, and an output shaft of the third driving motor is provided with a second driving wheel matched with the transmission ring; polishing paper is arranged on the mounting rod, the material carrying block drives the copper oil nozzle to move below the polishing component, the hydraulic rod pushes the sleeve to move downwards, the sleeve is sleeved on the copper oil nozzle, the third driving motor drives the second driving wheel to rotate, the second driving wheel drives the driving ring to rotate, rotary power is provided for the sleeve, the polishing paper rotates along with the sleeve, so that the whole circumferential surface of the copper oil nozzle can be polished, and the polishing effect on the copper oil nozzle is guaranteed; utilize hydraulic stem and third driving motor to remove the processing of polishing to the copper glib talker after polishing the subassembly below at the copper glib talker, reduce the processing degree of difficulty to the copper glib talker.

A second cavity is arranged above the first mounting groove, a second through hole is formed in the bottom of the second cavity, a first push plate is arranged in the second cavity, a second supporting spring is arranged at the bottom of the first push plate, a second push rod matched with the second through hole is arranged at the bottom of the first push plate, a second connecting pipe matched with the second push rod is arranged at the top of the sleeve, a guide pipe penetrates through the bottom of the second cavity, a third connecting pipe matched with the guide pipe is arranged at the top of the sleeve, a liquid storage cavity communicated with the third connecting pipe is arranged on the inner wall of the sleeve, and a second push block matched with the mounting rod is arranged in the liquid storage cavity; after the copper oil nozzle moves below the polishing assembly, the hydraulic rod drives the mounting block to move downwards, the sleeve is sleeved on the copper oil nozzle, the third driving motor drives the sleeve to rotate, the mounting rod rotates along with the sleeve, polishing paper is in contact with the surface of the copper oil nozzle, and polishing treatment is carried out on the surface of the copper oil nozzle; the sleeve pipe rotates and drives the second push rod and together rotate, the second push rod drives first push pedal down motion, in the stock solution intracavity is crowded into with the hydraulic oil in the second cavity under first push pedal effect, promote the second ejector pad after the hydraulic pressure in the stock solution intracavity increases and move outward, the second ejector pad promotes the installation pole toward the sleeve pipe middle part motion, reduce the distance of polishing paper and copper glib talker gradually, so that do the processing of polishing to copper glib talker surface, promote the effect of polishing to copper glib talker.

A fourth opening is formed in the side wall of the liquid storage cavity, the second push block is arranged in the fourth opening, a fifth sliding groove is formed in the side wall of the mounting rod, a fourth sliding block is arranged in the fifth sliding groove, a second mounting groove matched with the mounting rod is formed in the inner wall of the sleeve, and a sixth sliding groove matched with the fourth sliding block is formed in the inner wall of the second mounting groove; a first movable cavity is arranged at the bottom of the second cavity, a second movable block and a third movable block are arranged in the first movable cavity, second convex blocks are arranged on the second movable block and the third movable block, and a threaded first groove matched with the second convex blocks is arranged on the second push rod; when the polishing paper is installed, the polishing paper is installed on the installation rod, then the installation rod is inserted into the second installation groove, and the installation rod is fixed under the mutual matching of the fourth sliding block and the sixth sliding groove, so that the installation of the installation rod is completed; under the mutual matching of the fourth sliding block and the fifth sliding groove, the mounting rod can move in a certain distance in the horizontal direction, so that the polishing paper is pushed to approach the copper oil nozzle under the action of the second pushing block, and the polishing effect on the copper oil nozzle is improved; when the sleeve rotates to drive the second push rod to rotate, the second push rod is matched with the second movable block and the second bump on the third movable block, so that the second push rod moves downwards in the rotating process, hydraulic oil in the second cavity is squeezed into the liquid storage cavity under the action of the first push plate, the second push block is pushed out of the liquid storage cavity, and the contact effect of polishing paper and the copper oil nozzle is improved; under the mutually supporting of the first recess of screw thread and second lug, make first push pedal still can continuously rotate after dropping to second cavity bottom, guarantee the effect of polishing to the copper glib talker.

The invention has the following advantages: under the mutual cooperation of the first movable groove and the second movable groove, the processing and the feeding of the copper oil nozzle are separately carried out, so that the equipment is in a continuous operation state, and the processing efficiency of the copper oil nozzle is improved; under the subassembly of polishing mutually supporting with the subassembly of unloading, make the polishing operation of copper glib talker go on automatically, reduce the processing degree of difficulty to copper glib talker.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a front view of the present invention.

