CN209532846U - A kind of automation feeding device for fine copper actuating sleeve milling processing - Google Patents

Abstract

The utility model relates to copper sheathing processing equipment fields, specifically, it is related to a kind of automation feeding device for fine copper actuating sleeve milling processing, including material vibrating disk and clamp assemblies, the side of material vibrating disk is provided with linear guide, clamp assemblies include mounting base, fixed station in mounting base and driving cylinder are set, the output end of driving cylinder is provided with central clamp bar, the first supporting rod is fixedly installed on fixed station, second supporting rod and driving gear, first supporting rod and the second supporting rod are symmetrical arranged about central clamp bar, between central clamp bar and the first supporting rod, a driving gear is provided between central clamp bar and the second supporting rod, rotary electric machine is provided with below mounting base.Copper casting material is put into material vibrating disk, material vibrating disk is by its proper alignment and is sent into linear guide, then clamps single copper casting material by clamp assemblies and is transferred on milling machine.Present apparatus structure is simple, and it is convenient to operate, practical.

Description

A kind of automation feeding device for fine copper actuating sleeve milling processing

Technical field

The utility model relates to copper sheathing processing equipment fields, and in particular, to one kind is processed for the milling of fine copper actuating sleeve Automation feeding device.

Background technique

Copper sheathing, also referred to as copper bush, there are many, including machine copper roller, copper bearing etc..For various light industrys, large size, heavy type Mechanically, it is important set member mechanically.Product has the function of traditional tin bronze bearing, is equipped with using cathode copper as raw material more Kind minor metallic element is process through high temperature sintering by air pressure centrifugal casting.Hardness is high, and wearability is fabulous, is not likely to produce Phenomenon is killed, there is preferable casting character and machinability, there is good corrosion resistance in atmosphere and fresh water.Moisten lacking Lubrication prescription and under the conditions of aqueous lubricant, sliding property and self-lubricating property are good, and Cutting free, casting character is poor, anti-corrosion to dilute sulfuric acid Performance is good.General purpose structural member, the simple casting of the external form that ship, instrument etc. use, such as sleeve, bushing, bearing shell, cunning Block etc..

And the use scope of fine copper set is more extensive, is all good components in many fields.In the production of copper sheathing Cheng Zhong will carry out milling processing to raw material, can reach size, internal-and external diameter of standard etc..When carrying out milling processing, How raw material to be quickly and efficiently sent into milling machine, completes feeding, it will help promote processing efficiency.

Utility model content

In view of the deficiencies of the prior art, the utility model provides a kind of automation for fine copper actuating sleeve milling processing Expect device.

A kind of automation feeding device for fine copper actuating sleeve milling processing disclosed by the utility model, including material vibration Moving plate and clamp assemblies, the side of the material vibrating disk are provided with linear guide, and one end of the linear guide and material shake The output end of Moving plate is connected, and the clamp assemblies are arranged in the other end of linear guide, the clamp assemblies include mounting base, The defeated of driving cylinder is arranged in the fixed station being arranged in mounting base and the driving cylinder being arranged in mounting base, the fixed station Before outlet, driving cylinder is located at the position at the axis of fixed station, and the output end of cylinder is driven to be provided with central clamp bar and side To towards linear guide, being fixedly installed with the first supporting rod, the second supporting rod and driving gear on the fixed station, described first Supporting rod and the second supporting rod are symmetrical arranged about central clamp bar, and the driving gear is provided with a pair, central clamp bar with It is provided with a driving gear between first supporting rod, between central clamp bar and the second supporting rod, drives gear and fixation Platform axis is dynamic to be connected, and is provided with rotary electric machine below mounting base, the output end of the rotary electric machine is connected with the bottom of mounting base It connects.

Further, the linear guide is provided with feeding station close to one end of clamp assemblies, at the feeding station It is provided with stop cylinder, stopper is provided on the output end of the stop cylinder, the stopper is located in linear guide.

Further, first supporting rod and the second supporting rod are arranged in a crossed manner, and the two sides of fixed station are equipped with sliding Platform, the first supporting rod and the second supporting rod are each attached on sliding stand and are slidably connected with sliding stand.

Further, one end of first supporting rod and the second supporting rod towards linear guide is provided with clamping part, The inside of the clamping part is arc-shaped structure.

Further, the central clamp bar towards one end of linear guide be arc-shaped structure.

