CN112008276B - Alloy feeding device of milling cutter welding machine - Google Patents

Abstract

The invention relates to an alloy feeding device of a milling cutter welding machine, which comprises a machine table, wherein a first feeding station for placing an alloy, a gluing station for gluing the alloy and a welding station are sequentially arranged on the machine table, a first feeding device for conveying the alloy is arranged between the first feeding station and the welding station, a first mounting frame is arranged on the machine table, the first feeding device comprises a clamping mechanism for clamping the alloy and a first moving mechanism for driving the clamping mechanism to move, the clamping mechanism is connected with the first moving mechanism, and the first moving mechanism is fixedly arranged on the first mounting frame. Through adopting above-mentioned technical scheme, alloy material loading, the whole automatic setting of rubberizing compare in artifical material loading, and its location is more accurate for welding quality is high, and is efficient, reduces intensity of labour simultaneously, realizes standardized production.

Description

Alloy feeding device of milling cutter welding machine

Technical Field

The invention belongs to the field of automatic mechanical equipment, and particularly relates to an alloy feeding device of a milling cutter welding machine.

Background

A milling cutter is a rotating tool with one or more cutter teeth for milling. When in work, each cutter tooth cuts off the allowance of the workpiece in sequence and intermittently. The milling cutter is mainly used for processing planes, steps, grooves, formed surfaces, cut-off workpieces and the like on a milling machine. In order to improve the hardness of the milling cutter, alloy is added at the end part of the milling cutter, the feeding in the production link in the prior art is mainly performed manually, manual feeding is adopted in the production, repeated labor operation is continuously performed manually, the labor intensity of manual work is high, the welding position of the alloy and the milling cutter workpiece cannot be confirmed each time, the quality is uneven, and the technical requirement on welding is high.

Disclosure of Invention

In conclusion, in order to overcome the defects of the prior art, the invention provides an alloy feeding device of a milling cutter welding machine.

In order to realize the purpose, the invention provides the following technical scheme: the utility model provides an alloy loading attachment of milling cutter welding machine, includes the board, set gradually on the board and be used for placing the alloy first material loading station, be used for rubberizing station and the welding station to the alloy rubberizing, be provided with the first material feeding unit who is used for carrying the alloy between first material loading station and the welding station, be provided with first mounting bracket on the board, first material feeding unit presss from both sides including being used for pressing from both sides to get the alloy and gets the mechanism and be used for the drive to press from both sides the first moving mechanism that gets the mechanism and remove, press from both sides get the mechanism with first moving mechanism links to each other, first moving mechanism fixed set up in on the first mounting bracket.

Through adopting above-mentioned technical scheme, press from both sides and get the alloy on the mechanism clamp first material loading station, then press from both sides the mechanism through the first moving mechanism drive clamp on the first mounting bracket and remove and carry out the rubberizing to the rubberizing station (indicate to add the scaling powder, the rubberizing is all write below), then first moving mechanism drive clamp is got the mechanism and is removed and wait for the alloy to weld with the milling cutter work piece to the welding station, alloy material loading, rubberizing full automation sets up, compare in artifical material loading, it fixes a position more accurately, make welding quality high, high efficiency, reduce intensity of labour simultaneously, realize standardized production.

The invention further sets up: first moving mechanism gets the mechanism including being used for the control to press from both sides the first drive assembly who gets the mechanism and be used for the control to press from both sides the first lifting unit who gets the mechanism oscilaltion between first material loading station to welding station, press from both sides the mechanism and fix set up in on the first lifting unit, first drive assembly includes slide rail and cylinder, first lifting unit slide set up in on the slide rail, the cylinder drive first lifting unit is followed the slide rail lateral sliding.

Through adopting above-mentioned technical scheme, press from both sides when getting the alloy that the mechanism pressed from both sides on getting first material loading station, then first lifting unit control clamp gets the mechanism and rises, then the cylinder drive first lifting unit follows slide rail lateral sliding carries out the rubberizing to the rubberizing station, the first moving mechanism liftable is convenient for change the position of first material loading station according to the demand of different scenes, makes its suitability wider, makes its alloy material loading location more accurate simultaneously.

