CN203317599U - Feeding device and forming equipment applied to strip-shaped component forming - Google Patents

Abstract

The utility model discloses a be applied to fashioned material feeding unit of bar component, include first mount pad and install on first mount pad, and have the swiveling wheel of constant head tank, still including setting up on first mount pad, and be located the locating piece of swiveling wheel lateral part, the locating piece lower extreme forms the spacing portion of bar component with the constant head tank in at least one operating position department of constant head tank, and the spacing portion of bar component is located the constant head tank from the material loading position to the stroke between the unloading position. The spacing portion of above-mentioned bar part is located the constant head tank and puts to the stroke between the unloading position from the material loading to exert the confining force to bar part in the course of working of bar part from the material loading position to the unloading position, and this confining force can alleviate the bar part because of the circumstances that self drunkenness breaks away from the swiveling wheel, thereby alleviates the damage that bar part takes place in the forming process, reduces the disability rate of bar part. The utility model also discloses a be applied to the fashioned former of bar part.

Description

Be applied to pay-off and the former of bar part moulding

Technical field

The utility model relates to the bar part processing technique field, relates in particular to a kind of pay-off that is applied to the bar part moulding.The utility model also relates to a kind of former that is applied to the bar part moulding.

Background technology

During bar parts such as bar and tubing of processing, usually bar part to be processed is concentrated and is positioned in storage device, this storage device can be by bar part to be processed single being delivered in pay-off successively, pay-off can clamp single bar part and successively single parts be delivered to shaped device, shaped device can be processed bar part, meanwhile, pay-off still clamps above-mentioned bar part, and after this bar part moulding completes, pay-off is sent it, completes the moulding of bar part.

Above-mentioned pay-off mainly comprises deflector chute and swiveling wheel, and the bar part of being exported by storage device drops on deflector chute, the close shaped device of swiveling wheel, and locating slot is set on swiveling wheel usually.Deflector chute drives bar part and moves to swiveling wheel under the effect of drive unit, until bar part enters the locating slot of swiveling wheel, and enters the shaping station of shaped device, and now bar part is supported by deflector chute and swiveling wheel simultaneously.After moulding, swiveling wheel can drive the rotation of the complete bar part of moulding, and the position of locating slot changes simultaneously, when locating slot can't be complete to moulding bar part when position-limiting action is provided, bar part after moulding will break away from swiveling wheel, with this, complete the moulding of bar part.

In above-mentioned pay-off, due to locating slot one end opening on swiveling wheel, in order to export this bar part, this just causes this locating slot to have certain limitation to the position-limiting action of bar part.At bar part with after locating slot contacts, once play appears in bar part, to occur bar part to break away from swiveling wheel and fall to the place that has larger difference in height with this bar part, causing bar part to be damaged, making the scrappage of bar part higher.

In sum, how to solve the higher problem of the scrappage of bar part in forming process, become those skilled in the art's great difficult problem urgently to be resolved hurrily.

The utility model content

The purpose of this utility model is to provide a kind of pay-off that is applied to the bar part moulding, and this device can reduce the scrappage of bar part in forming process.Another purpose of the present utility model is to provide a kind of former that is applied to the bar part moulding.

To achieve these goals, the utility model provides following technical scheme:

A kind of pay-off that is applied to the bar part moulding, comprise the first mount pad and be installed on described the first mount pad, and the swiveling wheel with locating slot, also comprise and being arranged on described the first mount pad, and be positioned at the locating piece of described swiveling wheel sidepiece, described locating piece lower end forms the bar part limiting section at the place, at least one operating position of described locating slot with described locating slot, and described bar part limiting section is on described locating slot in the stroke between material loading position to blanking position.

Preferably, in above-mentioned pay-off, also comprise the elasticity piece under pressure, described locating piece is connected with described the first mount pad is flexible by the fixture block connect with described the first mount pad gear, and described elasticity piece under pressure is arranged between described locating piece and described the first mount pad.

Preferably, in above-mentioned pay-off, the lower end of described locating piece has curved working face, and the outline line of described curved working face is parallel to the axis of described swiveling wheel.

Preferably, in above-mentioned pay-off, also comprise and being arranged on described the first mount pad, and be positioned at the telescopic feeding pressure mechanism of described swiveling wheel sidepiece, the telescopic end of described telescopic feeding pressure mechanism acts on the upper surface of bar part mutually at flexible end of travel.