Fig. 3 is a cross-sectional view taken along a-a in fig. 2.

Fig. 4 is an enlarged view of a portion a in fig. 3.

Fig. 5 is an enlarged view of fig. 3 at B.

Fig. 6 is a cross-sectional view taken along line B-B of fig. 2.

Fig. 7 is an enlarged view of fig. 6 at C.

Fig. 8 is an enlarged view of fig. 6 at D.

Fig. 9 is a cross-sectional view taken along line C-C of fig. 2.

Fig. 10 is an enlarged view of fig. 9 at E.

Fig. 11 is an enlarged view of fig. 9 at F.

Fig. 12 is an enlarged view at G in fig. 9.

Fig. 13 is a cross-sectional view taken along line E-E of fig. 2.

Fig. 14 is an enlarged view of fig. 13 at H.

Fig. 15 is a right side view of the present invention.

Fig. 16 is a cross-sectional view taken along line D-D in fig. 15.

Fig. 17 is an enlarged view at I in fig. 16.

Detailed Description

As shown in fig. 1-17, a processing apparatus for producing a copper oil nozzle comprises a processing table 1, a material loading block 2 disposed on the processing table 1, and a first mounting frame 3 disposed above the processing table 1, wherein a polishing assembly is disposed on the first mounting frame 3, a first movable tank 140 and a second movable tank 150 are disposed on the processing table 1, the first movable tank and the second movable tank are disposed adjacent to each other, a partition 130 is disposed between the first movable tank and the second movable tank, the material loading blocks 2 are multiple blocks and are respectively disposed in the first movable tank and the second movable tank, a material unloading assembly is disposed on the processing table 1, and a first opening and a second opening for communicating the first movable tank and the second movable tank are disposed on the partition; when the copper oil nozzle is polished, the copper oil nozzle is placed on a material loading block, the material loading block moves in a first movable groove, the copper oil nozzle is conveyed to the position below a polishing assembly, the polishing assembly moves downwards to be in contact with the copper oil nozzle, the surface of the copper oil nozzle is treated, and polishing of the copper oil nozzle is completed; after the copper oil nozzle is polished, the material carrying block drives the copper oil nozzle to move to the position below the discharging assembly, and the discharging assembly takes down the copper oil nozzle on the material carrying block so as to collect the copper oil nozzle and reduce the collection difficulty of the copper oil nozzle; after the copper oil nozzle on the material loading block is taken down, the material loading block moves into the second movable groove from the first opening, and the material loading block provided with the copper oil nozzle moves to the position below the polishing assembly, so that the polishing assembly is in a continuous working state, and the copper oil nozzle is conveniently processed; after the material carrying block provided with the copper oil nozzle moves to the lower part of the polishing assembly, the material carrying block which is not provided with the copper oil nozzle stops at the designated position in the second movable groove, so that the copper oil nozzle to be processed is arranged on the material carrying block, and the feeding operation of the copper oil nozzle is completed; under the mutually supporting of first activity groove and second activity groove, make the processing of copper glib talker separately go on with the material loading, make equipment be in and last running state, promote the machining efficiency to copper glib talker.

A first transmission belt 11 is arranged on one side of the partition board, a second transmission belt 12 is arranged on the other side of the partition board, the first transmission belt 11 is arranged below the first movable groove, the second transmission belt 12 is arranged below the second movable groove, a first bump is arranged on the first transmission belt 11, a first groove matched with the first bump is arranged at the bottom of the material carrying plate 2, a first air cylinder 13 is arranged on one side of the first opening, and a first push plate 131 is arranged on a piston rod of the first air cylinder 13; the first transmission belt and the second transmission belt rotate in opposite directions, a second air cylinder is arranged on one side of the second opening, and a second first push plate is arranged on a piston rod of the second air cylinder; the first transmission belt and the second transmission belt provide moving power for the material loading block, so that the material loading block automatically moves in the first movable groove and the second movable groove under the action of the first transmission belt and the second transmission belt, a conveying action is provided for the copper oil nozzle, and the automatic processing of the copper oil nozzle is completed; the first cylinder and the second cylinder provide thrust for the copper oil nozzle so as to push the copper oil nozzle to move between the first movable groove and the second movable groove, so that the loading and the processing of the copper oil nozzle are separately carried out, and the processing efficiency of the copper oil nozzle is improved; under the mutually supporting of first lug and first recess, promote the driven reliability of drive belt, avoid drive belt and year material piece to take place the phenomenon of skidding, make the cylinder during operation with carrying the material piece and normally releasing from the drive belt.