The invention further provides that: be provided with the pre-compaction station between rubberizing station and the welding station, the pre-compaction station is provided with the receiving piece of accepting the alloy and is used for driving the receiving piece reciprocating sliding's between pre-compaction station and welding station second moving mechanism, the receiving piece top is provided with accepts the platform, when first moving mechanism drive clamp was got the mechanism and was removed to the pre-compaction station, the alloy was located accept on the platform, when first moving mechanism drive clamp was got the mechanism and was removed to the welding station from the pre-compaction station, first moving mechanism with the second moving mechanism is advanced in step.

By adopting the technical scheme, the bearing part is arranged, when the alloy and the milling cutter workpiece are welded, the bearing platform plays roles of positioning and supporting the alloy below the alloy, so that the welding effect of the alloy and the milling cutter workpiece is better, the production quality of a product is improved, meanwhile, the prepressing station is arranged, the height of the bearing platform is unchanged due to the reciprocating sliding of the second moving mechanism, the first moving mechanism drives the clamping mechanism to glue the alloy, then the first moving mechanism drives the clamping mechanism to move to the prepressing station, so that the alloy is close to the upper part of the bearing platform, the alloy is matched with the height of the welding station, then the first moving mechanism and the second moving mechanism synchronously advance, the alloy and the bearing part are ensured to simultaneously enter the welding station, the alloy is not easy to send out and deviate or fall, the welding effect is better, and the quality of a finished product is higher.

The invention further provides that: be provided with the rubberizing device on the rubberizing station, the rubberizing device is including being used for adding scaling powder play gluey mechanism on the alloy and being used for driving a elevating system that goes out gluey mechanism and go up and down, go out gluey mechanism with a elevating system links to each other, a elevating system is fixed set up in on the first mounting bracket.

Through adopting above-mentioned technical scheme, when first moving mechanism drive clamp was got the mechanism and was removed to the rubberizing station, first elevating system drive goes out gluey mechanism and descends to the alloy top and carry out the rubberizing, after the rubberizing is accomplished, the drive goes out gluey mechanism and rises to reset, make the rubberizing more be close to the alloy rubberizing more accurate, it does not influence first moving mechanism drive clamp simultaneously to go out gluey mechanism and gets the mechanism and continue to remove, carry out pre-compaction and welding on next step, the structure sets up more rationally, it is compacter to make the space simultaneously, reduce and take up an area of the space.

The invention further sets up: go out gluey mechanism including holding gluey piece, syringe needle and extrusion subassembly, hold gluey piece be provided with the gluey chamber of holding gluey chamber of appearance that is used for holding the scaling powder and be used for supplying the scaling powder to get into the injecting glue hole of holding gluey chamber, the syringe needle set up in hold gluey piece to correspond the one end of rubberizing station, extrusion subassembly set up in hold the other end of gluey piece, syringe needle, extrusion subassembly all with hold gluey chamber and be linked together, still be provided with the pressure bucket that is used for carrying the scaling powder on the first mounting bracket, the pressure bucket with the injecting glue hole passes through the pipeline and links to each other.

Through adopting above-mentioned technical scheme, the pressure bucket passes through the injecting glue hole and carries the scaling powder to holding in the gluey piece, then according to setting for, the extrusion subassembly extrudees holding gluey piece for on the scaling powder of holding gluey intracavity extrudes the alloy of rubberizing station from the syringe needle, through the automatic rubberizing of play gluey mechanism, make its rubberizing to the alloy realize the location ration, it can not be too much to guarantee its rubberizing for first, and control cost reduces the waste, guarantees simultaneously that its rubberizing can not be too little, influences alloy welding effect.

The invention further sets up: the syringe needle includes 2 syringe needles, the rubberizing work piece sets up between 2 syringe needles.

Through adopting above-mentioned technical scheme, set up double-needle head, first make the alloy rubberizing more symmetrical for alloy upper surface and side are all covered by the scaling powder, make melting of welding wire more even, improve welded effect, and the second double-needle head goes out to glue simultaneously, makes the rubberizing more efficient.

