CN205583350U - DC material feeding unit and DC automatic weld machine - Google Patents

Abstract

The utility model provides a DC material feeding unit and DC automatic weld machine. This DC material feeding unit includes: directly shake ware, vibration subassembly, spacing subassembly and branch to the piece, the ware that directly shakes is used for sending the vibration, the setting of vibration subassembly is in directly shake ware top, with the vibration takes place down for the drive of ware of directly shaking, spacing subassembly setting is in on the vibration subassembly, be used for injecing the position of DC head, divide and be in to the piece setting on the vibration subassembly, it is right to be used for the DC head carries out the orientation. Above -mentioned DC material feeding unit is drawn together to this DC automatic weld press packed bale. The utility model discloses can make the first marshalling of DC, the orientation of output unified, the uniformity of DC head is high to in processing on next step.

Description

DC pay-off and DC automatic welding machine

Technical field

This utility model relates to DC automatic soldering device field, particularly relates to a kind of DC pay-off and DC automatic welding machine.

Background technology

DC(Direct Current, unidirectional current) plug production in, generally use rustless steel through the device that directly shakes, then through polishing and weld, thus reach regularly arranged.This mode is suitable for when few part using, but adjusts relatively difficult.Each DC head which is done arranges disunity, and difference is big each other, it is impossible to compliance.Rustless steel is formed by welding, if there being place to go wrong, can cause changing inconvenience.

Summary of the invention

This utility model provides a kind of DC pay-off and DC automatic welding machine, it is possible to solve the DC head skimble-scamble problem of arrangement that prior art exists.

For solving above-mentioned technical problem, the technical scheme that this utility model uses is: providing a kind of DC pay-off, this DC pay-off includes: the device that directly shakes, vibration component, limit assembly and point to block；The described device that directly shakes is for sending vibration；Described vibration component is arranged on above the described device that directly shakes, to vibrate under the drive of the described device that directly shakes；Described limit assembly is arranged on described vibration component, for limiting the position of described DC head；Described point is arranged on described vibration component to block, for being oriented described DC head.

Wherein, described vibration component includes left vibrating mass and right vibrating mass, DC transfer passage is formed between described left vibrating mass and described right vibrating mass, described DC head moves along described DC transfer passage, described left vibrating mass and described right vibrating mass position from the left and right sides of described DC head respectively, so that aliging about described DC head.

Wherein, described limit assembly includes that the first lower position block, described first lower position block are arranged on the lower section of described vibration component, to support described DC head and to limit described DC head in the position of vertical direction.

Wherein, described limit assembly also includes upper limit part, left limit sheet, right limit sheet and the second lower position block；Described upper limit part includes fixed block and upper limit torsion spring, described fixed block is fixed on described left vibrating mass or right vibrating mass, described upper limit torsion spring is arranged on described fixed block, one end arms of described upper limit torsion spring is fixed on described fixed block, another end arms of described torsion spring extends to the top of the DC head of described DC pay-off end, carries out spacing with the head by the DC head of described end；Described second lower position block is arranged on the end of described DC pay-off, for the bottom of the DC head of end is carried out spacing, so that described DC head erect；Described left limit sheet and described right limit sheet are separately positioned on the end of described DC pay-off, one end of described left limit sheet is provided with left arc notch, one end of described right limit sheet is provided with right arc notch, described left arc notch and described right arc notch all peripheral radians with described DC head match, and carry out spacing with the left and right to the described DC head of the end of described DC pay-off.

Wherein, the other end of described left limit sheet is rotatably connected on described left vibrating mass, and described left limit sheet is also associated with left limit torsion spring, so that described left limit sheet occurs the rotation near described right limit sheet, thus coordinates described right limit sheet to clamp described DC head；The other end of described right limit sheet is rotatably connected on described right vibrating mass, and described right limit sheet is also associated with right limit torsion spring, so that described right limit sheet occurs the rotation near described left limit sheet, thus coordinates described left limit sheet to clamp described DC head.

Wherein, on described left vibrating mass, the outside of described left limit sheet is additionally provided with left locating piece, for limiting the slewing area of described left limit sheet；On described right vibrating mass, the outside of described right limit sheet be additionally provided with right locating piece, for limiting the slewing area of described right limit sheet.

Wherein, described point is long lamellar to block, and described point is fixed on left vibrating mass or right vibrating mass to the side of block, the described point of centre extending to described DC transfer passage to the opposite side of block, with the direction of the head of unified described DC head, makes described DC head direction consistent.