A first mounting table 5 is arranged on one side of the processing table 1, a second mounting table 6 is arranged on the other side of the processing table, a first driving motor 51 used for driving the first transmission belt 11 to rotate is arranged on the first mounting table 5, a second driving motor used for driving the second transmission belt to rotate is arranged on the second mounting table, a first transmission wheel 52 is arranged on an output shaft of the first driving motor 51, a first transmission roller 111 is arranged on the first transmission belt 11, and the first transmission wheel 52 is an incomplete gear; when the material carrying block is carried, the first driving motor drives the first driving wheel to rotate, the driving teeth on the first driving wheel are in contact with the first driving roller, the first driving roller is driven to rotate under the action of the first driving wheel, so that the first driving belt normally rotates, and reliable power support is provided for the material carrying block; under the arrangement of the unsafe gear of the first transmission wheel, the first transmission belt is enabled to move discontinuously, so that the moving distance of the material carrying block is controlled, the material carrying block is accurately conveyed to the lower part of the grinding assembly, and the processing effect of the material carrying block is ensured; under the incomplete gear setting, the driving motor is always in a working state, the phenomenon that the service life of the driving motor is influenced due to frequent halt of the driving motor is avoided, and the driving motor is protected.

The second driving belt structure is the same as the first driving belt structure, and the first driving belt driving mode of the first driving motor is the same as the second driving belt driving mode of the second driving motor.

Two sides of the loading block 2 are respectively provided with a first sliding block, the inner wall of the first movable groove is provided with a first sliding groove matched with the first sliding block, and the inner wall of the second movable groove is provided with a second sliding groove matched with the first sliding block; a third movable groove is formed in the material loading block 2, a first movable block 21 is arranged in the third movable groove, a material loading cavity is formed in the first movable block 21, a connecting shaft 211 is arranged on the side wall of the first movable block, and a first through cavity matched with the connecting shaft 211 is formed in the inner wall of the third movable groove; the bottom of the processing table 1 is provided with a waste material box 4; under the mutual matching of the sliding block and the sliding groove, the material loading block is fixed in the movable groove, so that the matching effect of the material loading block and the movable groove is improved, and the moving stability of the material loading block is ensured; when the copper oil nozzle is arranged on the movable block, the copper oil nozzle is fixed in the material storage cavity, so that the copper oil nozzle moves along with the material carrying block, after the polishing treatment of the copper oil nozzle is completed, the connecting shaft rotates in the first through cavity, the movable block is turned over by 180 degrees under the action of the gravity of the copper oil nozzle, the top surface of the movable block is rotated to the bottom, and therefore abrasive dust on the copper oil nozzle is poured into the waste material box, and the abrasive dust on the copper oil nozzle is cleaned; the movable block is independently arranged on the material loading block, the copper oil nozzle is naturally turned over on the basis that the material loading block normally moves, so that abrasive dust on the copper oil nozzle is removed, and abrasion of the surface of the copper oil nozzle caused by the abrasive dust is avoided.

A second through cavity is formed in the material loading block 2, a first connecting rod 22 is arranged in the second through cavity, the second through cavity is communicated with the third movable groove, a limiting block 221 is arranged on the first connecting rod 22, a limiting groove matched with the limiting block 221 is formed in the side wall of the first movable block 21, a third opening communicated with the second through cavity is formed in the first sliding block, first push blocks 222 matched with the third opening are respectively arranged at two ends of the first connecting rod 22, and a third air cylinder 19 matched with the first push blocks 222 is arranged at one side of the processing table 1; when the copper oil nozzle is arranged on the movable block, the limiting block is embedded in the limiting groove, the movable block is fixed under the mutual matching of the limiting block and the limiting groove, and the copper oil nozzle is stably fixed below the polishing assembly so as to be convenient for processing the copper oil nozzle; after the copper oil nozzle is polished, the third cylinder pushes the first connecting rod to move, the first connecting rod drives the limiting block to be separated from the limiting groove, the movable block rotates under the action of gravity of the copper oil nozzle after losing limiting, the movable block drives the copper oil nozzle to rotate together, and abrasive dust of the copper oil nozzle is thrown away under the action of potential energy so as to clean the abrasive dust group on the surface of the copper oil nozzle.