Preferably, in above-mentioned pay-off, have the binder groove on described telescopic end, described binder groove acts on the upper surface of described bar part mutually at flexible end of travel.

Preferably, in above-mentioned pay-off, described telescopic feeding pressure mechanism and described locating piece lay respectively at the both sides of described swiveling wheel.

Preferably, in above-mentioned pay-off, the lower end of described locating piece extends to described blanking position from described material loading position.

Preferably, in above-mentioned pay-off, described swiveling wheel is at least two, and the axis of at least two described swiveling wheels is located along the same line, and the working face line of the described locating slot at least two described swiveling wheels is parallel to described axis.

Preferably, in above-mentioned pay-off, the driving mechanism be in transmission connection with described swiveling wheel comprise ratchet, with the push rod of the groove fit of described ratchet and the telescopic drive part be connected with described push rod.

Preferably, in above-mentioned pay-off, described ratchet below is provided with the spacing cylinder of ratchet.

A kind of former that is applied to the bar part moulding, comprise shaped device and the pay-off be oppositely arranged with described shaped device, and described pay-off is the described pay-off of above-mentioned any one.

In technique scheme, the pay-off that is applied to the bar part moulding that the utility model provides comprises the first mount pad, swiveling wheel and locating piece, swiveling wheel is installed on the first mount pad, and it has locating slot, locating piece is arranged on the first mount pad, and it is positioned at the sidepiece of swiveling wheel, this locating piece lower end forms bar part limiting section at the place, at least one operating position of locating slot with this locating slot, and this bar part limiting section is on locating slot in the stroke between material loading position to blanking position.Bar part is sent constantly into the material loading position of locating slot by deflector chute, locating piece and this locating slot form the bar part limiting section, and after the bar part moulding, swiveling wheel rotates, and bar part can be sent from the blanking position.

Known by foregoing description, in the pay-off that the utility model provides, locating slot on locating piece and swiveling wheel forms the bar part limiting section, this bar part limiting section is on locating slot in the stroke between material loading position to blanking position, thereby in the process to the blanking position, bar part is applied to spacing power from the material loading position at bar part, and this spacing power can be alleviated bar part and breaks away from the situation of swiveling wheel because of self play, then make the bar part runner place that is not easy to spin fall to the place with larger difference in height, thereby alleviate the damage that bar part occurs in forming process, reduce the scrappage of bar part.

Because above-mentioned pay-off has above-mentioned technique effect, the former that is applied to the bar part moulding with this pay-off also should have corresponding technique effect.

The accompanying drawing explanation

In order to be illustrated more clearly in the utility model embodiment or technical scheme of the prior art, below will the accompanying drawing of required use in the utility model embodiment or description of the Prior Art be briefly described, apparently, accompanying drawing in the following describes is only embodiment more of the present utility model, for those of ordinary skills, under the prerequisite of not paying creative work, can also obtain according to these accompanying drawings other accompanying drawing.

The structural representation of a kind of pay-off that Fig. 1 provides for the utility model embodiment;

The structural representation of the another kind of pay-off that Fig. 2 provides for the utility model embodiment;

The mounting structure schematic diagram of the locating piece that Fig. 3 provides for the utility model embodiment;

The front view that Fig. 4 is Fig. 3;

The structural representation of the swiveling wheel that Fig. 5 provides for the utility model embodiment;

The mounting structure schematic diagram of flexible feeding cylinder, deflector chute and guide post that Fig. 6 provides for the utility model embodiment;

The front view that Fig. 7 is Fig. 6;

The structural representation of the driving mechanism that Fig. 8 provides for the utility model embodiment;

The structural representation of the telescopic feeding pressure mechanism that Fig. 9 provides for the utility model embodiment.

In upper Fig. 1-9:

Bar part 10, clamping 20, the first mount pad 21, telescopic feeding pressure mechanism 22, swiveling wheel 23, locating piece 24, the second mount pad 31, telescopic drive part 32, push rod 33, ratchet 34, power transmission shaft 35, the spacing cylinder 36 of ratchet, the 3rd mount pad 41, flexible feeding cylinder 42, deflector chute 43, guide post 44.

The specific embodiment

Core of the present utility model is to provide a kind of pay-off that is applied to the bar part moulding, and this device can reduce the scrappage of bar part in forming process.Another core of the present utility model is to provide a kind of former that is applied to the bar part moulding.