Wherein, the described device that directly shakes is provided with the first waist type groove of vertical direction, and described first lower position block and described second lower position block all carry out coordinating fixing by screw with described first waist type groove；Being equipped with the second waist type groove being perpendicular to described DC head conveying direction on described left vibrating mass and described right vibrating mass, described left vibrating mass and described right vibrating mass all carry out coordinating with described second waist type groove by screw and are fixed on described directly shaking on device；Described upper limit part and described point are fixed on described left vibrating mass or described right vibrating mass by fixing seat to block, described fixing seat is provided with the 3rd waist type groove of vertical direction, and described fixing seat is fixed on described directly shaking on device by screw with described coordinating of 3rd waist type groove；Described upper limit part and described point are equipped with the 4th waist type groove being perpendicular to described DC head conveying direction on block, and described upper limit part and described point are all fixed on described fixing seat with described coordinating of 4th waist type groove by screw to block.

For solving above-mentioned technical problem, another technical scheme that this utility model uses is: providing a kind of DC automatic welding machine, this DC automatic welding machine includes above-mentioned DC pay-off

The beneficial effects of the utility model are: the position of the DC head of conveying is defined by this utility model by arranging limit assembly on the device that directly shakes, the DC head position making output keeps consistent, DC head is oriented to block by arranging to divide on the device that directly shakes, make the DC head marshalling of output, direction unified, the concordance of DC head is high, so that next step processing, be suitable to mass production.

Accompanying drawing explanation

Fig. 1 is the structural representation of this utility model DC pay-off embodiment；

Fig. 2 is the top view of this utility model DC pay-off；

Fig. 3 is the side view of this utility model DC pay-off.

Wherein, 10, directly shake device；11, the first waist type groove；20, vibration component；21, left vibrating mass；22, right vibrating mass；23, DC transfer passage；24, the second waist type groove；31, the first lower position block；32, upper limit part；321, fixed block；322, upper limit torsion spring；33, left limit sheet；331, left arc notch；332, left locating piece；34, right limit sheet；341, right arc notch；342, right locating piece；35, the second lower position block；40, divide to block；50, DC head；60, fixing seat；61, the 3rd waist type groove；62, the 4th waist type groove.

Detailed description of the invention

With detailed description of the invention, this utility model is described in further detail below in conjunction with the accompanying drawings.

As shown in Figure 1, Figure 2 and Figure 3, Fig. 1 is the structural representation of this utility model DC pay-off embodiment.Fig. 2 is the top view of this utility model DC pay-off.Fig. 3 is the side view of this utility model DC pay-off.

This utility model provides a kind of DC pay-off, and this DC pay-off includes directly shaking device 10, vibration component 20, limit assembly and point to block 40.

The device 10 that directly shakes is for sending vibration, thus carries DC 50.Vibration component 20 is arranged on above the device 10 that directly shakes, to vibrate under the drive of the device 10 that directly shakes.Limit assembly is arranged on vibration component 20, for limiting the position of DC 50.Divide and be arranged on vibration component 20 to block 40, for DC 50 is oriented.

After entering in this pay-off when DC 50, directly shake device 10 vibration drive vibration component 20 vibrate, make DC 50 to be fed forward in vibration, in course of conveying, by limit assembly, DC 50 upper and lower, left and right are carried out spacing, to keep the concordance of DC 50 positions, course of conveying DC 50 is dividing under block 40 acts on to block 40 through undue, and DC 50 is directed, thus DC 50 of output not only position unification, direction is also unified.

It is different from prior art, the position of the DC head of conveying is defined by this utility model by arranging limit assembly on the device that directly shakes, the DC head position making output keeps consistent, DC head is oriented to block by arranging to divide on the device that directly shakes, make the DC head marshalling of output, direction unified, the concordance of DC head is high, in order to next step processing, is suitable to mass production.

Specifically, in the present embodiment, vibration component 20 includes left vibrating mass 21 and right vibrating mass 22, DC transfer passage 23 is formed between left vibrating mass 21 and right vibrating mass 22, move along DC transfer passage 23 for DC 50, left vibrating mass 21 and right vibrating mass 22 position from the left and right sides of DC 50 respectively, so that DC about 50 alignment.

Limit assembly includes that the first lower position block 31, the first lower position block 31 are arranged on the lower section of vibration component 20, to support DC 50 and to limit DC 50 position at vertical direction.It is noted that DC 50 of conveying is simply supported with spacing in vibration processes by the first lower position block 31.Additionally, due to have burr during DC head formed product, by the lower limit of the first lower position block 31, the problem that burr can be overcome.

Limit assembly also 30 includes upper limit part 32, left limit sheet 33, right limit sheet 34 and the second lower position block 35.