The invention further sets up: the extrusion assembly comprises a valve body and a thimble, one end of the thimble is arranged in the valve body, the other end of the thimble stretches into the rubber accommodating piece, a pressure air hole used for controlling the thimble to extrude is formed in the valve body, and the pressure air hole is connected with the pressure barrel through a pipeline.

Through adopting above-mentioned technical scheme, the reciprocating of atmospheric pressure control thimble in the pressure bucket passes through pressure gas pocket change valve body, and the thimble pushes up promptly to holding the scaling powder in the gluey chamber and extrudeing it from the syringe needle, through setting for, utilizes atmospheric pressure change to extrude, and its is with low costs, efficient, and the control of being convenient for need not additionally to set up the device, and structural design is reasonable, simple, convenient.

The invention further sets up: be provided with out the silk device between rubberizing station and the welding station, it includes the conveying mechanism who puts into the welding station with the welding wire and the second elevating system who is used for driving conveying mechanism to go up and down to go out the silk device, conveying mechanism with second elevating system links to each other, second elevating system fixed set up in on the first mounting bracket.

By adopting the technical scheme, when the alloy and the milling cutter body move to the welding station, the second lifting mechanism drives the conveying mechanism to move downwards, so that the welding wire enters the welding station through the conveying mechanism, then the second lifting mechanism drives the conveying mechanism to ascend to separate from the welding station, the welding wire, the alloy and the milling cutter workpiece with a certain length are positioned between the welding parts, then the welding parts are heated to the specified melting point temperature through the heating mechanism (such as high-frequency induction heating equipment), then the welding wire melts to promote the welding of the alloy and the milling cutter workpiece, and the welding effect of the welding parts is better under the help of the soldering flux and the welding wire.

The invention further sets up: and a wire feeding wheel is arranged on the other side of the first mounting frame, which is opposite to the wire discharging device, and a quantity control mechanism for controlling the wire discharging length of the wire discharging device is arranged between the wire feeding wheel and the wire discharging device.

Through adopting above-mentioned technical scheme, set up the wire feeding wheel for the welding wire is carried more conveniently, sets up accuse volume mechanism and realizes accurate accuse volume, improves welding effect.

The invention further sets up: the quantity control mechanism comprises a wire outlet frame, a wire outlet assembly and a motor, wherein a wire inlet end for welding wires to penetrate is arranged at one end, corresponding to the wire feeding wheel, of the wire outlet frame, a wire outlet end for the welding wires to penetrate is arranged at one end, corresponding to the conveying mechanism, of the wire outlet frame, the wire outlet assembly is arranged between the wire inlet end and the wire outlet end, the wire outlet assembly comprises a driving wheel and a driven wheel, the driving wheel is arranged on two sides of the welding wires, the driving wheel is connected with the motor, and the motor controls the driving wheel to discharge the wires.

By adopting the technical scheme, the motor controls the driving wheel to rotate, the welding wire is conveyed to the wire outlet end through the space between the driving wheel and the driven wheel, and the whole process of the welding wire is in a tensioning state through the wire outlet assembly from the wire inlet end to the wire outlet end, so that the wire outlet length of the motor-controlled welding wire is more accurate, the waste is avoided, the welding effect is guaranteed, and the automation of the device is realized.

The following description of the embodiments of the present invention refers to the accompanying drawings and examples.

Drawings

FIG. 1 is a front view of an embodiment of the present invention;

FIG. 2 is an enlarged view of portion A of FIG. 1;

FIG. 3 is a perspective view of an embodiment of the present invention;

FIG. 4 is an enlarged view of the portion B of FIG. 3;

FIG. 5 is an enlarged view of section C of FIG. 3;