In order to make those skilled in the art understand better the technical scheme that the utility model provides, below in conjunction with the drawings and specific embodiments, the utility model is described in further detail.

As shown in Fig. 1-8, the pay-off that is applied to the bar part moulding that the utility model embodiment provides is mainly used in the pipe end moulding of bar part, it comprises the first mount pad 21, swiveling wheel 23, locating piece 24, the second mount pad 31, driving mechanism, power transmission shaft 35, the 3rd mount pad 41, flexible feeding cylinder 42 and deflector chute 43, wherein:

The first mount pad 21 is for installing swiveling wheel 23 and locating piece 24; Have locating slot on swiveling wheel 23, this locating slot is for placing bar part 10, and its size is definite according to the size of bar part 10, and generally this locating slot is set to V-shaped groove, with this, locates the bar part 10 of sizes; Locating piece 24 is positioned at the sidepiece of swiveling wheel 23, and this locating piece lower end forms the bar part limiting section at the place, at least one operating position of locating slot with locating slot, and this bar part limiting section is on locating slot in the stroke between material loading position to blanking position.The operating position of locating slot refers to the position that locating slot supports bar part 10; The bar part limiting section is realized the spacing of bar part 10 by shifting to install of locating slot and locating piece 24; The material loading position of locating slot refers to the position that bar part 10 enters locating slot, and the blanking position of locating slot refers to bar part 10 and break away from the position of swiveling wheel 23 after the certain stroke of accompanying rotation wheel 23 rotation after moulding.Locating piece 24 can be fixedly installed with respect to the first mount pad 21, and its shape can be irregular, and the two ends of its lower end may extend to the bottom of swiveling wheel 23.As depicted in figs. 1 and 2, the version of the first mount pad 21 can adopt wherein any one, and certainly, this paper is not restricted the version of the first mount pad 21.

The second mount pad 31 is for installing driving mechanism and power transmission shaft 35; Driving mechanism is for driving power transmission shaft 35 to rotate, thereby the swiveling wheel 23 driven on power transmission shaft 35 rotates, and this driving mechanism can be servomotor; Power transmission shaft 35 is connected between the first mount pad 21 and the second mount pad 31, for transferring power.

The 3rd mount pad 41 is for installing flexible feeding cylinder 42 and deflector chute 43; The telescopic end of flexible feeding cylinder 42 is connected with deflector chute 43, thereby drives the close swiveling wheel 23 of deflector chute 43 so that bar part 10 is delivered in locating slot, and driving deflector chute 43 away from swiveling wheel 23 to receive next root bar part 10.Preferably, also can between deflector chute 43 and the 3rd mount pad 41, guide post 44 be set, this guide post 44 is through the 3rd mount pad 41, and it makes the motion of deflector chute 43 more accurate.

During above-mentioned pay-off work, bar part 10 is sent constantly into the material loading position of locating slot by deflector chute 43, locating piece 24 forms the bar part limiting section with this locating slot, and then the clamping 20 of former clamps bar part 10, and former can carry out forming operation to bar part 10.After bar part 10 moulding, swiveling wheel 23 rotates under the effect of driving mechanism, bar part 10 can be sent from the blanking position.

Known by foregoing description, in the pay-off that the utility model embodiment provides, locating piece 24 forms the bar part limiting section with the locating slot on swiveling wheel 23, this bar part limiting section is on locating slot in the stroke between material loading position to blanking position, thereby in the process to the blanking position, bar part 10 is applied to spacing power from the material loading position at bar part 10, and this spacing power can be alleviated bar part 10 and breaks away from the situation of swiveling wheel 23 because of self play, then make bar part 10 runner 23 places that are not easy to spin fall to the place with larger difference in height, thereby alleviate the damage that bar part 10 occurs in forming process, reduce the scrappage of bar part 10.