A first connecting plate 191 is arranged on a piston rod of the third cylinder 19, a first through hole is formed in the first connecting plate 191, a first connecting pipe 110 penetrates through the first through hole, a fourth driving motor 120 is arranged on one side of the third cylinder 19, an output shaft of the fourth driving motor 120 penetrates through the first connecting pipe 110, a first cavity is formed in one end of the first connecting pipe 110, the side wall of the first cavity is made of elastic materials, and a supporting spring 1101 is arranged in the first cavity; when the material loading block moves in the second movable groove, the material loading block moves to one side of the third cylinder, the third cylinder drives the piston rod to extend out, the third cylinder pushes the first connecting rod to move forwards, the limiting block is separated from the limiting groove, and the movable block can freely turn over in the third interaction groove; the third cylinder drives the first connecting plate to move together when pushing the piston rod to move, the first connecting plate drives the first connecting pipe to move to enable the first connecting pipe to be in contact with one end of the first pushing block, the first connecting pipe abuts against the pushing block, one end of the first cavity is extruded under the action of the pushing block, the side wall of the first cavity is pushed to deform under the action of air pressure, the contact effect of the first connecting pipe and the first pushing block is increased, the transmission effect of the first connecting pipe and the first pushing block is improved, the position of the movable block is adjusted under the action of the fourth driving motor, the top surface of the movable block is enabled to rotate to the top again, a new copper oil nozzle is installed on the movable block, and the loading operation of the material loading block is completed.

A third through cavity is formed in the partition plate, a first push rod 18 matched with the first push block 222 penetrates through the third through cavity, a second groove matched with the first push rod is formed in one end of the first push block, a second sliding block 181 is arranged on the side wall of the first push rod 18, a third sliding groove matched with the second sliding block 181 is formed in the inner wall of the third through cavity, and a first reset spring 182 is arranged on the second sliding block 181; a third sliding block is arranged on the side wall of the first connecting rod 22, a fourth sliding groove matched with the third sliding block is arranged on the inner wall of the second through cavity, and a second return spring is arranged on the third sliding block; when a loading block without a copper oil nozzle moves to one side of a third cylinder in a second movable groove, the loading block with the copper oil nozzle moves to the lower part of a polishing assembly, after the polishing treatment of the copper oil nozzle is finished, the third cylinder drives a piston rod to extend out, the third cylinder pushes a first connecting rod to move, a first push block on the loading block in the second movable groove pushes a first push rod to move, the first push rod pushes the first connecting rod on the loading block in the first movable groove, so that movable blocks on the loading block at corresponding positions in the first movable groove and the second movable groove can freely rotate in the third movable groove, and the movable block in the first movable groove overturns under the gravity action of the copper oil nozzle to pour grinding scraps on the copper oil nozzle; the movable block in the second movable groove reversely rotates under the action of the fourth driving motor, so that the top surface of the movable block is rotated to the top, and the reset of the movable block is completed; the second reset spring provides reset capacity for the first connecting rod, so that the first connecting rod automatically moves back when the third cylinder piston rod contracts, the limiting block is clamped into the limiting groove again, and the movable block after position adjustment is fixed.

The grinding assembly comprises a hydraulic rod 31 arranged at the bottom of the first mounting frame 3, a mounting block 32 arranged on a piston rod of the hydraulic rod 31, a sleeve 34 arranged at the bottom of the mounting block 32 and a mounting rod 341 arranged in the sleeve 34; a first mounting groove is formed in the bottom of the mounting block 32, a transmission ring matched with the first mounting groove is arranged on the sleeve 34, an equipment cavity communicated with the first mounting groove is formed in the mounting block 32, a third driving motor is arranged in the equipment cavity, and a second transmission wheel matched with the transmission ring is arranged on an output shaft of the third driving motor; polishing paper is arranged on the mounting rod, the material carrying block drives the copper oil nozzle to move below the polishing component, the hydraulic rod pushes the sleeve to move downwards, the sleeve is sleeved on the copper oil nozzle, the third driving motor drives the second driving wheel to rotate, the second driving wheel drives the driving ring to rotate, rotary power is provided for the sleeve, the polishing paper rotates along with the sleeve, so that the whole circumferential surface of the copper oil nozzle can be polished, and the polishing effect on the copper oil nozzle is guaranteed; utilize hydraulic stem and third driving motor to remove the processing of polishing to the copper glib talker after polishing the subassembly below at the copper glib talker, reduce the processing degree of difficulty to the copper glib talker.