Upper limit part 32 includes fixed block 321 and upper limit torsion spring 322, and fixed block 321 is fixed on left vibrating mass 21 or right vibrating mass 22, and the fixed block 321 of the present embodiment is fixed on right vibrating mass 22.Upper limit torsion spring 322 is arranged on fixed block 321, one end arms of upper limit torsion spring 322 is fixed on fixed block 321, another end arms of upper limit torsion spring 322 extends to the top of DC 50 of DC pay-off end, to carry out spacing by the head of DC 50 of end, thus ensure that the DC in vibration is the most basically identical.

Second lower position block 35 is arranged on the end of DC pay-off, for carrying out spacing to the bottom of DC 50 of end, so that DC 50 vertical.After the head of DC 50 is limited, it is in a vertical state spacing the DC of can ensure that 50 of bottom, to reach the requirement of required material folding.

Left limit sheet 33 and right limit sheet 34 are separately positioned on the end of DC pay-off, one end of left limit sheet 33 is provided with left arc notch 331, one end of right limit sheet 34 is provided with right arc notch 341, left arc notch 331 and right arc notch 341 all peripheral radians with DC 50 match, carry out spacing with the left and right of DC 50 of the end to DC pay-off, thus ensure the position consistency that DC head shakes each time.

Specifically, the other end of left limit sheet 33 is rotatably connected on left vibrating mass 21, and left limit sheet 33 is also associated with left limit torsion spring (not shown), so that left limit sheet 33 occurs the rotation near right limit sheet 34, thus coordinates right limit sheet 34 to clamp DC 50.

The other end of right limit sheet 34 is rotatably connected on right vibrating mass 22, and right limit sheet 34 is also associated with right limit torsion spring (not shown), so that right limit sheet 34 occurs the rotation near left limit sheet 33, thus coordinates left limit sheet 33 to clamp DC 50.

On left vibrating mass 21, the outside of left limit sheet 33 be additionally provided with left locating piece 332, for limiting the slewing area of left limit sheet 33.On right vibrating mass 22, the outside of right limit sheet 34 be additionally provided with right locating piece 342, for limiting the slewing area of right limit sheet 34.

Divide to block 40 in long lamellar, divide and be fixed on left vibrating mass 21 or right vibrating mass 22 to the side of block 40, in the present embodiment, divide and be fixed on left vibrating mass 21 to block 40, the opposite side to block 40 is divided to extend to the centre of DC transfer passage 23, the direction of the head to unify DC 50, makes DC 50 directions consistent.The such as square block joint of the protrusion of the English DC head shown in figure, running into point before block 40, if the joint of this DC is not parallel to DC head transfer passage 23, run into point to block 40 when, divide and then the joint of this DC head is stirred to block 40, it is made to be parallel to DC head transfer passage 23, so that the direction of the DC head of conveying is consistent.

The device 10 that directly shakes is provided with the first waist type groove 11 of vertical direction, and the first lower position block 31 and the second lower position block 35 all carry out coordinating by screw and the first waist type groove 11 to be fixed.When DC 50 specification difference of conveying, the first lower position block 31 and height of the second lower position block 35 can be adjusted.Such as, when the length of DC 50 is longer, the first lower position block 31 and the second lower position block 35 and the screw directly shaken between device 10 can be unscrewed, then reduce the first lower position block 31 and height of the second lower position block 35, then tighten screw.

Being equipped with the second waist type groove 24 being perpendicular to DC 50 conveying directions on left vibrating mass 21 and right vibrating mass 22, left vibrating mass 21 and right vibrating mass 22 all carry out cooperation by screw and the second waist type groove 24 and are fixed on and directly shake on device 10.When carrying different size of DC head, the size of DC head transfer passage 23 can be adjusted by adjusting the distance between left vibrating mass 21 and right vibrating mass 22 so that it is adapt to different size of DC 50.

Upper limit part 32 is fixed on left vibrating mass 21 or right vibrating mass 22 by fixing seat 60 to block 40 with dividing, and fixing seat 60 is provided with the 3rd waist type groove 61 of vertical direction, and fixing seat 60 is fixed on by the cooperation of screw and the 3rd waist type groove 61 and directly shakes on device 10.Adjust upper limit part 32 by the relative altitude adjusting fixing seat 60 and left vibrating mass 21 and right vibrating mass 22 and divide the height to block 40, to adapt to different DC products.

Upper limit part 32 is equipped with, with dividing, the 4th waist type groove 62 being perpendicular to DC head conveying direction on block 40, and upper limit part 32 is all fixed on fixing seat 60 by the cooperation of screw and the 4th waist type groove 62 to block 40 with dividing.Such that it is able to adjust upper limit part 32 and point to the position of block 40 so that it is near or away from DC head transfer passage 23.

Screw was fixed with coordinating of waist type groove so that this DC pay-off can be suitably used for the DC product of all size, and easy to adjust.

This utility model additionally provides a kind of DC automatic welding machine, and it includes the DC pay-off of any of the above-described embodiment.