FIG. 6 is an enlarged view of section D of FIG. 3;

reference numerals: 1. the automatic wire feeding device comprises a machine table, 11, a first feeding station, 12, a gluing station, 13, a prepressing station, 14, a welding station, 2, a first feeding device, 21, a clamping mechanism, 22, a first moving mechanism, 221, a first driving assembly, 2211, a sliding rail, 2212, an air cylinder, 222, a first lifting assembly, 3, a wire feeding wheel, 4, a quantity control mechanism, 41, a wire outlet frame, 411, a wire inlet end, 412, a wire outlet end, 42, a wire outlet assembly, 421, a driving wheel, 422, a driven wheel, 43, a motor, 5, a first mounting frame, 6, a receiving piece, 61, a receiving platform, 62, a second moving mechanism, 7, a gluing device, 71, a glue outlet mechanism, a glue containing piece, 7111, a glue containing cavity, 7112, a glue injection hole, 712, a needle head, 713, an extrusion assembly, 7131, a valve body, 71311, a pressure air hole, 7132, an ejector pin, 72, a first lifting mechanism, 73, a pressure barrel, 8, a wire outlet device, 81, 82 and a second lifting mechanism.

Detailed Description

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications of the present embodiment without inventive contribution as needed after reading the present specification, but all of them are protected by patent law within the scope of the claims of the present invention.

Referring to fig. 1-6, the alloy feeding device of the milling cutter welding machine disclosed in this embodiment includes a machine table 1, a first feeding station 11 for placing an alloy, a gluing station 12 for gluing the alloy, and a welding station 14 are sequentially disposed on the machine table 1, a first feeding device 2 for conveying the alloy is disposed between the first feeding station 11 and the welding station 14, a first mounting frame 5 is disposed on the machine table 1, the first feeding device 2 includes a clamping mechanism 21 for clamping the alloy and a first moving mechanism 22 for driving the clamping mechanism 21 to move, the clamping mechanism 21 is connected to the first moving mechanism 22, and the first moving mechanism 22 is fixedly disposed on the first mounting frame 5.

The embodiment further provides that: the first moving mechanism 22 comprises a first driving assembly 221 for controlling the gripping mechanism 21 to slide back and forth between the first loading station 11 and the welding station 14, and a first lifting assembly 222 for controlling the gripping mechanism 21 to lift up and down, the gripping mechanism 21 is fixedly arranged on the first lifting assembly 222, the first driving assembly 221 comprises a slide rail 2211 and a cylinder 2212, the first lifting assembly 222 is slidably arranged on the slide rail 2211, and the cylinder 2212 drives the first lifting assembly 222 to slide transversely along the slide rail 2211

The embodiment further provides that: be provided with pre-compaction station 13 between rubberizing station 12 and the welding station 14, pre-compaction station 13 is provided with the receiving part 6 of accepting the alloy and is used for driving receiving part 6 reciprocating sliding's second moving mechanism 62 between pre-compaction station 13 and welding station 14, receiving part 6 top is provided with accepts platform 61, when first moving mechanism 22 drive clamp was got mechanism 21 and was removed to pre-compaction station 13, the alloy was located accept on the platform 61, when first moving mechanism 22 drive clamp was got mechanism 21 and was removed to welding station 14 from pre-compaction station 13, first moving mechanism 22 with second moving mechanism 62 is marchd in step.

The embodiment further provides that: be provided with rubberizing device 7 on rubberizing station 12, rubberizing device 7 is including being used for adding scaling powder play gluey mechanism 71 on the alloy and being used for driving a elevating system 72 that goes out gluey mechanism 71 and go up and down, go out gluey mechanism 71 with a elevating system 72 links to each other, a elevating system 72 is fixed set up in on the first mounting bracket 5.

The embodiment further provides that: go out gluey mechanism 71 including holding gluey piece 711, syringe needle 712 and extrusion subassembly 713, hold gluey piece 711 be provided with be used for holding the gluey chamber 7111 of appearance of scaling powder and be used for supplying the scaling powder to get into the injecting glue hole 7112 of holding gluey chamber 7111, syringe needle 712 set up in hold gluey piece 711 to correspond the one end of rubberizing station 12, extrusion subassembly 713 set up in hold the other end of gluey piece 711, syringe needle 712, extrusion subassembly 713 all with hold gluey chamber 7111 and be linked together, still be provided with the pressure bucket 73 that is used for carrying the scaling powder on the first mounting bracket 5, pressure bucket 73 with injecting glue hole 7112 passes through the pipeline and links to each other.