Further, rack gear is provided on the side of central clamp bar on first supporting rod and the second supporting rod The two sides of structure, the central clamp bar are provided with rack structure.

Further, similar driving gear is meshed respectively and therewith for first supporting rod and the second supporting rod, institute Central clamp bar is stated to engage with two driving gears.

The utility model has the advantages that the utility model relates to feeding device, can be fast and effeciently by material marshalling, and by pressing from both sides It holds component successively to clamp, completes feeding, copper piece material can be accurately sent into the fixture on milling machine, whole flow process coordination has Sequence, present apparatus structure is simple, and it is convenient to operate, practical.

Detailed description of the invention

The drawings described herein are used to provide a further understanding of the present application, constitutes part of this application, this Shen Illustrative embodiments and their description please are not constituted an undue limitation on the present application for explaining the application.In the accompanying drawings:

Fig. 1 is the schematic perspective view of the utility model；

Fig. 2 is that the structure of the utility model splits schematic diagram；

Fig. 3 is the enlarged diagram in Fig. 2 at A；

Fig. 4 is that the structure of clamp assemblies splits schematic diagram；

Fig. 5 is the partial top view of clamp assemblies；

Description of symbols: material vibrating disk 1, linear guide 1a, copper casting material 2, stop cylinder 3, stopper 3a, folder Hold component 4, mounting base 4a, fixed station 4b, sliding stand 4b1 drive cylinder 4c, the first supporting rod 4d, the second supporting rod 4e, center Supporting rod 4f drives gear 4g, clamping part 4h, rotary electric machine 5.

Specific embodiment

Multiple embodiments that the utility model will be disclosed with schema below, as clearly stated, in many practices Details will be explained in the following description.It should be appreciated, however, that the details in these practices does not apply this with limitation practical new Type.That is, the details in these practices is non-essential in some embodiments of the utility model.In addition, for letter For the sake of changing schema, some known usual structures and component will be painted it in the drawings in simply illustrative mode.

In addition, the description for being such as related to " first ", " second " in the present invention is used for description purposes only, and non-specifically The meaning of order or cis-position is censured, it is also non-to limit the utility model, it is retouched just for the sake of difference with same technique term The component stated or operation are not understood to indicate or imply its relative importance or implicitly indicate indicated technology The quantity of feature." first " is defined as a result, the feature of " second " can explicitly or implicitly include at least one spy Sign.It in addition, the technical solution between each embodiment can be combined with each other, but must be with those of ordinary skill in the art's energy It is enough realize based on, will be understood that the knot of this technical solution when conflicting or cannot achieve when occurs in the combination of technical solution Conjunction is not present, also not within the protection scope of the requires of the utility model.

Referring to figs. 1 to a kind of automation feeding device for fine copper actuating sleeve milling processing shown in fig. 5, including material Vibrating disk 1 and clamp assemblies 4, the side of the material vibrating disk 1 are provided with linear guide 1a, one end of the linear guide 1a It is connected with the output end of material vibrating disk 1, the other end of linear guide 1a, the clamping group is arranged in the clamp assemblies 4 Part 4 includes mounting base 4a, the fixed station 4b being arranged in mounting base 4a and the driving cylinder 4c that is arranged in mounting base 4a, described Before the output end of driving cylinder 4c is arranged in fixed station 4b, driving cylinder 4c is located at the position at the axis of fixed station 4b, drives The output end of cylinder 4c is provided with central clamp bar 4f and direction is towards linear guide 1a, is fixedly installed on the fixed station 4b First supporting rod 4d, the second supporting rod 4e and driving gear 4g, the first supporting rod 4d and the second supporting rod 4e are about center Supporting rod 4f is symmetrical arranged, and the driving gear 4g is provided with a pair, between central clamp bar 4f and the first supporting rod 4d, center A driving gear 4g, driving gear 4g and the dynamic company of fixed station 4b axis are provided between supporting rod 4f and the second supporting rod 4e It connects, rotary electric machine 5 is provided with below mounting base 4a, the output end of the rotary electric machine 5 is connected with the bottom of mounting base 4a. The present apparatus is used to carry out feeding to copper casting material 2, makes it on the fixture on milling machine, and then is processed into copper driving by milling Cover part.Copper casting material 2 is put into material vibrating disk 1 first, material vibrating disk 1 is by its proper alignment and is sent into straight line and leads In rail 1a, then single copper casting material 2 is clamped by clamp assemblies 4 and is transferred on milling machine.It is specific as follows, drive cylinder 4c Push central clamp bar 4f on its output end forward, the driving gear 4g that central clamp bar 4f drives two sides to engage occurs Rotation, driving gear 4g drive the first supporting rod 4d and the second supporting rod 4e to promote, the first supporting rod 4d and the second supporting rod 4e It mutually draws close, clamping part 4h is close to each other and clamps the side of copper casting material 2, and cooperation central clamp bar 4f withstands copper casting object Material extracting operation is completed in the side of material 2.Subsequent rotary electric machine 5 starts, and rotates with mounting base 4a, copper casting material 2 is transferred to Designated position on milling machine.Then driving cylinder 4c pulls central clamp bar 4f to retreat, and central clamp bar 4f drives driving again Gear 4g rotation, so that the first supporting rod 4d and the second supporting rod 4e are separated from each other, copper casting material 2 is put down, and is completed Discharge operation.