In sum, this utility model can make the DC head marshalling of output, direction unified, and the concordance of DC head is high, in order to next step processing, is suitable to mass production.

These are only embodiment of the present utility model; not thereby the scope of the claims of the present utility model is limited; every equivalent structure utilizing this utility model description and accompanying drawing content to be made or equivalence flow process conversion; or directly or indirectly it is used in other relevant technical fields, the most in like manner it is included in scope of patent protection of the present utility model.

Claims (9)

1. a DC pay-off, it is characterised in that including: the device that directly shakes, vibration component, limit assembly and point to block；

The described device that directly shakes is for sending vibration；

Described vibration component is arranged on above the described device that directly shakes, to vibrate under the drive of the described device that directly shakes；

Described limit assembly is arranged on described vibration component, for limiting the position of described DC head；

Described point is arranged on described vibration component to block, for being oriented described DC head.

DC pay-off the most according to claim 1, it is characterized in that, described vibration component includes left vibrating mass and right vibrating mass, DC transfer passage is formed between described left vibrating mass and described right vibrating mass, described DC head moves along described DC transfer passage, described left vibrating mass and described right vibrating mass position from the left and right sides of described DC head respectively, so that aliging about described DC head.

3. DC pay-off according to claim 2, it is characterised in that described limit assembly includes that the first lower position block, described first lower position block are arranged on the lower section of described vibration component, to support described DC head and to limit described DC head in the position of vertical direction.

DC pay-off the most according to claim 3, it is characterised in that described limit assembly also includes upper limit part, left limit sheet, right limit sheet and the second lower position block；

Described upper limit part includes fixed block and upper limit torsion spring, described fixed block is fixed on described left vibrating mass or right vibrating mass, described upper limit torsion spring is arranged on described fixed block, one end arms of described upper limit torsion spring is fixed on described fixed block, another end arms of described torsion spring extends to the top of the DC head of described DC pay-off end, carries out spacing with the head by the DC head of described end；

Described second lower position block is arranged on the end of described DC pay-off, for the bottom of the DC head of end is carried out spacing, so that described DC head erect；

Described left limit sheet and described right limit sheet are separately positioned on the end of described DC pay-off, one end of described left limit sheet is provided with left arc notch, one end of described right limit sheet is provided with right arc notch, described left arc notch and described right arc notch all peripheral radians with described DC head match, and carry out spacing with the left and right to the described DC head of the end of described DC pay-off.

DC pay-off the most according to claim 4, it is characterized in that, the other end of described left limit sheet is rotatably connected on described left vibrating mass, described left limit sheet is also associated with left limit torsion spring, so that described left limit sheet occurs the rotation near described right limit sheet, thus described right limit sheet is coordinated to clamp described DC head；

The other end of described right limit sheet is rotatably connected on described right vibrating mass, and described right limit sheet is also associated with right limit torsion spring, so that described right limit sheet occurs the rotation near described left limit sheet, thus coordinates described left limit sheet to clamp described DC head.

DC pay-off the most according to claim 5, it is characterised in that on described left vibrating mass, the outside of described left limit sheet be additionally provided with left locating piece, for limiting the slewing area of described left limit sheet；

On described right vibrating mass, the outside of described right limit sheet be additionally provided with right locating piece, for limiting the slewing area of described right limit sheet.

7. DC pay-off according to claim 6, it is characterized in that, described point is long lamellar to block, described point is fixed on left vibrating mass or right vibrating mass to the side of block, the described point of centre extending to described DC transfer passage to the opposite side of block, with the direction of the head of unified described DC head, make described DC head direction consistent.

DC pay-off the most according to claim 7, it is characterised in that the described device that directly shakes is provided with the first waist type groove of vertical direction, described first lower position block and described second lower position block all carry out coordinating fixing by screw with described first waist type groove；

Being equipped with the second waist type groove being perpendicular to described DC head conveying direction on described left vibrating mass and described right vibrating mass, described left vibrating mass and described right vibrating mass all carry out coordinating with described second waist type groove by screw and are fixed on described directly shaking on device；

Described upper limit part and described point are fixed on described left vibrating mass or described right vibrating mass by fixing seat to block, described fixing seat is provided with the 3rd waist type groove of vertical direction, and described fixing seat is fixed on described directly shaking on device by screw with described coordinating of 3rd waist type groove；

Described upper limit part and described point are equipped with the 4th waist type groove being perpendicular to described DC head conveying direction on block, and described upper limit part and described point are all fixed on described fixing seat with described coordinating of 4th waist type groove by screw to block.

9. A kind of DC automatic welding machine, it is characterised in that include the DC pay-off described in any one of claim 1 to 8.