Further in technical scheme, above-mentioned pay-off also comprises the elasticity piece under pressure, and locating piece 24 stretches with the first mount pad 21 by the fixture block connect with the first mount pad 21 gear and is connected, this fixture block is connected with locating piece 24 by connecting axle, the elasticity piece under pressure is arranged between locating piece 24 and the first mount pad 21, particularly, the elasticity piece under pressure is sheathed on connecting axle.Such scheme is intended to reach the purpose that locating piece 24 can move up and down with respect to the first mount pad 21.When bar part 10 enters in the locating slot of swiveling wheel 23, effect due to the elasticity piece under pressure, locating piece 24 will contact with bar part 10 all the time, and applies larger downforce to bar part 10, with this, reduces to a greater degree the play that bar part 10 occurs in forming process.In addition, due to the mode of the single continuous processing of bar part 10 employing, locating piece 24 contacts with bar part 10 all the time, thereby the bar part 10 of being convenient on deflector chute 43 enters in locating slot.During concrete enforcement, above-mentioned elasticity piece under pressure can be the tube-like piece that elastomeric material is made, and also can adopt spring.

While rotating along with swiveling wheel 23 in view of bar part 10, formed track is generally camber line, the position-limiting action applied to bar part 10 in order to improve locating piece 24, the lower end of the locating piece 24 that the utility model embodiment provides has curved working face, and the outline line of this curved working face is parallel to the axis of swiveling wheel 23.After so arranging, bar part 10 is with after locating piece 24 contacts, and both are the face contact substantially, the scuffing that the contact area of alleviating both with this hour causes bar part 10, thus improve the integrality of bar part 10.

Further in technical scheme, the pay-off that this practical new embodiment provides also comprises and being arranged on the first mount pad 21, and be positioned at the telescopic feeding pressure mechanism 22 of swiveling wheel 23 sidepieces, as shown in Figure 9, the telescopic end of this telescopic feeding pressure mechanism 22 acts on the upper surface of bar part 10 mutually at flexible end of travel.After bar part 10 enters locating slot, this telescopic feeding pressure mechanism 22 can move, and its upper surface with bar part 10 contacts, thereby applies downforce to bar part 10.Obviously, this telescopic feeding pressure mechanism 22 can provide more fully spacing for bar part 10, reduces by a larger margin the play of bar part 10.Particularly, this telescopic feeding pressure mechanism 22 and locating piece 24 are positioned at the same side of swiveling wheel 23, and it can be telescoping cylinder.

On the basis of such scheme, while directly contacting with bar part 10 for the telescopic end of alleviating telescopic feeding pressure mechanism 22, bar part 10 is subject to excessive pressure, have the binder groove on the telescopic end of the telescopic feeding pressure mechanism 22 that the utility model embodiment provides, this binder groove acts on the upper surface of bar part 10 mutually at flexible end of travel.Obviously, the telescopic end that is arranged so that telescopic feeding pressure mechanism 22 of binder groove and the contact area of bar part 10 increase to some extent, with this, reduce the pressure that bar part 10 is subject to, and prevent that bar part 10 is damaged.Preferably, above-mentioned binder groove is deep-slotted chip breaker.

For the power relative equilibrium that bar part 10 is subject to, telescopic feeding pressure mechanism 22 and locating piece 24 lay respectively at the both sides of swiveling wheel 23.In addition, setting like this also can be simplified the installation of telescopic feeding pressure mechanism 22 and locating piece 24.

Usually, a bar part 10 is when moulding, and another root bar part 10 breaks away from swiveling wheel 23, so that the forming process of bar part 10 is comparatively compact, and 4 locating slots is set on swiveling wheel 23 usually.Thus, but the material loading position of the self-align groove in lower end of preferred orientation piece 24 extends to the blanking position, and the two ends of locating piece 24 lower ends are relative with two locating slots respectively.

In preferred technical scheme, swiveling wheel 23 is at least two, the axis of at least two swiveling wheels 23 is located along the same line, and all swiveling wheels 23 all are set on same power transmission shaft 35, and the working face line of the locating slot at least two swiveling wheels 23 is parallel to above-mentioned axis.This scheme adopts at least two swiveling wheels 23 to support the same bar part 10 of following simultaneously, and when swiveling wheel 23 rotation, at least two swiveling wheels 23 apply motive force to bar part 10 simultaneously, make the location of bar part 10 and rotate more steadily, reliably simultaneously.

For the ease of controlling the rotation of swiveling wheel 23, in the utility model embodiment, the driving mechanism be in transmission connection with swiveling wheel 23 comprise ratchet 34, with the push rod 33 of the groove fit of ratchet 34 and the telescopic drive part 32 be connected with push rod 33, this telescopic drive part 32 is preferably telescoping cylinder.Above-mentioned driving mechanism drives power transmission shaft 35 rotations by the rotation of ratchet 34, and then drives swiveling wheel 23 to rotate, and this kind of mode not only can drive swiveling wheel 23 reposefully, can also prevent swiveling wheel 23 reversings, is conducive to the accurate control of pay-off.