The embodiment further provides that: the needle 712 comprises 2 needles 712, and the gluing workpiece is arranged between the 2 needles 712.

The embodiment further provides that: the extrusion assembly 713 comprises a valve body 7131 and an ejector pin 7132, one end of the ejector pin 7132 is arranged in the valve body 7131, the other end of the ejector pin 7132 extends into the glue accommodating part 711, a pressure air hole 71311 for controlling the ejector pin 7132 to extrude is arranged on the valve body 7131, and the pressure air hole 71311 is connected with the pressure barrel 73 through a pipeline.

The embodiment further provides that: be provided with out silk device 8 between rubberizing station 12 and the welding station 14, it includes the conveying mechanism 81 of putting into welding station 14 with the welding wire and is used for driving the second elevating system 82 that conveying mechanism 81 goes up and down to go out silk device 8, conveying mechanism 81 with second elevating system 82 links to each other, second elevating system 82 fixed set up in on the first mounting bracket 5.

The embodiment further provides that: and a wire feeding wheel 3 is arranged on the other side of the first mounting frame 5, which is opposite to the wire outlet device 8, and a quantity control mechanism 4 for controlling the wire outlet length of the wire outlet device 8 is arranged between the wire feeding wheel 3 and the wire outlet device 8.

The embodiment further provides that: the quantity control mechanism 4 comprises a wire outlet frame 41, a wire outlet assembly 42 and a motor 43, wherein a wire inlet end 411 for a welding wire to penetrate is arranged at one end of the wire outlet frame 41 corresponding to the wire feeding wheel 3, a wire outlet end 412 for the welding wire to penetrate out is arranged at one end of the conveying mechanism 81 corresponding to the wire feeding wheel, the wire outlet assembly 42 is arranged between the wire inlet end 411 and the wire outlet end 412, the wire outlet assembly 42 comprises a driving wheel 421 and a driven wheel 422 which are arranged on two sides of the welding wire, the driving wheel 421 is connected with the motor 43, and the motor 43 controls the driving wheel 421 to discharge wires.

The above-mentioned "between" does not only mean between orientations and positions, but also means between the interactions of different parts.

Although the terms of the machine table 1, the first feeding station 11, the gluing station 12, the pre-pressing station 13, the welding station 14, the first feeding device 2, the clamping mechanism 21, the first moving mechanism 22, the first driving assembly 221, the sliding rail 2211, the air cylinder 2212, the first lifting assembly 222, the wire feeding wheel 3, the quantity control mechanism 4, the wire outlet frame 41, the wire inlet end 411, the wire outlet end 412, the wire outlet assembly 42, the driving wheel 421, the driven wheel 422, the motor 43, the first mounting frame 5, the receiving member 6, the receiving platform 61, the second moving mechanism 62, the gluing device 7, the wire outlet mechanism 71, the glue containing member 711, the glue containing cavity 7111, the glue injection hole 7112, the needle 712, the extruding assembly 713, the valve body 7131, the pressure air hole 71311, the thimble 7132, the first lifting mechanism 72, the pressure barrel 73, the wire outlet device 8, the conveying mechanism 81, the second lifting mechanism 82, and the like are used more often, the possibility of using other terms is not excluded. These terms are used merely to more conveniently describe and explain the nature of the present invention; they are to be construed as being without limitation to any additional limitations that may be imposed by the spirit of the present invention.

Claims (6)