A second cavity is arranged above the first mounting groove, a second through hole is formed in the bottom of the second cavity, a first push plate 37 is arranged in the second cavity, a second supporting spring is arranged at the bottom of the first push plate 37, a second push rod 371 matched with the second through hole is arranged at the bottom of the first push plate 37, a second connecting pipe 343 matched with the second push rod 371 is arranged at the top of the sleeve 34, a guide pipe 3210 penetrates through the bottom of the second cavity, a third connecting pipe 344 matched with the guide pipe 3210 is arranged at the top of the sleeve 34, a liquid storage cavity communicated with the third connecting pipe 344 is arranged on the inner wall of the sleeve 34, and a second push block 342 matched with the mounting rod 341 is arranged in the liquid storage cavity; after the copper oil nozzle moves below the polishing assembly, the hydraulic rod drives the mounting block to move downwards, the sleeve is sleeved on the copper oil nozzle, the third driving motor drives the sleeve to rotate, the mounting rod rotates along with the sleeve, polishing paper is in contact with the surface of the copper oil nozzle, and polishing treatment is carried out on the surface of the copper oil nozzle; the sleeve pipe rotates and drives the second push rod and together rotate, the second push rod drives first push pedal down motion, in the stock solution intracavity is crowded into with the hydraulic oil in the second cavity under first push pedal effect, promote the second ejector pad after the hydraulic pressure in the stock solution intracavity increases and move outward, the second ejector pad promotes the installation pole toward the sleeve pipe middle part motion, reduce the distance of polishing paper and copper glib talker gradually, so that do the processing of polishing to copper glib talker surface, promote the effect of polishing to copper glib talker.

A fourth opening is formed in the side wall of the liquid storage cavity, the second push block 342 is arranged in the fourth opening, a fifth sliding groove is formed in the side wall of the mounting rod 341, a fourth sliding block is arranged in the fifth sliding groove, a second mounting groove matched with the mounting rod 341 is formed in the inner wall of the sleeve 34, and a sixth sliding groove matched with the fourth sliding block is formed in the inner wall of the second mounting groove; a first movable cavity is arranged at the bottom of the second cavity, a second movable block 322 and a third movable block 324 are arranged in the first movable cavity, second convex blocks are arranged on the second movable block 322 and the third movable block 324, and a thread-shaped first groove matched with the second convex blocks is arranged on the second push rod 371; when the polishing paper is installed, the polishing paper is installed on the installation rod, then the installation rod is inserted into the second installation groove, and the installation rod is fixed under the mutual matching of the fourth sliding block and the sixth sliding groove, so that the installation of the installation rod is completed; under the mutual matching of the fourth sliding block and the fifth sliding groove, the mounting rod can move in a certain distance in the horizontal direction, so that the polishing paper is pushed to approach the copper oil nozzle under the action of the second pushing block, and the polishing effect on the copper oil nozzle is improved; when the sleeve rotates to drive the second push rod to rotate, the second push rod is matched with the second movable block and the second bump on the third movable block, so that the second push rod moves downwards in the rotating process, hydraulic oil in the second cavity is squeezed into the liquid storage cavity under the action of the first push plate, the second push block is pushed out of the liquid storage cavity, and the contact effect of polishing paper and the copper oil nozzle is improved; under the mutually supporting of the first recess of screw thread and second lug, make first push pedal still can continuously rotate after dropping to second cavity bottom, guarantee the effect of polishing to the copper glib talker.

A second connecting plate 33 is arranged on a piston rod of the hydraulic rod, a second connecting rod 328 is arranged at the top of the mounting block, a third through hole matched with the second connecting rod is arranged on the second connecting plate, a limiting plate is arranged at the top of the second connecting rod, a third supporting spring 329 is arranged at the bottom of the second connecting plate, a second movable cavity communicated with the first movable cavity is arranged on the mounting block, a third pushing block 321 is arranged in the second movable cavity, and a fourth pushing block 331 matched with the second movable cavity is arranged at the bottom of the second connecting plate; a third connecting rod 325 is hinged on the side wall of the third movable block, one end of the third connecting rod is hinged with a fourth connecting rod 326, and the other end of the fourth connecting rod is hinged on the inner wall of the first movable cavity; a first connecting spring 326 is arranged on the side wall of the third movable block, a second connecting spring 327 is arranged on the second movable block, and the other end of the second connecting spring is fixedly connected to the inner wall of the first movable cavity; the second push block is provided with a third push rod 323.