On the basis of technique scheme, also the spacing cylinder 36 of ratchet can be set below ratchet 34, the spacing cylinder 36 of this ratchet can effectively be controlled the rotational travel of ratchet 34, improves the position precision of swiveling wheel 23.

The spacing cylinder 36 of telescopic feeding pressure mechanism 22 in such scheme, telescopic drive part 32 and ratchet all can adopt the binodal cylinder, with this, provides more stable, reliable active force.In addition, the manufactured materials of swiveling wheel 23 is preferably POM(Polyoxymethylene, polyformaldehyde).

The former that is applied to the bar part moulding that the utility model embodiment provides, comprise shaped device and the pay-off be oppositely arranged with this shaped device, and this pay-off is the described pay-off of above-mentioned arbitrary scheme.Because above-mentioned pay-off has above-mentioned technique effect, this former that is applied to the bar part moulding also should have corresponding technique effect, repeats no more herein.

Above pay-off and the former that is applied to the bar part moulding provided by the utility model is described in detail.Applied specific case herein principle of the present utility model and embodiment are set forth, the explanation of above embodiment is just for helping to understand method of the present utility model and core concept thereof.Should be understood that; for those skilled in the art; under the prerequisite that does not break away from the utility model principle, can also carry out some improvement and modification to the utility model, these improvement and modification also fall in the protection domain of the utility model claim.

Claims (11)

1. a pay-off that is applied to the bar part moulding, comprise the first mount pad (21) and be installed on described the first mount pad (21), and the swiveling wheel (23) with locating slot, it is characterized in that, also comprise and being arranged on described the first mount pad (21), and be positioned at the locating piece (24) of described swiveling wheel (23) sidepiece, described locating piece (24) lower end forms the bar part limiting section at least one place, operating position of described locating slot with described locating slot, described bar part limiting section is on described locating slot in the stroke between material loading position to blanking position.

2. according to pay-off claimed in claim 1, it is characterized in that, also comprise the elasticity piece under pressure, described locating piece (24) is connected with described the first mount pad (21) is flexible by the fixture block connect with described the first mount pad (21) gear, and described elasticity piece under pressure is arranged between described locating piece (24) and described the first mount pad (21).

3. according to pay-off claimed in claim 1, it is characterized in that, the lower end of described locating piece (24) has curved working face, and the outline line of described curved working face is parallel to the axis of described swiveling wheel (23).

4. according to pay-off claimed in claim 1, it is characterized in that, also comprise and being arranged on described the first mount pad (21), and be positioned at the telescopic feeding pressure mechanism (22) of described swiveling wheel (23) sidepiece, the telescopic end of described telescopic feeding pressure mechanism (22) acts on the upper surface of bar part (10) mutually at flexible end of travel.

5. according to pay-off claimed in claim 4, it is characterized in that having the binder groove on described telescopic end, described binder groove acts on the upper surface of described bar part (10) mutually at flexible end of travel.

6. according to pay-off claimed in claim 4, it is characterized in that, described telescopic feeding pressure mechanism (22) and described locating piece (24) lay respectively at the both sides of described swiveling wheel (23).

7. according to the described pay-off of any one in claim 1-6, it is characterized in that, the lower end of described locating piece (24) extends to described blanking position from described material loading position.

8. according to the described pay-off of any one in claim 1-6, it is characterized in that, described swiveling wheel (23) is at least two, the axis of at least two described swiveling wheels (23) is located along the same line, and the working face line of the described locating slot at least two described swiveling wheels (23) is parallel to described axis.

9. according to the described pay-off of any one in claim 1-6, it is characterized in that, the driving mechanism be in transmission connection with described swiveling wheel (23) comprise ratchet (34), with the push rod (33) of the groove fit of described ratchet (34) and the telescopic drive part (32) be connected with described push rod (33).

10. according to pay-off claimed in claim 9, it is characterized in that, described ratchet (34) below is provided with the spacing cylinder of ratchet (36).

11. a former that is applied to the bar part moulding, comprise shaped device and the pay-off be oppositely arranged with described shaped device, it is characterized in that, described pay-off is pay-off as described as any one in claim 1-10.

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