1. The utility model provides an alloy loading attachment of milling cutter welding machine which characterized in that: the automatic alloy clamping device comprises a machine table, wherein a first feeding station for placing an alloy, a gluing station for gluing the alloy and a welding station for welding the alloy and a milling cutter workpiece are sequentially arranged on the machine table, a first feeding device for conveying the alloy is arranged between the first feeding station and the welding station, a first mounting frame is arranged on the machine table, the first feeding device comprises a clamping mechanism for clamping the alloy and a first moving mechanism for driving the clamping mechanism to move, the clamping mechanism is connected with the first moving mechanism, the first moving mechanism is fixedly arranged on the first mounting frame, the first moving mechanism comprises a first driving component for controlling the clamping mechanism to slide back and forth between the first feeding station and the welding station and a first lifting component for controlling the clamping mechanism to lift up and down, and the clamping mechanism is fixedly arranged on the first lifting component, the first driving assembly comprises a slide rail and a cylinder, the first lifting assembly is arranged on the slide rail in a sliding manner, the cylinder drives the first lifting assembly to transversely slide along the slide rail, a gluing device is arranged on a gluing station, the gluing device comprises a glue outlet mechanism for adding soldering flux on alloy and a first lifting mechanism for driving the glue outlet mechanism to lift, the glue outlet mechanism is connected with the first lifting mechanism, the first lifting mechanism is fixedly arranged on the first mounting frame, a wire outlet device is arranged between the gluing station and a welding station, the wire outlet device comprises a conveying mechanism for placing welding wires into the welding station and a second lifting mechanism for driving the conveying mechanism to lift, the conveying mechanism is connected with the second lifting mechanism, and the second lifting mechanism is fixedly arranged on the first mounting frame, be provided with the pre-compaction station between rubberizing station and the welding station, the pre-compaction station is provided with the receiving piece of accepting the alloy and is used for driving the receiving piece reciprocating sliding's between pre-compaction station and welding station second moving mechanism, the receiving piece top is provided with accepts the platform, and the mechanism is got to the alloy and carries out the rubberizing to first moving mechanism drive clamp, then the mechanism is got to first moving mechanism drive clamp and removes to the pre-compaction station, makes the alloy be close to accepting the platform top, makes the high looks adaptation of alloy and welding station, first moving mechanism with second moving mechanism advances in step to make the alloy and receiving piece remove to welding station completion welding from the pre-compaction station simultaneously.

2. The alloy feeding device of the milling cutter welding machine according to claim 1, characterized in that: go out gluey mechanism including holding gluey piece, syringe needle and extrusion subassembly, hold gluey piece be provided with the gluey chamber of holding gluey chamber of appearance that is used for holding the scaling powder and be used for supplying the scaling powder to get into the injecting glue hole of holding gluey chamber, the syringe needle set up in hold gluey piece to correspond the one end of rubberizing station, extrusion subassembly set up in hold the other end of gluey piece, syringe needle, extrusion subassembly all with hold gluey chamber and be linked together, still be provided with the pressure bucket that is used for carrying the scaling powder on the first mounting bracket, the pressure bucket with the injecting glue hole passes through the pipeline and links to each other.

3. The alloy feeding device of the milling cutter welding machine according to claim 2, characterized in that: the syringe needle includes 2 syringe needles, the rubberizing station sets up between 2 syringe needles.

4. The alloy feeding device of the milling cutter welding machine according to claim 2, characterized in that: the extrusion assembly comprises a valve body and a thimble, one end of the thimble is arranged in the valve body, the other end of the thimble stretches into the rubber accommodating piece, a pressure air hole used for controlling the thimble to extrude is formed in the valve body, and the pressure air hole is connected with the pressure barrel through a pipeline.

5. The alloy feeding device of the milling cutter welding machine according to claim 1, characterized in that: and a wire feeding wheel is arranged on the other side of the first mounting frame, which is opposite to the wire discharging device, and a quantity control mechanism for controlling the wire discharging length of the wire discharging device is arranged between the wire feeding wheel and the wire discharging device.

6. The alloy feeding device of the milling cutter welding machine according to claim 5, characterized in that: the quantity control mechanism comprises a wire outlet frame, a wire outlet assembly and a motor, wherein a wire inlet end for welding wires to penetrate through is arranged at one end, corresponding to the wire feeding wheel, of the wire outlet frame, a wire outlet end for the welding wires to penetrate through is arranged at one end, corresponding to the conveying mechanism, of the wire outlet frame, the wire outlet assembly is arranged between the wire inlet end and the wire outlet end, the wire outlet assembly comprises a driving wheel and a driven wheel, the driving wheel is arranged on two sides of the welding wires, the driving wheel is connected with the motor, and the motor controls the driving wheel to discharge the wires.

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