The linear guide 1a is provided with feeding station close to one end of clamp assemblies 4, is provided at the feeding station Stop cylinder 3 is provided with stopper 3a on the output end of the stop cylinder 3, and the stopper 3a is located in linear guide 1a. Copper casting material 2 is sent into linear guide 1a by 1 marshalling of material vibrating disk, at feeding station, subsequent casting in bronze Part material 2 is blocked block 3a and blocks, and the copper casting material 2 of feeding station is clamped after component 4 takes away, and stop cylinder 3 pulls resistance Block 3a gets out of the way the channel of linear guide 1a, and the subsequent continuation of copper casting material 2 is headed into feeding station, repeatedly.

The first supporting rod 4d and the second supporting rod 4e are arranged in a crossed manner, and the two sides of fixed station 4b are equipped with sliding stand 4b1, the first supporting rod 4d and the second supporting rod 4e are each attached on sliding stand 4b1 and are slidably connected with sliding stand 4b1.First folder Bar 4d and the second supporting rod 4e are held by the sliding on sliding stand 4b1, copper casting material 2 is clamped or put down by intersection.

One end of the first supporting rod 4d and the second supporting rod 4e towards linear guide 1a are provided with clamping part 4h, institute The inside for stating clamping part 4h is arc-shaped structure.

The central clamp bar 4f towards one end of linear guide 1a be arc-shaped structure.First supporting rod 4d, the second folder The cylindrical structure for holding bar 4e and arc-shaped structure and copper casting material 2 on central clamp bar 4f matches, can be preferably Cooperation copper casting material 2 is clamped and is shifted.

Rack gear knot is provided on the side of central clamp bar 4f on the first supporting rod 4d and the second supporting rod 4e The two sides of structure, the central clamp bar 4f are provided with rack structure.Rack structure and the first supporting rod 4d, the second supporting rod 4e It is integrally formed with central clamp bar 4f.

Similar driving gear 4g's first supporting rod 4d and the second supporting rod 4e is meshed respectively and therewith, it is described in Heart supporting rod 4f is engaged with two driving gear 4g.Central clamp bar 4f is connected under the push-and-pull of driving cylinder 4c by engagement Tape splicing moves the driving gear 4g rotation of two sides, and driving gear 4g is further driven to the folder of the first supporting rod 4d being engaged with and second It holds bar 4e to be moved forward and backward on sliding stand 4b1, and then the first supporting rod 4d and the second supporting rod 4e is caused to be separated from each other or separate, Complete the clamping and discharging to copper casting material 2.

Working principle: the present apparatus is used to carry out feeding to copper casting material 2, makes it on the fixture on milling machine, in turn Copper actuating sleeve part is processed by milling.Copper casting material 2 is put into material vibrating disk 1 first, material vibrating disk 1 is whole by its It arranges and is sent into linear guide 1a together, then single copper casting material 2 is clamped by clamp assemblies 4 and is transferred on milling machine. Specific as follows, driving cylinder 4c pushes the central clamp bar 4f on its output end forward, and central clamp bar 4f drives two sides and its The driving gear 4g of engagement rotates, and driving gear 4g drives the first supporting rod 4d and the second supporting rod 4e to promote, the first folder It holds bar 4d and the second supporting rod 4e is mutually drawn close, clamping part 4h is close to each other and clamps the side of copper casting material 2, cooperates center Supporting rod 4f withstands the side of copper casting material 2, completes material extracting operation.Subsequent rotary electric machine 5 starts, and turns with mounting base 4a It is dynamic, copper casting material 2 is transferred to the designated position on milling machine.Then driving cylinder 4c pulls central clamp bar 4f to retreat, in Heart supporting rod 4f drives driving gear 4g rotation again, so that the first supporting rod 4d and the second supporting rod 4e are separated from each other, Copper casting material 2 is put down, discharge operation is completed.