When the copper oil nozzle moves to the lower part of the polishing assembly, the hydraulic rod pushes the second connecting plate to move downwards, the sleeve is sleeved on the copper oil nozzle, the hydraulic rod drives the second connecting plate to continue to move downwards, the third push rod pushes the third push block to move downwards, the third push block extrudes air in the second movable cavity, the second movable block is pushed to move towards the second through hole under the action of air pressure, the third push rod pushes the third connecting rod and the fourth connecting rod to rotate around the connecting point, the third connecting rod and the fourth connecting rod rotate to be close to a linear state to push the third movable block to move, the second movable block and the third movable block are close to each other, the second push rod is clamped between the second movable block and the third movable block, the movable block and the push rod are matched with each other, so that the first push plate automatically moves downwards when the sleeve drives the second push rod to rotate, hydraulic oil in the second cavity is extruded into the liquid storage cavity, the distance between the polishing paper and the copper oil nozzle is pulled in, so that the processing effect of the copper oil nozzle is improved; under the mutually supporting of third connecting rod and fourth connecting rod, make the second movable block when removing the third movable block remove toward the second movable block direction in step, second movable block and third movable block relative motion form the cooperation with the second push rod, make the normal clear of polishing operation of copper glib talker.

Be equipped with the fourth on the first mounting groove lateral wall and lead to the chamber, wear to be equipped with fixed plate 36 in the fourth cross intracavity, after the lantern ring is packed into first mounting groove in, with the fixed plate push into the fourth cross intracavity, fixed plate one end is removed to transmission ring bottom, provides the holding power for the transmission ring under the fixed plate effect to fix the lantern ring in first mounting groove, accomplish the installation of the lantern ring.

A baffle 35 is arranged at the bottom of the first mounting frame, when the copper oil nozzle is fixed on the first movable block, the height of the copper oil nozzle is higher than that of the bottom of the baffle, a cross rod 14 is arranged in the first movable groove, and a rubber sleeve is wrapped on the cross rod; after the completion of polishing of copper glib talker, the stopper is deviate from the spacing inslot, and the year material piece drives copper glib talker and together removes, and copper glib talker contacts with the baffle, promotes copper glib talker down upset under the baffle effect, and copper glib talker down overturns under self action of gravity, and copper glib talker rotates under the inertial action and makes copper glib and horizontal pole produce the striking, and the effectual shake-off of abrasive dust on with copper glib talker under the impact avoids the abrasive dust to remain on the copper glib talker.

A second mounting frame 15 is arranged on the machining table, a fourth air cylinder 151, a third connecting plate 16 arranged on a piston rod of the fourth air cylinder and a fifth connecting rod 17 arranged at the bottom of the third connecting plate are arranged at the bottom of the discharging assembly, a third movable cavity is arranged on the third connecting plate, a fifth driving motor is arranged in the third movable cavity, a third driving wheel is arranged on an output shaft of the fifth driving motor and connected with the fifth connecting rod through a synchronous belt, the fifth driving motor provides power for the fifth connecting rod, a third cavity is arranged in the fifth connecting rod, a plurality of fifth openings are formed in the bottom of the third cavity, sealing pieces are arranged in the fifth openings, the sealing pieces are made of rubber, a second push plate 171 is arranged at the top of the third cavity, the second push plate is made of iron alloy, and an electromagnet is arranged at the bottom of the third cavity; the inner wall of the material storage cavity is provided with threads matched with the copper oil nozzle, and the copper oil nozzle is fixed on the first movable block in a thread mode; copper glib mouth is polishing the completion back, copper glib mouth drives the upset of first movable block, make copper glib mouth top rotate down, copper glib mouth tail end moves up to second mounting bracket below, fourth cylinder drive third connecting plate down moves, inside the fifth connecting rod inserted copper glib mouth, the electro-magnet circular telegram produces magnetic force, the second push pedal down moves, with the gas compression in the third cavity, gasket atress deformation, make the gasket contact with copper glib mouth inner wall, fifth driving motor drive fifth connecting rod rotates, fifth connecting rod drives copper glib mouth internal rotation in the storage cavity, with copper glib mouth transfer out from the storage cavity, after copper glib mouth transfer out from the storage cavity, the electro-magnet outage loses magnetic force, second push pedal up moves, the gasket does not contact with copper glib mouth inner wall, copper glib mouth drops from the fifth connecting rod, accomplish the automation of copper glib mouth and get the material.

When the copper oil nozzle is machined, the copper oil nozzle is transferred into a material storage cavity, the copper oil nozzle is fixed, a transmission belt drives a material carrying block to move, the material carrying block is moved to a second opening, a second air cylinder pushes the material carrying block in a second movable groove into a first movable groove, the transmission belt drives the material carrying block to move in the first movable groove, the material carrying block drives the copper oil nozzle to move below a first mounting frame, a hydraulic rod pushes the mounting block to move downwards, a sleeve is sleeved on the copper oil nozzle, a driving motor drives the sleeve to rotate, and polishing treatment is carried out on the copper oil nozzle; after the copper oil nozzle is machined, the third cylinder drives the piston rod to extend out, the third cylinder pushes the first connecting rod in the material carrying block in the second movable groove to move, the first connecting rod on the material carrying block in the second movable groove pushes the first push rod to move, the first push rod pushes the first connecting rod on the material carrying block in the first movable groove to move, the limiting block is separated from the limiting groove, the fourth driving motor drives the first connecting pipe to rotate, and the first movable block with the bottom surface facing downwards in the second movable groove is rotated to the position with the top surface facing upwards so as to fix the copper oil nozzle on the first movable block; the transmission belt continuously drives the material loading block to move, the copper oil nozzle moves to be in contact with the baffle, the copper oil nozzle is pushed to turn over under the action of the baffle, the copper oil nozzle turns down under the action of inertia to be in contact with the cross rod, abrasive dust on the copper oil nozzle is shaken off, and self-cleaning of the copper oil nozzle is completed; the copper oil nozzle moves to the position below the second mounting frame at any time, and the fifth connecting rod is inserted into the copper oil nozzle to rotate the copper oil nozzle out of the first movable block, so that the copper oil nozzle is automatically received; copper glib mouth removes to first opening part, and first cylinder promotes the material loading piece in the first activity inslot and removes to the second activity inslot, makes the material loading piece accomplish the material loading again in the second activity inslot to make equipment continuous operation, promote copper glib mouth machining efficiency.

The cylinder, hydraulic stem, driving motor isotructure in this application drawing are the schematic diagram, and its concrete structure is the same with cylinder, hydraulic stem, the motor structure among the prior art.

Claims (10)

1. The utility model provides a processing equipment is used in production of copper glib talker, includes processing platform (1), locates carry material piece (2) on processing platform (1) and locate processing platform (1) first mounting bracket (3) of top, be equipped with the subassembly of polishing on first mounting bracket (3), its characterized in that: processing platform (1) is last to be equipped with first movable groove (140) and second movable groove (150), first movable groove (140) with second movable groove (150) adjacent setting, first movable groove with be equipped with baffle (130) between the second movable groove, material loading piece (2) are the polylith, locate respectively first movable groove (140) with in second movable groove (150), be equipped with the subassembly of unloading on processing platform (1), be equipped with on baffle (130) and be used for the intercommunication first movable groove (140) with the first opening and the second opening of second movable groove (150).

2. The processing equipment for producing the copper oil nozzle according to claim 1, wherein: a first transmission belt (11) is arranged on one side of the partition board, a second transmission belt (12) is arranged on the other side of the partition board, the first transmission belt (11) is arranged below the first movable groove, the second transmission belt (12) is arranged below the second movable groove, a first bump is arranged on the first transmission belt (11), a first groove matched with the first bump is arranged at the bottom of the material carrying plate (2), a first air cylinder (13) is arranged on one side of the first opening, and a first push plate (131) is arranged on a piston rod of the first air cylinder (13); and a second cylinder is arranged on one side of the second opening, and a second first push plate is arranged on a piston rod of the second cylinder.

3. The processing equipment for producing the copper oil nozzle according to claim 2, wherein: processing platform (1) one side is equipped with first mount table (5), and the opposite side is equipped with second mount table (6), be equipped with on first mount table (5) and be used for the drive first driving motor (51) of first drive belt (11) pivoted, be equipped with on second mount table (6) and be used for the drive second drive belt pivoted second driving motor, be equipped with first drive wheel (52) on first driving motor (51) output shaft, be equipped with first drive roller (111) on first drive belt (11), first drive wheel (52) are incomplete gear.