Copper casting material 2 is sent into linear guide 1a by 1 marshalling of material vibrating disk, at feeding station, after Continuous copper casting material 2 is blocked block 3a and blocks, and the copper casting material 2 of feeding station is clamped after component 4 takes away, stop cylinder 3 pull stopper 3a, get out of the way the channel of linear guide 1a, the subsequent continuation of copper casting material 2 is headed into feeding station, so anti- It is multiple.

Upper described only the embodiments of the present invention, is not intended to limit the utility model.For this field For technical staff, various modifications and changes may be made to the present invention.The interior institute of all spirit and principle in the utility model Any modification, equivalent substitution, improvement and etc. of work should all include within the scope of the claims of the utility model.

Claims (7)

1. a kind of automation feeding device for fine copper actuating sleeve milling processing, it is characterised in that: including material vibrating disk (1) It is provided with linear guide (1a) with the side of clamp assemblies (4), the material vibrating disk (1), the one of the linear guide (1a) End is connected with the output end of material vibrating disk (1), the other end of clamp assemblies (4) setting in linear guide (1a), institute Clamp assemblies (4) are stated to include mounting base (4a), the fixed station (4b) being arranged in mounting base (4a) and be arranged at mounting base (4a) Interior driving cylinder (4c), before the output end of driving cylinder (4c), driving cylinder (4c) is located at for fixed station (4b) setting Position at the axis of fixed station (4b), the output end of driving cylinder (4c) is provided with central clamp bar (4f) and direction is towards directly Line guide rail (1a) is fixedly installed with the first supporting rod (4d), the second supporting rod (4e) and driving gear on the fixed station (4b) (4g), first supporting rod (4d) and the second supporting rod (4e) are symmetrical arranged about central clamp bar (4f), the sliding tooth Wheel (4g) be provided with a pair, between central clamp bar (4f) and the first supporting rod (4d), central clamp bar (4f) and second clamp A driving gear (4g), driving gear (4g) and the dynamic connection of fixed station (4b) axis, mounting base are provided between bar (4e) It is provided with below (4a) rotary electric machine (5), the output end of the rotary electric machine (5) is connected with the bottom of mounting base (4a).

2. a kind of automation feeding device for fine copper actuating sleeve milling processing according to claim 1, feature exist In: the linear guide (1a) is provided with feeding station close to the one end of clamp assemblies (4), and resistance is provided at the feeding station It keeps off cylinder (3), is provided with stopper (3a) on the output end of the stop cylinder (3), the stopper (3a) is led positioned at straight line In rail (1a).

3. a kind of automation feeding device for fine copper actuating sleeve milling processing according to claim 1, feature exist In: first supporting rod (4d) and the second supporting rod (4e) are arranged in a crossed manner, and the two sides of fixed station (4b) are equipped with sliding stand (4b1), the first supporting rod (4d) and the second supporting rod (4e) are each attached on sliding stand (4b1) and slide with sliding stand (4b1) Connection.

4. a kind of automation feeding device for fine copper actuating sleeve milling processing according to claim 1, feature exist In: one end of first supporting rod (4d) and the second supporting rod (4e) towards linear guide (1a) is provided with clamping part (4h), the inside of the clamping part (4h) are arc-shaped structure.

5. a kind of automation feeding device for fine copper actuating sleeve milling processing according to claim 1, feature exist In: the central clamp bar (4f) towards one end of linear guide (1a) be arc-shaped structure.

6. a kind of automation feeding device for fine copper actuating sleeve milling processing according to claim 1, feature exist In: rack gear knot is provided on the side of central clamp bar (4f) on first supporting rod (4d) and the second supporting rod (4e) The two sides of structure, the central clamp bar (4f) are provided with rack structure.

7. a kind of automation feeding device for fine copper actuating sleeve milling processing according to claim 1, feature exist In: similar driving gear (4g) is meshed respectively and therewith for first supporting rod (4d) and the second supporting rod (4e), described Central clamp bar (4f) is engaged with two driving gears (4g).