4. The processing equipment for producing the copper oil nozzle according to claim 1, wherein: two sides of the loading block (2) are respectively provided with a first sliding block, the inner wall of the first movable groove is provided with a first sliding groove matched with the first sliding block, and the inner wall of the second movable groove is provided with a second sliding groove matched with the first sliding block; a third movable groove is formed in the material loading block (2), a first movable block (21) is arranged in the third movable groove, a material loading cavity is formed in the first movable block (21), a connecting shaft (211) is arranged on the side wall of the first movable block, and a first through cavity matched with the connecting shaft (211) is formed in the inner wall of the third movable groove; the bottom of the processing table (1) is provided with a waste material box (4).

5. The processing equipment for producing the copper oil nozzle according to claim 4, wherein: be equipped with the second on feed block (2) and lead to the chamber, head rod (22) are located in the second logical intracavity, the second lead to the chamber with the third movable groove communicates with each other, be equipped with stopper (221) on head rod (22), be equipped with on first movable block (21) lateral wall with stopper (221) matched with spacing groove, be equipped with on the first slider with the second leads to the communicating third opening in chamber, head rod (22) both ends be equipped with respectively with first ejector pad (222) of third opening matched with, processing platform (1) one side be equipped with first ejector pad (222) matched with third cylinder (19).

6. The processing equipment for producing the copper oil nozzle according to claim 5, wherein: be equipped with first connecting plate (191) on third cylinder (19) piston rod, be equipped with first through-hole on first connecting plate (191), wear to be equipped with first connecting pipe (110) in the first through-hole, third cylinder (19) one side is equipped with fourth driving motor (120), fourth driving motor (120) output shaft wears to locate in first connecting pipe (110), first connecting pipe (110) one end is equipped with first cavity, first cavity lateral wall is made for elastic material, be equipped with supporting spring (1101) in the first cavity.

7. The processing equipment for producing the copper oil nozzle according to claim 6, wherein: a third through cavity is formed in the partition plate, a first push rod (18) matched with the first push block (222) penetrates through the third through cavity, a second slide block (181) is arranged on the side wall of the first push rod (18), a third slide groove matched with the second slide block (181) is formed in the inner wall of the third through cavity, and a first reset spring (182) is arranged on the second slide block (181); and a third sliding block is arranged on the side wall of the first connecting rod (22), a fourth sliding groove matched with the third sliding block is arranged on the inner wall of the second through cavity, and a second reset spring is arranged on the third sliding block.

8. The processing equipment for producing the copper oil nozzle according to claim 1, wherein: the grinding assembly comprises a hydraulic rod (31) arranged at the bottom of the first mounting frame (3), a mounting block (32) arranged on a piston rod of the hydraulic rod (31), a sleeve (34) arranged at the bottom of the mounting block (32) and a mounting rod (341) arranged in the sleeve (34); the bottom of the mounting block (32) is provided with a first mounting groove, the sleeve (34) is provided with a transmission ring matched with the first mounting groove, the mounting block (32) is provided with an equipment cavity communicated with the first mounting groove, a third driving motor is arranged in the equipment cavity, and a second transmission wheel matched with the transmission ring is arranged on an output shaft of the third driving motor.

9. The processing equipment for producing the copper oil nozzle according to claim 8, wherein: first mounting groove top is equipped with the second cavity, second cavity bottom is equipped with the second through-hole, be equipped with first push pedal (37) in the second cavity, first push pedal (37) bottom is equipped with second supporting spring, first push pedal (37) bottom be equipped with second through-hole matched with second push rod (371), sleeve pipe (34) top be equipped with second push rod (371) matched with second connecting pipe (343), pipe (3210) are worn to be equipped with to second cavity bottom, sleeve pipe (34) top be equipped with pipe (3210) matched with third connecting pipe (344), be equipped with on sleeve pipe (34) inner wall with the communicating stock solution chamber of third connecting pipe (344), stock solution intracavity be equipped with installation pole (341) matched with second ejector pad (342).

10. The processing equipment for producing the copper oil nozzle according to claim 9, wherein: a fourth opening is formed in the side wall of the liquid storage cavity, the second push block (342) is arranged in the fourth opening, a fifth sliding groove is formed in the side wall of the mounting rod (341), a fourth sliding block is arranged in the fifth sliding groove, a second mounting groove matched with the mounting rod (341) is formed in the inner wall of the sleeve (34), and a sixth sliding groove matched with the fourth sliding block is formed in the inner wall of the second mounting groove; the second cavity bottom is equipped with first movable chamber, be equipped with second movable block (322) and third movable block (324) in the first movable chamber, second movable block (322) with be equipped with the second lug on third movable block (324), be equipped with on second push rod (371) with the first recess of second lug matched with screw thread shape.

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